Budget Group : LCA Organic vs Conventional Orange Crops |
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
32,161.3305 |
environmental performance |
33,577.1600 |
mean |
3,340.8600 |
sd |
10000 |
|
33,567.3775 |
mean |
33,512.8013 |
lower 90% ci |
33,621.9537 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
12.0 |
I1.QTM+I2.QTM/2 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 1546326.1907, 154.6326, 154.6842, 17.3962, 302.6280, 90.2019, 217.5003,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
90.2019,132.2439,139.9212,145.4144,150.3242,154.6852,159.0753,163.7764,169.2482,177.1526,217.5003
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrate Loss (6.0)
|
NO3 |
01/01/2014 |
CO2A, NO2A, SO2 |
algorithm1 |
triangle |
6.0 |
equalto |
subalgorithm1 |
66,884.0000 |
kg N / ha applied |
65,526.0000 |
kg N / ha total |
17,364.0000 |
kg N03-N / ha |
60,867.0000 |
kg N / ha applied |
0.0000 |
kg N03-N / ha |
177.8669 |
kg N03-N / ha |
13,409.5000 |
24,821.0000 |
8,380.5127 |
kg N03-N / ha |
8,284.4872 |
lower 90 % ci |
8,476.5382 |
upper 90 % ci |
Nitrate emissions derived from fertilizer. Measurement for field has been adjusted to NO3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 30 kg N03) / 111 kg N per ha ap |
((I1.Q1/ I1.Q2) * I1.Q3) / I1.Q4 |
Ammonia Loss (6.0)
|
NH3 |
01/01/2014 |
SO2A, SO2B |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
66,884.0000 |
kg N / ha applied |
65,526.0000 |
kg N / ha total |
2,919.7500 |
kg NH3-N / ha |
60,867.0000 |
kg N / ha applied |
0.0000 |
kg N03-N / ha |
28.6106 |
kg N03-N / ha |
2,851.3000 |
267.2500 |
2,852.4924 |
kg N03-N / ha |
2,848.1216 |
lower 90 % ci |
2,856.8632 |
upper 90 % ci |
Ammonia emissions derived from fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .053 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 6.4 kg NH3) / 111 kg N per ha a |
((I2.Q1/ I2.Q2) * I2.Q3) / I2.Q4 |
Nitrous Oxide Emissions (6.0)
|
N2O |
01/01/2014 |
CO2A |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
66,884.0000 |
kg N / ha applied |
65,526.0000 |
kg N / ha total |
863.2000 |
kg N2O-N / ha |
60,867.0000 |
kg N / ha applied |
0.0000 |
none |
8.7489 |
kg N2O-N / ha |
880.6000 |
87.3200 |
880.9087 |
kg N2O-N / ha |
879.4648 |
lower 90 % ci |
882.3526 |
upper 90 % ci |
Nitrous Oxide emissions derived from fertilizer. Measurement for field has been adjusted to NH4 emission per kg fertilizer applied, as follows: .0.013 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 1.6 kg N2O) / 111 kg N |
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4 |
Global Warming (1.0)
|
CO2 |
01/01/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
1.5540 |
kg N2O-N / ha |
33,078.0000 |
charac factor |
111.0000 |
normal factor |
19.1364 |
weight factor |
0.0000 |
none |
82.5618 |
kg CO2 equivs |
8,258.4000 |
832.5000 |
82.5618 |
kg CO2 equivs |
82.5618 |
lower 90 % ci |
82.5618 |
upper 90 % ci |
This indicator measures the contribution of the nitrous oxide emissions from this input on the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Acidification (6.0)
|
SO2A |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
178.1650 |
kg NO3-N / ha |
732.6600 |
charac factor |
605.0000 |
normal factor |
30.2500 |
weight factor |
0.0000 |
none |
11.1876 |
kg SO2 equivs |
1,143.9500 |
111.1850 |
1,144.1820 |
kg SO2 equivs |
1,142.3494 |
lower 90 % ci |
1,146.0146 |
upper 90 % ci |
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of eutrophication. |
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4 |
Eutrophication (6.0)
|
NO3A |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
178.1650 |
kg NO3-N / ha |
1,416.7300 |
charac factor |
605.0000 |
normal factor |
30.2500 |
weight factor |
0.0000 |
none |
21.6537 |
kg N03 equivs |
2,176.7000 |
215.6150 |
2,177.1297 |
kg N03 equivs |
2,173.5913 |
lower 90 % ci |
2,180.6681 |
upper 90 % ci |
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of acidification. |
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4 |
Eutrophication (1.0)
|
NO3E |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
12,817.8582 |
kg NH3-N / ha |
15,857.3823 |
charac factor |
3,330.0000 |
normal factor |
12,817.8582 |
weight factor |
0.0000 |
none |
1.2876 |
kg N03 equivs |
133.2000 |
10.7670 |
1.2876 |
kg N03 equivs |
1.2876 |
lower 90 % ci |
1.2876 |
upper 90 % ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Acidification (6.0)
|
SO2B |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
98.9625 |
kg NH3-N / ha |
828.2400 |
charac factor |
605.0000 |
normal factor |
30.2500 |
weight factor |
0.0000 |
none |
4.3514 |
kg SO2 equivs |
429.9000 |
55.5550 |
430.0029 |
kg SO2 equivs |
429.0827 |
lower 90 % ci |
430.9231 |
upper 90 % ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of acidification. |
((I8.Q1*I8.Q2)/I8.Q3)*I8.Q4 |
Nitrogen (6.0)
|
N |
01/01/2014 |
|
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
9,491.0000 |
kg N / ha |
8,628.0000 |
tons / ha |
57.0000 |
none |
0.0000 |
none |
0.0000 |
none |
361.0991 |
kg N / ton |
36,140.0000 |
4,923.0000 |
36,139.7144 |
kg N / ton |
36,059.4260 |
lower 90% ci |
36,220.0028 |
upper 90% ci |
This indicator measures annual nitrogen per ton of output yield. |
I1.Q1/I1.Q2 |
Phosphorous (6.0)
|
P |
01/01/2014 |
|
algorithm1 |
triangle |
none |
equalto |
subalgorithm1 |
1,312.9000 |
kg P / ha |
6,252.0000 |
tons / ha |
4.4400 |
none |
0.0000 |
none |
0.0000 |
none |
66.9294 |
kg P / ton |
4,784.0000 |
11,144.0000 |
3,747.9658 |
kg P / ton |
3,705.0969 |
lower 90% ci |
3,790.8347 |
upper 90% ci |
This indicator measures annual phosphorous per ton of output yield. |
I2.Q1/I2.Q2 |
Global Warming (5.0)
|
CO2A |
01/01/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
6.9857 |
kg N2O-N / ha |
147,212.0000 |
charac factor |
494.0000 |
normal factor |
79.0400 |
weight factor |
0.0000 |
none |
333.0773 |
kg CO2 equivs |
34,325.0000 |
3,602.6000 |
34,336.3594 |
kg CO2 equivs |
34,277.4237 |
lower 90% ci |
34,395.2951 |
upper 90% ci |
This indicator measures the contribution of the nitrous oxide emissions from this input on the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Eutrophication (5.0)
|
NO3B |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
91.8585 |
kg NH3-N / ha |
1,106.4800 |
charac factor |
494.0000 |
normal factor |
24.7000 |
weight factor |
0.0000 |
none |
5.6217 |
kg N03 equivs |
566.2700 |
66.1640 |
566.4179 |
kg N03 equivs |
565.3394 |
lower 90% ci |
567.4964 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Budget : Conventional Orange Budget, Brazil |
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
18,657.8711 |
env performance |
20,093.0000 |
mean |
2,144.1500 |
sd |
10000 |
|
20,104.4206 |
mean |
20,069.4731 |
lower 90% ci |
20,139.3681 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
6.0 |
(I1.QTM+I2.QTM)/2 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 550302.1852, 55.0302, 55.0050, 5.9222, 35.0726, 32.5144, 77.2198,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
32.5144,47.4841,50.0692,51.9360,53.5344,55.0055,56.5288,58.1234,59.9692,62.5652,77.2198
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrate Loss (3.0)
|
NO3 |
01/01/2014 |
CO2A, NO2A, SO2 |
algorithm1 |
triangle |
3.0 |
equalto |
subalgorithm1 |
41,780.0000 |
kg N / ha applied |
41,160.0000 |
kg N / ha total |
10,290.0000 |
kg N03-N / ha |
38,073.0000 |
kg N / ha applied |
0.0000 |
kg N03-N / ha |
94.0965 |
kg N03-N / ha |
7,722.5000 |
13,720.0000 |
4,633.6378 |
kg N03-N / ha |
4,580.6437 |
lower 90 % ci |
4,686.6319 |
upper 90 % ci |
Nitrate emissions derived from fertilizer. Measurement for field has been adjusted to NO3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 30 kg N03) / 111 kg N per ha ap |
((I1.Q1/ I1.Q2) * I1.Q3) / I1.Q4 |
Ammonia Loss (3.0)
|
NH3 |
01/01/2014 |
SO2A, SO2B |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
41,780.0000 |
kg N / ha applied |
41,160.0000 |
kg N / ha total |
2,212.3500 |
kg NH3-N / ha |
38,073.0000 |
kg N / ha applied |
0.0000 |
kg N03-N / ha |
20.2395 |
kg N03-N / ha |
2,020.7000 |
188.6500 |
2,021.8662 |
kg N03-N / ha |
2,018.7792 |
lower 90 % ci |
2,024.9532 |
upper 90 % ci |
Ammonia emissions derived from fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .053 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 6.4 kg NH3) / 111 kg N per ha a |
((I2.Q1/ I2.Q2) * I2.Q3) / I2.Q4 |
Nitrous Oxide Emissions (3.0)
|
N2O |
01/01/2014 |
CO2A |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
41,780.0000 |
kg N / ha applied |
41,160.0000 |
kg N / ha total |
548.8000 |
kg N2O-N / ha |
38,073.0000 |
kg N / ha applied |
0.0000 |
none |
5.0226 |
kg N2O-N / ha |
504.6000 |
48.0200 |
504.9087 |
kg N2O-N / ha |
504.1198 |
lower 90 % ci |
505.6976 |
upper 90 % ci |
Nitrous Oxide emissions derived from fertilizer. Measurement for field has been adjusted to NH4 emission per kg fertilizer applied, as follows: .0.013 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 1.6 kg N2O) / 111 kg N |
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4 |
Global Warming (1.0)
|
CO2 |
01/01/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
1.5540 |
kg N2O-N / ha |
33,078.0000 |
charac factor |
111.0000 |
normal factor |
19.1364 |
weight factor |
0.0000 |
none |
82.5618 |
kg CO2 equivs |
8,258.4000 |
832.5000 |
82.5618 |
kg CO2 equivs |
82.5618 |
lower 90 % ci |
82.5618 |
upper 90 % ci |
This indicator measures the contribution of the nitrous oxide emissions from this input on the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Acidification (3.0)
|
SO2A |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
94.1750 |
kg NO3-N / ha |
240.1000 |
charac factor |
343.0000 |
normal factor |
17.1500 |
weight factor |
0.0000 |
none |
3.2874 |
kg SO2 equivs |
338.9500 |
32.5850 |
339.1558 |
kg SO2 equivs |
338.6070 |
lower 90 % ci |
339.7046 |
upper 90 % ci |
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of eutrophication. |
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4 |
Eutrophication (3.0)
|
NO3A |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
94.1750 |
kg NO3-N / ha |
463.0500 |
charac factor |
343.0000 |
normal factor |
17.1500 |
weight factor |
0.0000 |
none |
6.3696 |
kg N03 equivs |
645.9000 |
60.0250 |
646.2773 |
kg N03 equivs |
645.2826 |
lower 90 % ci |
647.2720 |
upper 90 % ci |
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of acidification. |
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4 |
Eutrophication (1.0)
|
NO3E |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
12,817.8582 |
kg NH3-N / ha |
15,857.3823 |
charac factor |
3,330.0000 |
normal factor |
12,817.8582 |
weight factor |
0.0000 |
none |
1.2876 |
kg N03 equivs |
133.2000 |
10.7670 |
1.2876 |
kg N03 equivs |
1.2876 |
lower 90 % ci |
1.2876 |
upper 90 % ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Acidification (3.0)
|
SO2B |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
14.9725 |
kg NH3-N / ha |
644.8400 |
charac factor |
343.0000 |
normal factor |
17.1500 |
weight factor |
0.0000 |
none |
1.4120 |
kg SO2 equivs |
141.2000 |
18.8650 |
141.3029 |
kg SO2 equivs |
140.9942 |
lower 90 % ci |
141.6116 |
upper 90 % ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of acidification. |
((I8.Q1*I8.Q2)/I8.Q3)*I8.Q4 |
Nitrogen (3.0)
|
N |
01/01/2014 |
|
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
7,886.0000 |
kg N / ha |
7,656.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
271.9311 |
kg N / ton |
27,180.0000 |
3,960.0000 |
27,199.9320 |
kg N / ton |
27,135.4368 |
lower 90% ci |
27,264.4272 |
upper 90% ci |
This indicator measures annual nitrogen per ton of output yield. |
I1.Q1/I1.Q2 |
Phosphorous (3.0)
|
P |
01/01/2014 |
|
algorithm1 |
triangle |
none |
equalto |
subalgorithm1 |
1,081.5000 |
kg P / ha |
5,280.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
54.0750 |
kg P / ton |
3,998.0000 |
9,278.0000 |
3,120.2776 |
kg P / ton |
3,084.6253 |
lower 90% ci |
3,155.9299 |
upper 90% ci |
This indicator measures annual phosphorous per ton of output yield. |
I2.Q1/I2.Q2 |
Global Warming (2.0)
|
CO2A |
01/01/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
3.1885 |
kg N2O-N / ha |
69,136.0000 |
charac factor |
232.0000 |
normal factor |
37.1200 |
weight factor |
0.0000 |
none |
152.0276 |
kg CO2 equivs |
16,125.0000 |
1,740.0000 |
16,135.8344 |
kg CO2 equivs |
16,107.3912 |
lower 90% ci |
16,164.2776 |
upper 90% ci |
This indicator measures the contribution of the nitrous oxide emissions from this input on the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Eutrophication (2.0)
|
NO3B |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
7.8685 |
kg NH3-N / ha |
844.4800 |
charac factor |
232.0000 |
normal factor |
11.6000 |
weight factor |
0.0000 |
none |
1.4222 |
kg N03 equivs |
142.2200 |
22.5040 |
142.3592 |
kg N03 equivs |
141.9880 |
lower 90% ci |
142.7304 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Time Period : 2012 Conventional Orange Crop
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
1,419.8485 |
env performance |
3,064.9000 |
mean |
313.1500 |
sd |
10000 |
|
3,066.6973 |
mean |
3,061.5823 |
lower 90% ci |
3,071.8123 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
2.0 |
(I1.QTM+I2.QTM)/2 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 650327.3673, 65.0327, 65.0054, 6.4157, 41.1615, 40.6406, 89.0715,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
40.6406,56.8578,59.6583,61.6807,63.4122,65.0059,66.6562,68.3836,70.3833,73.1957,89.0715
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrate Loss (1.0)
|
NO3 |
01/01/2014 |
CO2A, NO2A, SO2 |
algorithm1 |
triangle |
1.0 |
equalto |
subalgorithm1 |
14,763.0000 |
kg N / ha applied |
13,320.0000 |
kg N / ha total |
3,330.0000 |
kg N03-N / ha |
12,321.0000 |
kg N / ha applied |
0.0000 |
kg N03-N / ha |
33.2445 |
kg N03-N / ha |
2,220.0000 |
4,440.0000 |
1,501.1418 |
kg N03-N / ha |
1,484.0034 |
lower 90 % ci |
1,518.2802 |
upper 90 % ci |
Nitrate emissions derived from fertilizer. Measurement for field has been adjusted to NO3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 30 kg N03) / 111 kg N per ha ap |
((I1.Q1/ I1.Q2) * I1.Q3) / I1.Q4 |
Ammonia Loss (1.0)
|
NH3 |
01/01/2014 |
SO2A, SO2B |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
14,763.0000 |
kg N / ha applied |
13,320.0000 |
kg N / ha total |
715.9500 |
kg NH3-N / ha |
12,321.0000 |
kg N / ha applied |
0.0000 |
kg N03-N / ha |
7.1484 |
kg N03-N / ha |
710.4000 |
61.0500 |
710.7774 |
kg N03-N / ha |
709.7784 |
lower 90 % ci |
711.7764 |
upper 90 % ci |
Ammonia emissions derived from fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .053 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 6.4 kg NH3) / 111 kg N per ha a |
((I2.Q1/ I2.Q2) * I2.Q3) / I2.Q4 |
Nitrous Oxide Emissions (1.0)
|
N2O |
01/01/2014 |
CO2A |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
14,763.0000 |
kg N / ha applied |
13,320.0000 |
kg N / ha total |
177.6000 |
kg N2O-N / ha |
12,321.0000 |
kg N / ha applied |
0.0000 |
none |
1.7760 |
kg N2O-N / ha |
177.6000 |
15.5400 |
177.6999 |
kg N2O-N / ha |
177.4446 |
lower 90 % ci |
177.9552 |
upper 90 % ci |
Nitrous Oxide emissions derived from fertilizer. Measurement for field has been adjusted to NH4 emission per kg fertilizer applied, as follows: .0.013 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 1.6 kg N2O) / 111 kg N |
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4 |
Global Warming (1.0)
|
CO2 |
01/01/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
1.5540 |
kg N2O-N / ha |
33,078.0000 |
charac factor |
111.0000 |
normal factor |
19.1364 |
weight factor |
0.0000 |
none |
82.5618 |
kg CO2 equivs |
8,258.4000 |
832.5000 |
82.5618 |
kg CO2 equivs |
82.5618 |
lower 90 % ci |
82.5618 |
upper 90 % ci |
This indicator measures the contribution of the nitrous oxide emissions from this input on the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Acidification (1.0)
|
SO2A |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
33.3000 |
kg NO3-N / ha |
77.7000 |
charac factor |
111.0000 |
normal factor |
5.5500 |
weight factor |
0.0000 |
none |
1.1655 |
kg SO2 equivs |
122.1000 |
10.5450 |
122.1666 |
kg SO2 equivs |
121.9890 |
lower 90 % ci |
122.3442 |
upper 90 % ci |
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of eutrophication. |
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4 |
Eutrophication (1.0)
|
NO3A |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
33.3000 |
kg NO3-N / ha |
149.8500 |
charac factor |
111.0000 |
normal factor |
5.5500 |
weight factor |
0.0000 |
none |
2.2533 |
kg N03 equivs |
233.1000 |
19.4250 |
233.2221 |
kg N03 equivs |
232.9002 |
lower 90 % ci |
233.5440 |
upper 90 % ci |
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of acidification. |
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4 |
Eutrophication (1.0)
|
NO3E |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
12,817.8582 |
kg NH3-N / ha |
15,857.3823 |
charac factor |
3,330.0000 |
normal factor |
12,817.8582 |
weight factor |
0.0000 |
none |
1.2876 |
kg N03 equivs |
133.2000 |
10.7670 |
1.2876 |
kg N03 equivs |
1.2876 |
lower 90 % ci |
1.2876 |
upper 90 % ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Acidification (1.0)
|
SO2B |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
7.1040 |
kg NH3-N / ha |
208.6800 |
charac factor |
111.0000 |
normal factor |
5.5500 |
weight factor |
0.0000 |
none |
0.6660 |
kg SO2 equivs |
66.6000 |
6.1050 |
66.6333 |
kg SO2 equivs |
66.5334 |
lower 90 % ci |
66.7332 |
upper 90 % ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of acidification. |
((I8.Q1*I8.Q2)/I8.Q3)*I8.Q4 |
Nitrogen (1.0)
|
N |
01/01/2014 |
|
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
696.0000 |
kg N / ha |
580.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
24.0000 |
kg N / ton |
2,400.0000 |
300.0000 |
2,401.5100 |
kg N / ton |
2,396.6240 |
lower 90% ci |
2,406.3960 |
upper 90% ci |
This indicator measures annual nitrogen per ton of output yield. |
I1.Q1/I1.Q2 |
Phosphorous (1.0)
|
P |
01/01/2014 |
|
algorithm1 |
triangle |
none |
equalto |
subalgorithm1 |
96.0000 |
kg P / ha |
400.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
4.8000 |
kg P / ton |
300.0000 |
700.0000 |
235.8360 |
kg P / ton |
233.1480 |
lower 90% ci |
238.5240 |
upper 90% ci |
This indicator measures annual phosphorous per ton of output yield. |
I2.Q1/I2.Q2 |
Outcomes |
Outcome
|
2012 Conventional Orange Crop Outcome
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
1,318.6720 |
env performance |
1,300.0000 |
mean |
130.0000 |
sd |
10000 |
|
1,300.6540 |
mean |
1,298.5360 |
lower 90% ci |
1,302.7720 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
(I1.QTM+I2.QTM)/2 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 650327.3673, 65.0327, 65.0054, 6.4157, 41.1615, 40.6406, 89.0715,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
40.6406,56.8578,59.6583,61.6807,63.4122,65.0059,66.6562,68.3836,70.3833,73.1957,89.0715
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrogen (1.0)
|
N |
01/01/2014 |
|
algorithm1 |
normal |
1.0 |
equalto |
subalgorithm1 |
696.0000 |
kg N / ha |
580.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
24.0000 |
kg N / ton |
2,400.0000 |
300.0000 |
2,401.5100 |
kg N / ton |
2,396.6240 |
lower 90% ci |
2,406.3960 |
upper 90% ci |
This indicator measures annual nitrogen per ton of output yield. |
I1.Q1/I1.Q2 |
Phosphorous (1.0)
|
P |
01/01/2014 |
|
algorithm1 |
triangle |
none |
equalto |
subalgorithm1 |
96.0000 |
kg P / ha |
400.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
4.8000 |
kg P / ton |
300.0000 |
700.0000 |
235.8360 |
kg P / ton |
233.1480 |
lower 90% ci |
238.5240 |
upper 90% ci |
This indicator measures annual phosphorous per ton of output yield. |
I2.Q1/I2.Q2 |
Output : 2012 Orange, Conventional LCA
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
1,318.6720 |
env performance |
1,300.0000 |
mean |
130.0000 |
sd |
10000 |
|
1,300.6540 |
mean |
1,298.5360 |
lower 90% ci |
1,302.7720 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
(I1.QTM+I2.QTM)/2 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 650327.3673, 65.0327, 65.0054, 6.4157, 41.1615, 40.6406, 89.0715,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
40.6406,56.8578,59.6583,61.6807,63.4122,65.0059,66.6562,68.3836,70.3833,73.1957,89.0715
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrogen (1.0)
|
N |
01/01/2014 |
|
algorithm1 |
normal |
1.0 |
equalto |
subalgorithm1 |
696.0000 |
kg N / ha |
580.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
24.0000 |
kg N / ton |
2,400.0000 |
300.0000 |
2,401.5100 |
kg N / ton |
2,396.6240 |
lower 90% ci |
2,406.3960 |
upper 90% ci |
This indicator measures annual nitrogen per ton of output yield. |
I1.Q1/I1.Q2 |
Phosphorous (1.0)
|
P |
01/01/2014 |
|
algorithm1 |
triangle |
none |
equalto |
subalgorithm1 |
96.0000 |
kg P / ha |
400.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
4.8000 |
kg P / ton |
300.0000 |
700.0000 |
235.8360 |
kg P / ton |
233.1480 |
lower 90% ci |
238.5240 |
upper 90% ci |
This indicator measures annual phosphorous per ton of output yield. |
I2.Q1/I2.Q2 |
Operations |
Operation
|
2012 Conventional Orange Crop Operation
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
101.1765 |
environmental performance |
1,764.9000 |
mean |
183.1500 |
sd |
10000 |
|
1,766.0433 |
mean |
1,763.0463 |
lower 90 % ci |
1,769.0403 |
upper 90 % ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
(I4.QTM+I5.QTM+I6.QTM+I7.QTM+I8.QTM)/5 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 159102.6879, 15.9103, 15.9256, 1.6350, 2.6731, 9.5615, 21.7042,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
9.5615,13.8243,14.5253,15.0510,15.5038,15.9257,16.3309,16.7829,17.2888,18.0022,21.7042
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrate Loss (1.0)
|
NO3 |
01/01/2014 |
CO2A, NO2A, SO2 |
algorithm1 |
triangle |
1.0 |
equalto |
subalgorithm1 |
14,763.0000 |
kg N / ha applied |
13,320.0000 |
kg N / ha total |
3,330.0000 |
kg N03-N / ha |
12,321.0000 |
kg N / ha applied |
0.0000 |
kg N03-N / ha |
33.2445 |
kg N03-N / ha |
2,220.0000 |
4,440.0000 |
1,501.1418 |
kg N03-N / ha |
1,484.0034 |
lower 90 % ci |
1,518.2802 |
upper 90 % ci |
Nitrate emissions derived from fertilizer. Measurement for field has been adjusted to NO3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 30 kg N03) / 111 kg N per ha ap |
((I1.Q1/ I1.Q2) * I1.Q3) / I1.Q4 |
Ammonia Loss (1.0)
|
NH3 |
01/01/2014 |
SO2A, SO2B |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
14,763.0000 |
kg N / ha applied |
13,320.0000 |
kg N / ha total |
715.9500 |
kg NH3-N / ha |
12,321.0000 |
kg N / ha applied |
0.0000 |
kg N03-N / ha |
7.1484 |
kg N03-N / ha |
710.4000 |
61.0500 |
710.7774 |
kg N03-N / ha |
709.7784 |
lower 90 % ci |
711.7764 |
upper 90 % ci |
Ammonia emissions derived from fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .053 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 6.4 kg NH3) / 111 kg N per ha a |
((I2.Q1/ I2.Q2) * I2.Q3) / I2.Q4 |
Nitrous Oxide Emissions (1.0)
|
N2O |
01/01/2014 |
CO2A |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
14,763.0000 |
kg N / ha applied |
13,320.0000 |
kg N / ha total |
177.6000 |
kg N2O-N / ha |
12,321.0000 |
kg N / ha applied |
0.0000 |
none |
1.7760 |
kg N2O-N / ha |
177.6000 |
15.5400 |
177.6999 |
kg N2O-N / ha |
177.4446 |
lower 90 % ci |
177.9552 |
upper 90 % ci |
Nitrous Oxide emissions derived from fertilizer. Measurement for field has been adjusted to NH4 emission per kg fertilizer applied, as follows: .0.013 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 1.6 kg N2O) / 111 kg N |
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4 |
Global Warming (1.0)
|
CO2 |
01/01/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
1.5540 |
kg N2O-N / ha |
33,078.0000 |
charac factor |
111.0000 |
normal factor |
19.1364 |
weight factor |
0.0000 |
none |
82.5618 |
kg CO2 equivs |
8,258.4000 |
832.5000 |
82.5618 |
kg CO2 equivs |
82.5618 |
lower 90 % ci |
82.5618 |
upper 90 % ci |
This indicator measures the contribution of the nitrous oxide emissions from this input on the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Acidification (1.0)
|
SO2A |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
33.3000 |
kg NO3-N / ha |
77.7000 |
charac factor |
111.0000 |
normal factor |
5.5500 |
weight factor |
0.0000 |
none |
1.1655 |
kg SO2 equivs |
122.1000 |
10.5450 |
122.1666 |
kg SO2 equivs |
121.9890 |
lower 90 % ci |
122.3442 |
upper 90 % ci |
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of eutrophication. |
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4 |
Eutrophication (1.0)
|
NO3A |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
33.3000 |
kg NO3-N / ha |
149.8500 |
charac factor |
111.0000 |
normal factor |
5.5500 |
weight factor |
0.0000 |
none |
2.2533 |
kg N03 equivs |
233.1000 |
19.4250 |
233.2221 |
kg N03 equivs |
232.9002 |
lower 90 % ci |
233.5440 |
upper 90 % ci |
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of acidification. |
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4 |
Eutrophication (1.0)
|
NO3E |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
12,817.8582 |
kg NH3-N / ha |
15,857.3823 |
charac factor |
3,330.0000 |
normal factor |
12,817.8582 |
weight factor |
0.0000 |
none |
1.2876 |
kg N03 equivs |
133.2000 |
10.7670 |
1.2876 |
kg N03 equivs |
1.2876 |
lower 90 % ci |
1.2876 |
upper 90 % ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Acidification (1.0)
|
SO2B |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
7.1040 |
kg NH3-N / ha |
208.6800 |
charac factor |
111.0000 |
normal factor |
5.5500 |
weight factor |
0.0000 |
none |
0.6660 |
kg SO2 equivs |
66.6000 |
6.1050 |
66.6333 |
kg SO2 equivs |
66.5334 |
lower 90 % ci |
66.7332 |
upper 90 % ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of acidification. |
((I8.Q1*I8.Q2)/I8.Q3)*I8.Q4 |
Input : 2012 Fertilizer, Orange, Conventional
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
101.1765 |
environmental performance |
1,764.9000 |
mean |
183.1500 |
sd |
10000 |
|
1,766.0433 |
mean |
1,763.0463 |
lower 90 % ci |
1,769.0403 |
upper 90 % ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
(I4.QTM+I5.QTM+I6.QTM+I7.QTM+I8.QTM)/5 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 159102.6879, 15.9103, 15.9256, 1.6350, 2.6731, 9.5615, 21.7042,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
9.5615,13.8243,14.5253,15.0510,15.5038,15.9257,16.3309,16.7829,17.2888,18.0022,21.7042
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrate Loss (1.0)
|
NO3 |
01/01/2014 |
CO2A, NO2A, SO2 |
algorithm1 |
triangle |
1.0 |
equalto |
subalgorithm1 |
14,763.0000 |
kg N / ha applied |
13,320.0000 |
kg N / ha total |
3,330.0000 |
kg N03-N / ha |
12,321.0000 |
kg N / ha applied |
0.0000 |
kg N03-N / ha |
33.2445 |
kg N03-N / ha |
2,220.0000 |
4,440.0000 |
1,501.1418 |
kg N03-N / ha |
1,484.0034 |
lower 90 % ci |
1,518.2802 |
upper 90 % ci |
Nitrate emissions derived from fertilizer. Measurement for field has been adjusted to NO3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 30 kg N03) / 111 kg N per ha ap |
((I1.Q1/ I1.Q2) * I1.Q3) / I1.Q4 |
Ammonia Loss (1.0)
|
NH3 |
01/01/2014 |
SO2A, SO2B |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
14,763.0000 |
kg N / ha applied |
13,320.0000 |
kg N / ha total |
715.9500 |
kg NH3-N / ha |
12,321.0000 |
kg N / ha applied |
0.0000 |
kg N03-N / ha |
7.1484 |
kg N03-N / ha |
710.4000 |
61.0500 |
710.7774 |
kg N03-N / ha |
709.7784 |
lower 90 % ci |
711.7764 |
upper 90 % ci |
Ammonia emissions derived from fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .053 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 6.4 kg NH3) / 111 kg N per ha a |
((I2.Q1/ I2.Q2) * I2.Q3) / I2.Q4 |
Nitrous Oxide Emissions (1.0)
|
N2O |
01/01/2014 |
CO2A |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
14,763.0000 |
kg N / ha applied |
13,320.0000 |
kg N / ha total |
177.6000 |
kg N2O-N / ha |
12,321.0000 |
kg N / ha applied |
0.0000 |
none |
1.7760 |
kg N2O-N / ha |
177.6000 |
15.5400 |
177.6999 |
kg N2O-N / ha |
177.4446 |
lower 90 % ci |
177.9552 |
upper 90 % ci |
Nitrous Oxide emissions derived from fertilizer. Measurement for field has been adjusted to NH4 emission per kg fertilizer applied, as follows: .0.013 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 1.6 kg N2O) / 111 kg N |
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4 |
Global Warming (1.0)
|
CO2 |
01/01/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
1.5540 |
kg N2O-N / ha |
33,078.0000 |
charac factor |
111.0000 |
normal factor |
19.1364 |
weight factor |
0.0000 |
none |
82.5618 |
kg CO2 equivs |
8,258.4000 |
832.5000 |
82.5618 |
kg CO2 equivs |
82.5618 |
lower 90 % ci |
82.5618 |
upper 90 % ci |
This indicator measures the contribution of the nitrous oxide emissions from this input on the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Acidification (1.0)
|
SO2A |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
33.3000 |
kg NO3-N / ha |
77.7000 |
charac factor |
111.0000 |
normal factor |
5.5500 |
weight factor |
0.0000 |
none |
1.1655 |
kg SO2 equivs |
122.1000 |
10.5450 |
122.1666 |
kg SO2 equivs |
121.9890 |
lower 90 % ci |
122.3442 |
upper 90 % ci |
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of eutrophication. |
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4 |
Eutrophication (1.0)
|
NO3A |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
33.3000 |
kg NO3-N / ha |
149.8500 |
charac factor |
111.0000 |
normal factor |
5.5500 |
weight factor |
0.0000 |
none |
2.2533 |
kg N03 equivs |
233.1000 |
19.4250 |
233.2221 |
kg N03 equivs |
232.9002 |
lower 90 % ci |
233.5440 |
upper 90 % ci |
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of acidification. |
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4 |
Eutrophication (1.0)
|
NO3E |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
12,817.8582 |
kg NH3-N / ha |
15,857.3823 |
charac factor |
3,330.0000 |
normal factor |
12,817.8582 |
weight factor |
0.0000 |
none |
1.2876 |
kg N03 equivs |
133.2000 |
10.7670 |
1.2876 |
kg N03 equivs |
1.2876 |
lower 90 % ci |
1.2876 |
upper 90 % ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Acidification (1.0)
|
SO2B |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
7.1040 |
kg NH3-N / ha |
208.6800 |
charac factor |
111.0000 |
normal factor |
5.5500 |
weight factor |
0.0000 |
none |
0.6660 |
kg SO2 equivs |
66.6000 |
6.1050 |
66.6333 |
kg SO2 equivs |
66.5334 |
lower 90 % ci |
66.7332 |
upper 90 % ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of acidification. |
((I8.Q1*I8.Q2)/I8.Q3)*I8.Q4 |
Time Period : 2013 Conventional Orange Crop
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
2,921.4103 |
env performance |
2,921.5000 |
mean |
305.5000 |
sd |
10000 |
|
2,923.2402 |
mean |
2,918.2567 |
lower 90% ci |
2,928.2237 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
2.0 |
(I1.QTM+I2.QTM)/2 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 660352.5494, 66.0353, 66.0058, 6.9092, 47.7377, 39.7668, 91.9231,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
39.7668,57.2315,60.2474,62.4253,64.2901,66.0064,67.7836,69.6439,71.7974,74.8261,91.9231
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrate Loss (1.0)
|
NO3 |
01/01/2014 |
CO2A, NO2A, SO2 |
algorithm1 |
triangle |
1.0 |
equalto |
subalgorithm1 |
14,030.0000 |
kg N / ha applied |
13,800.0000 |
kg N / ha total |
3,450.0000 |
kg N03-N / ha |
12,765.0000 |
kg N / ha applied |
0.0000 |
kg N03-N / ha |
31.6020 |
kg N03-N / ha |
3,162.5000 |
4,600.0000 |
1,553.5810 |
kg N03-N / ha |
1,535.8135 |
lower 90% ci |
1,571.3485 |
upper 90% ci |
Nitrate emissions derived from fertilizer. Measurement for field has been adjusted to NO3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 30 kg N03) / 111 kg N per ha ap |
((I1.Q1/ I1.Q2) * I1.Q3) / I1.Q4 |
Ammonia Loss (1.0)
|
NH3 |
01/01/2014 |
SO2A, SO2B |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
14,030.0000 |
kg N / ha applied |
13,800.0000 |
kg N / ha total |
741.7500 |
kg NH3-N / ha |
12,765.0000 |
kg N / ha applied |
0.0000 |
kg N03-N / ha |
6.7965 |
kg N03-N / ha |
678.5000 |
63.2500 |
678.8910 |
kg N03-N / ha |
677.8560 |
lower 90% ci |
679.9260 |
upper 90% ci |
Ammonia emissions derived from fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .053 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 6.4 kg NH3) / 111 kg N per ha a |
((I2.Q1/ I2.Q2) * I2.Q3) / I2.Q4 |
Nitrous Oxide Emissions (1.0)
|
N2O |
01/01/2014 |
CO2A |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
14,030.0000 |
kg N / ha applied |
13,800.0000 |
kg N / ha total |
184.0000 |
kg N2O-N / ha |
12,765.0000 |
kg N / ha applied |
0.0000 |
none |
1.6905 |
kg N2O-N / ha |
169.0500 |
16.1000 |
169.1535 |
kg N2O-N / ha |
168.8890 |
lower 90% ci |
169.4180 |
upper 90% ci |
Nitrous Oxide emissions derived from fertilizer. Measurement for field has been adjusted to NH4 emission per kg fertilizer applied, as follows: .0.013 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 1.6 kg N2O) / 111 kg N |
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4 |
Global Warming (1.0)
|
CO2A |
01/01/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
1.6675 |
kg N2O-N / ha |
34,270.0000 |
charac factor |
115.0000 |
normal factor |
18.4000 |
weight factor |
0.0000 |
none |
79.5110 |
kg CO2 equivs |
7,935.0000 |
862.5000 |
7,940.3705 |
kg CO2 equivs |
7,926.2715 |
lower 90% ci |
7,954.4695 |
upper 90% ci |
This indicator measures the contribution of the nitrous oxide emissions from this input on the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Acidification (1.0)
|
SO2A |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
31.6250 |
kg NO3-N / ha |
80.5000 |
charac factor |
115.0000 |
normal factor |
5.7500 |
weight factor |
0.0000 |
none |
1.1040 |
kg SO2 equivs |
111.5500 |
10.9250 |
111.6190 |
kg SO2 equivs |
111.4350 |
lower 90% ci |
111.8030 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of eutrophication. |
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4 |
Eutrophication (1.0)
|
NO3A |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
31.6250 |
kg NO3-N / ha |
155.2500 |
charac factor |
115.0000 |
normal factor |
5.7500 |
weight factor |
0.0000 |
none |
2.1390 |
kg N03 equivs |
213.9000 |
20.1250 |
214.0265 |
kg N03 equivs |
213.6930 |
lower 90% ci |
214.3600 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of acidification. |
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4 |
Eutrophication (1.0)
|
NO3B |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
1.6675 |
kg NH3-N / ha |
418.6000 |
charac factor |
115.0000 |
normal factor |
5.7500 |
weight factor |
0.0000 |
none |
0.2990 |
kg N03 equivs |
29.9000 |
11.1550 |
29.9690 |
kg N03 equivs |
29.7850 |
lower 90% ci |
30.1530 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Acidification (1.0)
|
SO2B |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
1.6675 |
kg NH3-N / ha |
216.2000 |
charac factor |
115.0000 |
normal factor |
5.7500 |
weight factor |
0.0000 |
none |
0.1610 |
kg SO2 equivs |
16.1000 |
6.3250 |
16.1345 |
kg SO2 equivs |
16.0310 |
lower 90% ci |
16.2380 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of acidification. |
((I8.Q1*I8.Q2)/I8.Q3)*I8.Q4 |
Nitrogen (1.0)
|
N |
01/01/2014 |
|
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
665.0000 |
kg N / ha |
551.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
22.9311 |
kg N / ton |
2,280.0000 |
285.0000 |
2,281.4345 |
kg N / ton |
2,276.7928 |
lower 90% ci |
2,286.0762 |
upper 90% ci |
This indicator measures annual nitrogen per ton of output yield. |
I1.Q1/I1.Q2 |
Phosphorous (1.0)
|
P |
01/01/2014 |
|
algorithm1 |
triangle |
none |
equalto |
subalgorithm1 |
85.5000 |
kg P / ha |
380.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
4.2750 |
kg P / ton |
323.0000 |
703.0000 |
236.5291 |
kg P / ton |
233.8273 |
lower 90% ci |
239.2309 |
upper 90% ci |
This indicator measures annual phosphorous per ton of output yield. |
I2.Q1/I2.Q2 |
Outcomes |
Outcome
|
2013 Conventional Orange Crop Outcome
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
1,258.9818 |
env performance |
1,254.0000 |
mean |
133.0000 |
sd |
10000 |
|
1,254.6707 |
mean |
1,252.5047 |
lower 90% ci |
1,256.8367 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
(I1.QTM+I2.QTM)/2 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 660352.5494, 66.0353, 66.0058, 6.9092, 47.7377, 39.7668, 91.9231,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
39.7668,57.2315,60.2474,62.4253,64.2901,66.0064,67.7836,69.6439,71.7974,74.8261,91.9231
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrogen (1.0)
|
N |
01/01/2014 |
|
algorithm1 |
normal |
1.0 |
equalto |
subalgorithm1 |
665.0000 |
kg N / ha |
551.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
22.9311 |
kg N / ton |
2,280.0000 |
285.0000 |
2,281.4345 |
kg N / ton |
2,276.7928 |
lower 90% ci |
2,286.0762 |
upper 90% ci |
This indicator measures annual nitrogen per ton of output yield. |
I1.Q1/I1.Q2 |
Phosphorous (1.0)
|
P |
01/01/2014 |
|
algorithm1 |
triangle |
none |
equalto |
subalgorithm1 |
85.5000 |
kg P / ha |
380.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
4.2750 |
kg P / ton |
323.0000 |
703.0000 |
236.5291 |
kg P / ton |
233.8273 |
lower 90% ci |
239.2309 |
upper 90% ci |
This indicator measures annual phosphorous per ton of output yield. |
I2.Q1/I2.Q2 |
Output : 2013 Orange, Conventional LCA
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
1,258.9818 |
env performance |
1,254.0000 |
mean |
133.0000 |
sd |
10000 |
|
1,254.6707 |
mean |
1,252.5047 |
lower 90% ci |
1,256.8367 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
(I1.QTM+I2.QTM)/2 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 660352.5494, 66.0353, 66.0058, 6.9092, 47.7377, 39.7668, 91.9231,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
39.7668,57.2315,60.2474,62.4253,64.2901,66.0064,67.7836,69.6439,71.7974,74.8261,91.9231
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrogen (1.0)
|
N |
01/01/2014 |
|
algorithm1 |
normal |
1.0 |
equalto |
subalgorithm1 |
665.0000 |
kg N / ha |
551.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
22.9311 |
kg N / ton |
2,280.0000 |
285.0000 |
2,281.4345 |
kg N / ton |
2,276.7928 |
lower 90% ci |
2,286.0762 |
upper 90% ci |
This indicator measures annual nitrogen per ton of output yield. |
I1.Q1/I1.Q2 |
Phosphorous (1.0)
|
P |
01/01/2014 |
|
algorithm1 |
triangle |
none |
equalto |
subalgorithm1 |
85.5000 |
kg P / ha |
380.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
4.2750 |
kg P / ton |
323.0000 |
703.0000 |
236.5291 |
kg P / ton |
233.8273 |
lower 90% ci |
239.2309 |
upper 90% ci |
This indicator measures annual phosphorous per ton of output yield. |
I2.Q1/I2.Q2 |
Operations |
Operation
|
2013 Conventional Orange Crop Operation
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
1,662.4285 |
environmental performance |
1,667.5000 |
mean |
172.5000 |
sd |
10000 |
|
1,668.5695 |
mean |
1,665.7520 |
lower 90% ci |
1,671.3870 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
(I4.QTM+I5.QTM+I6.QTM+I7.QTM+I8.QTM)/5 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 145093.3526, 14.5093, 14.5233, 1.4863, 2.2092, 8.7377, 19.7766,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
8.7377,12.6130,13.2503,13.7282,14.1398,14.5234,14.8917,15.3026,15.7625,16.4111,19.7766
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrate Loss (1.0)
|
NO3 |
01/01/2014 |
CO2A, NO2A, SO2 |
algorithm1 |
triangle |
1.0 |
equalto |
subalgorithm1 |
14,030.0000 |
kg N / ha applied |
13,800.0000 |
kg N / ha total |
3,450.0000 |
kg N03-N / ha |
12,765.0000 |
kg N / ha applied |
0.0000 |
kg N03-N / ha |
31.6020 |
kg N03-N / ha |
3,162.5000 |
4,600.0000 |
1,553.5810 |
kg N03-N / ha |
1,535.8135 |
lower 90% ci |
1,571.3485 |
upper 90% ci |
Nitrate emissions derived from fertilizer. Measurement for field has been adjusted to NO3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 30 kg N03) / 111 kg N per ha ap |
((I1.Q1/ I1.Q2) * I1.Q3) / I1.Q4 |
Ammonia Loss (1.0)
|
NH3 |
01/01/2014 |
SO2A, SO2B |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
14,030.0000 |
kg N / ha applied |
13,800.0000 |
kg N / ha total |
741.7500 |
kg NH3-N / ha |
12,765.0000 |
kg N / ha applied |
0.0000 |
kg N03-N / ha |
6.7965 |
kg N03-N / ha |
678.5000 |
63.2500 |
678.8910 |
kg N03-N / ha |
677.8560 |
lower 90% ci |
679.9260 |
upper 90% ci |
Ammonia emissions derived from fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .053 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 6.4 kg NH3) / 111 kg N per ha a |
((I2.Q1/ I2.Q2) * I2.Q3) / I2.Q4 |
Nitrous Oxide Emissions (1.0)
|
N2O |
01/01/2014 |
CO2A |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
14,030.0000 |
kg N / ha applied |
13,800.0000 |
kg N / ha total |
184.0000 |
kg N2O-N / ha |
12,765.0000 |
kg N / ha applied |
0.0000 |
none |
1.6905 |
kg N2O-N / ha |
169.0500 |
16.1000 |
169.1535 |
kg N2O-N / ha |
168.8890 |
lower 90% ci |
169.4180 |
upper 90% ci |
Nitrous Oxide emissions derived from fertilizer. Measurement for field has been adjusted to NH4 emission per kg fertilizer applied, as follows: .0.013 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 1.6 kg N2O) / 111 kg N |
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4 |
Global Warming (1.0)
|
CO2A |
01/01/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
1.6675 |
kg N2O-N / ha |
34,270.0000 |
charac factor |
115.0000 |
normal factor |
18.4000 |
weight factor |
0.0000 |
none |
79.5110 |
kg CO2 equivs |
7,935.0000 |
862.5000 |
7,940.3705 |
kg CO2 equivs |
7,926.2715 |
lower 90% ci |
7,954.4695 |
upper 90% ci |
This indicator measures the contribution of the nitrous oxide emissions from this input on the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Acidification (1.0)
|
SO2A |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
31.6250 |
kg NO3-N / ha |
80.5000 |
charac factor |
115.0000 |
normal factor |
5.7500 |
weight factor |
0.0000 |
none |
1.1040 |
kg SO2 equivs |
111.5500 |
10.9250 |
111.6190 |
kg SO2 equivs |
111.4350 |
lower 90% ci |
111.8030 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of eutrophication. |
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4 |
Eutrophication (1.0)
|
NO3A |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
31.6250 |
kg NO3-N / ha |
155.2500 |
charac factor |
115.0000 |
normal factor |
5.7500 |
weight factor |
0.0000 |
none |
2.1390 |
kg N03 equivs |
213.9000 |
20.1250 |
214.0265 |
kg N03 equivs |
213.6930 |
lower 90% ci |
214.3600 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of acidification. |
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4 |
Eutrophication (1.0)
|
NO3B |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
1.6675 |
kg NH3-N / ha |
418.6000 |
charac factor |
115.0000 |
normal factor |
5.7500 |
weight factor |
0.0000 |
none |
0.2990 |
kg N03 equivs |
29.9000 |
11.1550 |
29.9690 |
kg N03 equivs |
29.7850 |
lower 90% ci |
30.1530 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Acidification (1.0)
|
SO2B |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
1.6675 |
kg NH3-N / ha |
216.2000 |
charac factor |
115.0000 |
normal factor |
5.7500 |
weight factor |
0.0000 |
none |
0.1610 |
kg SO2 equivs |
16.1000 |
6.3250 |
16.1345 |
kg SO2 equivs |
16.0310 |
lower 90% ci |
16.2380 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of acidification. |
((I8.Q1*I8.Q2)/I8.Q3)*I8.Q4 |
Input : 2013 Fertilizer, Orange, Conventional
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
1,662.4285 |
environmental performance |
1,667.5000 |
mean |
172.5000 |
sd |
10000 |
|
1,668.5695 |
mean |
1,665.7520 |
lower 90% ci |
1,671.3870 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
(I4.QTM+I5.QTM+I6.QTM+I7.QTM+I8.QTM)/5 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 145093.3526, 14.5093, 14.5233, 1.4863, 2.2092, 8.7377, 19.7766,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
8.7377,12.6130,13.2503,13.7282,14.1398,14.5234,14.8917,15.3026,15.7625,16.4111,19.7766
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrate Loss (1.0)
|
NO3 |
01/01/2014 |
CO2A, NO2A, SO2 |
algorithm1 |
triangle |
1.0 |
equalto |
subalgorithm1 |
14,030.0000 |
kg N / ha applied |
13,800.0000 |
kg N / ha total |
3,450.0000 |
kg N03-N / ha |
12,765.0000 |
kg N / ha applied |
0.0000 |
kg N03-N / ha |
31.6020 |
kg N03-N / ha |
3,162.5000 |
4,600.0000 |
1,553.5810 |
kg N03-N / ha |
1,535.8135 |
lower 90% ci |
1,571.3485 |
upper 90% ci |
Nitrate emissions derived from fertilizer. Measurement for field has been adjusted to NO3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 30 kg N03) / 111 kg N per ha ap |
((I1.Q1/ I1.Q2) * I1.Q3) / I1.Q4 |
Ammonia Loss (1.0)
|
NH3 |
01/01/2014 |
SO2A, SO2B |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
14,030.0000 |
kg N / ha applied |
13,800.0000 |
kg N / ha total |
741.7500 |
kg NH3-N / ha |
12,765.0000 |
kg N / ha applied |
0.0000 |
kg N03-N / ha |
6.7965 |
kg N03-N / ha |
678.5000 |
63.2500 |
678.8910 |
kg N03-N / ha |
677.8560 |
lower 90% ci |
679.9260 |
upper 90% ci |
Ammonia emissions derived from fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .053 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 6.4 kg NH3) / 111 kg N per ha a |
((I2.Q1/ I2.Q2) * I2.Q3) / I2.Q4 |
Nitrous Oxide Emissions (1.0)
|
N2O |
01/01/2014 |
CO2A |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
14,030.0000 |
kg N / ha applied |
13,800.0000 |
kg N / ha total |
184.0000 |
kg N2O-N / ha |
12,765.0000 |
kg N / ha applied |
0.0000 |
none |
1.6905 |
kg N2O-N / ha |
169.0500 |
16.1000 |
169.1535 |
kg N2O-N / ha |
168.8890 |
lower 90% ci |
169.4180 |
upper 90% ci |
Nitrous Oxide emissions derived from fertilizer. Measurement for field has been adjusted to NH4 emission per kg fertilizer applied, as follows: .0.013 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 1.6 kg N2O) / 111 kg N |
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4 |
Global Warming (1.0)
|
CO2A |
01/01/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
1.6675 |
kg N2O-N / ha |
34,270.0000 |
charac factor |
115.0000 |
normal factor |
18.4000 |
weight factor |
0.0000 |
none |
79.5110 |
kg CO2 equivs |
7,935.0000 |
862.5000 |
7,940.3705 |
kg CO2 equivs |
7,926.2715 |
lower 90% ci |
7,954.4695 |
upper 90% ci |
This indicator measures the contribution of the nitrous oxide emissions from this input on the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Acidification (1.0)
|
SO2A |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
31.6250 |
kg NO3-N / ha |
80.5000 |
charac factor |
115.0000 |
normal factor |
5.7500 |
weight factor |
0.0000 |
none |
1.1040 |
kg SO2 equivs |
111.5500 |
10.9250 |
111.6190 |
kg SO2 equivs |
111.4350 |
lower 90% ci |
111.8030 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of eutrophication. |
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4 |
Eutrophication (1.0)
|
NO3A |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
31.6250 |
kg NO3-N / ha |
155.2500 |
charac factor |
115.0000 |
normal factor |
5.7500 |
weight factor |
0.0000 |
none |
2.1390 |
kg N03 equivs |
213.9000 |
20.1250 |
214.0265 |
kg N03 equivs |
213.6930 |
lower 90% ci |
214.3600 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of acidification. |
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4 |
Eutrophication (1.0)
|
NO3B |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
1.6675 |
kg NH3-N / ha |
418.6000 |
charac factor |
115.0000 |
normal factor |
5.7500 |
weight factor |
0.0000 |
none |
0.2990 |
kg N03 equivs |
29.9000 |
11.1550 |
29.9690 |
kg N03 equivs |
29.7850 |
lower 90% ci |
30.1530 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Acidification (1.0)
|
SO2B |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
1.6675 |
kg NH3-N / ha |
216.2000 |
charac factor |
115.0000 |
normal factor |
5.7500 |
weight factor |
0.0000 |
none |
0.1610 |
kg SO2 equivs |
16.1000 |
6.3250 |
16.1345 |
kg SO2 equivs |
16.0310 |
lower 90% ci |
16.2380 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of acidification. |
((I8.Q1*I8.Q2)/I8.Q3)*I8.Q4 |
Time Period : 2014 Conventional Orange Crop
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
14,316.6123 |
env performance |
14,106.6000 |
mean |
1,525.5000 |
sd |
10000 |
|
14,114.4831 |
mean |
14,089.6341 |
lower 90% ci |
14,139.3321 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
2.0 |
(I1.QTM+I2.QTM)/2 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 550302.1852, 55.0302, 55.0050, 5.9222, 35.0726, 32.5144, 77.2198,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
32.5144,47.4841,50.0692,51.9360,53.5344,55.0055,56.5288,58.1234,59.9692,62.5652,77.2198
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrate Loss (1.0)
|
NO3 |
01/01/2014 |
CO2A, NO2A, SO2 |
algorithm1 |
triangle |
1.0 |
equalto |
subalgorithm1 |
12,987.0000 |
kg N / ha applied |
14,040.0000 |
kg N / ha total |
3,510.0000 |
kg N03-N / ha |
12,987.0000 |
kg N / ha applied |
0.0000 |
kg N03-N / ha |
29.2500 |
kg N03-N / ha |
2,340.0000 |
4,680.0000 |
1,578.9150 |
kg N03-N / ha |
1,560.8268 |
lower 90% ci |
1,597.0032 |
upper 90% ci |
Nitrate emissions derived from fertilizer. Measurement for field has been adjusted to NO3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 30 kg N03) / 111 kg N per ha ap |
((I1.Q1/ I1.Q2) * I1.Q3) / I1.Q4 |
Ammonia Loss (1.0)
|
NH3 |
01/01/2014 |
SO2A, SO2B |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
12,987.0000 |
kg N / ha applied |
14,040.0000 |
kg N / ha total |
754.6500 |
kg NH3-N / ha |
12,987.0000 |
kg N / ha applied |
0.0000 |
kg N03-N / ha |
6.2946 |
kg N03-N / ha |
631.8000 |
64.3500 |
632.1978 |
kg N03-N / ha |
631.1448 |
lower 90% ci |
633.2508 |
upper 90% ci |
Ammonia emissions derived from fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .053 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 6.4 kg NH3) / 111 kg N per ha a |
((I2.Q1/ I2.Q2) * I2.Q3) / I2.Q4 |
Nitrous Oxide Emissions (1.0)
|
N2O |
01/01/2014 |
CO2A |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
12,987.0000 |
kg N / ha applied |
14,040.0000 |
kg N / ha total |
187.2000 |
kg N2O-N / ha |
12,987.0000 |
kg N / ha applied |
0.0000 |
none |
1.5561 |
kg N2O-N / ha |
157.9500 |
16.3800 |
158.0553 |
kg N2O-N / ha |
157.7862 |
lower 90% ci |
158.3244 |
upper 90% ci |
Nitrous Oxide emissions derived from fertilizer. Measurement for field has been adjusted to NH4 emission per kg fertilizer applied, as follows: .0.013 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 1.6 kg N2O) / 111 kg N |
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4 |
Global Warming (1.0)
|
CO2A |
01/01/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
1.5210 |
kg N2O-N / ha |
34,866.0000 |
charac factor |
117.0000 |
normal factor |
18.7200 |
weight factor |
0.0000 |
none |
72.5166 |
kg CO2 equivs |
8,190.0000 |
877.5000 |
8,195.4639 |
kg CO2 equivs |
8,181.1197 |
lower 90% ci |
8,209.8081 |
upper 90% ci |
This indicator measures the contribution of the nitrous oxide emissions from this input on the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Acidification (1.0)
|
SO2A |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
29.2500 |
|
81.9000 |
charac factor |
117.0000 |
normal factor |
5.8500 |
weight factor |
0.0000 |
none |
1.0179 |
kg SO2 equivs |
105.3000 |
11.1150 |
105.3702 |
kg SO2 equivs |
105.1830 |
lower 90% ci |
105.5574 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of eutrophication. |
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4 |
Eutrophication (1.0)
|
NO3A |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
29.2500 |
kg NO3-N / ha |
157.9500 |
charac factor |
117.0000 |
normal factor |
5.8500 |
weight factor |
0.0000 |
none |
1.9773 |
kg N03 equivs |
198.9000 |
20.4750 |
199.0287 |
kg N03 equivs |
198.6894 |
lower 90% ci |
199.3680 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of acidification. |
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4 |
Eutrophication (1.0)
|
NO3B |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
6.2010 |
kg NH3-N / ha |
425.8800 |
charac factor |
117.0000 |
normal factor |
5.8500 |
weight factor |
0.0000 |
none |
1.1232 |
kg N03 equivs |
112.3200 |
11.3490 |
112.3902 |
kg N03 equivs |
112.2030 |
lower 90% ci |
112.5774 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Acidification (1.0)
|
SO2B |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
6.2010 |
kg NH3-N / ha |
219.9600 |
charac factor |
117.0000 |
normal factor |
5.8500 |
weight factor |
0.0000 |
none |
0.5850 |
kg SO2 equivs |
58.5000 |
6.4350 |
58.5351 |
kg SO2 equivs |
58.4298 |
lower 90% ci |
58.6404 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of acidification. |
((I8.Q1*I8.Q2)/I8.Q3)*I8.Q4 |
Nitrogen (1.0)
|
N |
01/01/2014 |
|
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
6,525.0000 |
kg N / ha |
6,525.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
225.0000 |
kg N / ton |
22,500.0000 |
3,375.0000 |
22,516.9875 |
kg N / ton |
22,462.0200 |
lower 90% ci |
22,571.9550 |
upper 90% ci |
This indicator measures annual nitrogen per ton of output yield. |
I1.Q1/I1.Q2 |
Phosphorous (1.0)
|
P |
01/01/2014 |
|
algorithm1 |
triangle |
none |
equalto |
subalgorithm1 |
900.0000 |
kg P / ha |
4,500.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
45.0000 |
kg P / ton |
3,375.0000 |
7,875.0000 |
2,647.9125 |
kg P / ton |
2,617.6500 |
lower 90% ci |
2,678.1750 |
upper 90% ci |
This indicator measures annual phosphorous per ton of output yield. |
I2.Q1/I2.Q2 |
Outcomes |
Outcome
|
2014 Conventional Orange Crop Outcome
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
12,582.4500 |
env performance |
12,375.0000 |
mean |
1,350.0000 |
sd |
10000 |
|
12,381.7950 |
mean |
12,359.8125 |
lower 90% ci |
12,403.7775 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
(I1.QTM+I2.QTM)/2 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 550302.1852, 55.0302, 55.0050, 5.9222, 35.0726, 32.5144, 77.2198,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
32.5144,47.4841,50.0692,51.9360,53.5344,55.0055,56.5288,58.1234,59.9692,62.5652,77.2198
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrogen (1.0)
|
N |
01/01/2014 |
|
algorithm1 |
normal |
1.0 |
equalto |
subalgorithm1 |
6,525.0000 |
kg N / ha |
6,525.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
225.0000 |
kg N / ton |
22,500.0000 |
3,375.0000 |
22,516.9875 |
kg N / ton |
22,462.0200 |
lower 90% ci |
22,571.9550 |
upper 90% ci |
This indicator measures annual nitrogen per ton of output yield. |
I1.Q1/I1.Q2 |
Phosphorous (1.0)
|
P |
01/01/2014 |
|
algorithm1 |
triangle |
none |
equalto |
subalgorithm1 |
900.0000 |
kg P / ha |
4,500.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
45.0000 |
kg P / ton |
3,375.0000 |
7,875.0000 |
2,647.9125 |
kg P / ton |
2,617.6500 |
lower 90% ci |
2,678.1750 |
upper 90% ci |
This indicator measures annual phosphorous per ton of output yield. |
I2.Q1/I2.Q2 |
Output : 2014 Orange, Conventional LCA
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
12,582.4500 |
env performance |
12,375.0000 |
mean |
1,350.0000 |
sd |
10000 |
|
12,381.7950 |
mean |
12,359.8125 |
lower 90% ci |
12,403.7775 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
(I1.QTM+I2.QTM)/2 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 550302.1852, 55.0302, 55.0050, 5.9222, 35.0726, 32.5144, 77.2198,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
32.5144,47.4841,50.0692,51.9360,53.5344,55.0055,56.5288,58.1234,59.9692,62.5652,77.2198
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrogen (1.0)
|
N |
01/01/2014 |
|
algorithm1 |
normal |
1.0 |
equalto |
subalgorithm1 |
6,525.0000 |
kg N / ha |
6,525.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
225.0000 |
kg N / ton |
22,500.0000 |
3,375.0000 |
22,516.9875 |
kg N / ton |
22,462.0200 |
lower 90% ci |
22,571.9550 |
upper 90% ci |
This indicator measures annual nitrogen per ton of output yield. |
I1.Q1/I1.Q2 |
Phosphorous (1.0)
|
P |
01/01/2014 |
|
algorithm1 |
triangle |
none |
equalto |
subalgorithm1 |
900.0000 |
kg P / ha |
4,500.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
45.0000 |
kg P / ton |
3,375.0000 |
7,875.0000 |
2,647.9125 |
kg P / ton |
2,617.6500 |
lower 90% ci |
2,678.1750 |
upper 90% ci |
This indicator measures annual phosphorous per ton of output yield. |
I2.Q1/I2.Q2 |
Operations |
Operation
|
2014 Conventional Orange Crop Operation
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
1,734.1623 |
environmental performance |
1,731.6000 |
mean |
175.5000 |
sd |
10000 |
|
1,732.6881 |
mean |
1,729.8216 |
lower 90% ci |
1,735.5546 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
(I4.QTM+I5.QTM+I6.QTM+I7.QTM+I8.QTM)/5 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 148093.3526, 14.8093, 14.8233, 1.4863, 2.2092, 9.0377, 20.0766,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
9.0377,12.9130,13.5503,14.0282,14.4398,14.8234,15.1917,15.6026,16.0625,16.7111,20.0766
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrate Loss (1.0)
|
NO3 |
01/01/2014 |
CO2A, NO2A, SO2 |
algorithm1 |
triangle |
1.0 |
equalto |
subalgorithm1 |
12,987.0000 |
kg N / ha applied |
14,040.0000 |
kg N / ha total |
3,510.0000 |
kg N03-N / ha |
12,987.0000 |
kg N / ha applied |
0.0000 |
kg N03-N / ha |
29.2500 |
kg N03-N / ha |
2,340.0000 |
4,680.0000 |
1,578.9150 |
kg N03-N / ha |
1,560.8268 |
lower 90% ci |
1,597.0032 |
upper 90% ci |
Nitrate emissions derived from fertilizer. Measurement for field has been adjusted to NO3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 30 kg N03) / 111 kg N per ha ap |
((I1.Q1/ I1.Q2) * I1.Q3) / I1.Q4 |
Ammonia Loss (1.0)
|
NH3 |
01/01/2014 |
SO2A, SO2B |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
12,987.0000 |
kg N / ha applied |
14,040.0000 |
kg N / ha total |
754.6500 |
kg NH3-N / ha |
12,987.0000 |
kg N / ha applied |
0.0000 |
kg N03-N / ha |
6.2946 |
kg N03-N / ha |
631.8000 |
64.3500 |
632.1978 |
kg N03-N / ha |
631.1448 |
lower 90% ci |
633.2508 |
upper 90% ci |
Ammonia emissions derived from fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .053 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 6.4 kg NH3) / 111 kg N per ha a |
((I2.Q1/ I2.Q2) * I2.Q3) / I2.Q4 |
Nitrous Oxide Emissions (1.0)
|
N2O |
01/01/2014 |
CO2A |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
12,987.0000 |
kg N / ha applied |
14,040.0000 |
kg N / ha total |
187.2000 |
kg N2O-N / ha |
12,987.0000 |
kg N / ha applied |
0.0000 |
none |
1.5561 |
kg N2O-N / ha |
157.9500 |
16.3800 |
158.0553 |
kg N2O-N / ha |
157.7862 |
lower 90% ci |
158.3244 |
upper 90% ci |
Nitrous Oxide emissions derived from fertilizer. Measurement for field has been adjusted to NH4 emission per kg fertilizer applied, as follows: .0.013 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 1.6 kg N2O) / 111 kg N |
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4 |
Global Warming (1.0)
|
CO2A |
01/01/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
1.5210 |
kg N2O-N / ha |
34,866.0000 |
charac factor |
117.0000 |
normal factor |
18.7200 |
weight factor |
0.0000 |
none |
72.5166 |
kg CO2 equivs |
8,190.0000 |
877.5000 |
8,195.4639 |
kg CO2 equivs |
8,181.1197 |
lower 90% ci |
8,209.8081 |
upper 90% ci |
This indicator measures the contribution of the nitrous oxide emissions from this input on the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Acidification (1.0)
|
SO2A |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
29.2500 |
|
81.9000 |
charac factor |
117.0000 |
normal factor |
5.8500 |
weight factor |
0.0000 |
none |
1.0179 |
kg SO2 equivs |
105.3000 |
11.1150 |
105.3702 |
kg SO2 equivs |
105.1830 |
lower 90% ci |
105.5574 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of eutrophication. |
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4 |
Eutrophication (1.0)
|
NO3A |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
29.2500 |
kg NO3-N / ha |
157.9500 |
charac factor |
117.0000 |
normal factor |
5.8500 |
weight factor |
0.0000 |
none |
1.9773 |
kg N03 equivs |
198.9000 |
20.4750 |
199.0287 |
kg N03 equivs |
198.6894 |
lower 90% ci |
199.3680 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of acidification. |
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4 |
Eutrophication (1.0)
|
NO3B |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
6.2010 |
kg NH3-N / ha |
425.8800 |
charac factor |
117.0000 |
normal factor |
5.8500 |
weight factor |
0.0000 |
none |
1.1232 |
kg N03 equivs |
112.3200 |
11.3490 |
112.3902 |
kg N03 equivs |
112.2030 |
lower 90% ci |
112.5774 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Acidification (1.0)
|
SO2B |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
6.2010 |
kg NH3-N / ha |
219.9600 |
charac factor |
117.0000 |
normal factor |
5.8500 |
weight factor |
0.0000 |
none |
0.5850 |
kg SO2 equivs |
58.5000 |
6.4350 |
58.5351 |
kg SO2 equivs |
58.4298 |
lower 90% ci |
58.6404 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of acidification. |
((I8.Q1*I8.Q2)/I8.Q3)*I8.Q4 |
Input : 2014 Fertilizer, Orange, Conventional
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
1,734.1623 |
environmental performance |
1,731.6000 |
mean |
175.5000 |
sd |
10000 |
|
1,732.6881 |
mean |
1,729.8216 |
lower 90% ci |
1,735.5546 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
(I4.QTM+I5.QTM+I6.QTM+I7.QTM+I8.QTM)/5 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 148093.3526, 14.8093, 14.8233, 1.4863, 2.2092, 9.0377, 20.0766,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
9.0377,12.9130,13.5503,14.0282,14.4398,14.8234,15.1917,15.6026,16.0625,16.7111,20.0766
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrate Loss (1.0)
|
NO3 |
01/01/2014 |
CO2A, NO2A, SO2 |
algorithm1 |
triangle |
1.0 |
equalto |
subalgorithm1 |
12,987.0000 |
kg N / ha applied |
14,040.0000 |
kg N / ha total |
3,510.0000 |
kg N03-N / ha |
12,987.0000 |
kg N / ha applied |
0.0000 |
kg N03-N / ha |
29.2500 |
kg N03-N / ha |
2,340.0000 |
4,680.0000 |
1,578.9150 |
kg N03-N / ha |
1,560.8268 |
lower 90% ci |
1,597.0032 |
upper 90% ci |
Nitrate emissions derived from fertilizer. Measurement for field has been adjusted to NO3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 30 kg N03) / 111 kg N per ha ap |
((I1.Q1/ I1.Q2) * I1.Q3) / I1.Q4 |
Ammonia Loss (1.0)
|
NH3 |
01/01/2014 |
SO2A, SO2B |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
12,987.0000 |
kg N / ha applied |
14,040.0000 |
kg N / ha total |
754.6500 |
kg NH3-N / ha |
12,987.0000 |
kg N / ha applied |
0.0000 |
kg N03-N / ha |
6.2946 |
kg N03-N / ha |
631.8000 |
64.3500 |
632.1978 |
kg N03-N / ha |
631.1448 |
lower 90% ci |
633.2508 |
upper 90% ci |
Ammonia emissions derived from fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .053 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 6.4 kg NH3) / 111 kg N per ha a |
((I2.Q1/ I2.Q2) * I2.Q3) / I2.Q4 |
Nitrous Oxide Emissions (1.0)
|
N2O |
01/01/2014 |
CO2A |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
12,987.0000 |
kg N / ha applied |
14,040.0000 |
kg N / ha total |
187.2000 |
kg N2O-N / ha |
12,987.0000 |
kg N / ha applied |
0.0000 |
none |
1.5561 |
kg N2O-N / ha |
157.9500 |
16.3800 |
158.0553 |
kg N2O-N / ha |
157.7862 |
lower 90% ci |
158.3244 |
upper 90% ci |
Nitrous Oxide emissions derived from fertilizer. Measurement for field has been adjusted to NH4 emission per kg fertilizer applied, as follows: .0.013 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 1.6 kg N2O) / 111 kg N |
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4 |
Global Warming (1.0)
|
CO2A |
01/01/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
1.5210 |
kg N2O-N / ha |
34,866.0000 |
charac factor |
117.0000 |
normal factor |
18.7200 |
weight factor |
0.0000 |
none |
72.5166 |
kg CO2 equivs |
8,190.0000 |
877.5000 |
8,195.4639 |
kg CO2 equivs |
8,181.1197 |
lower 90% ci |
8,209.8081 |
upper 90% ci |
This indicator measures the contribution of the nitrous oxide emissions from this input on the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Acidification (1.0)
|
SO2A |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
29.2500 |
|
81.9000 |
charac factor |
117.0000 |
normal factor |
5.8500 |
weight factor |
0.0000 |
none |
1.0179 |
kg SO2 equivs |
105.3000 |
11.1150 |
105.3702 |
kg SO2 equivs |
105.1830 |
lower 90% ci |
105.5574 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of eutrophication. |
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4 |
Eutrophication (1.0)
|
NO3A |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
29.2500 |
kg NO3-N / ha |
157.9500 |
charac factor |
117.0000 |
normal factor |
5.8500 |
weight factor |
0.0000 |
none |
1.9773 |
kg N03 equivs |
198.9000 |
20.4750 |
199.0287 |
kg N03 equivs |
198.6894 |
lower 90% ci |
199.3680 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of acidification. |
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4 |
Eutrophication (1.0)
|
NO3B |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
6.2010 |
kg NH3-N / ha |
425.8800 |
charac factor |
117.0000 |
normal factor |
5.8500 |
weight factor |
0.0000 |
none |
1.1232 |
kg N03 equivs |
112.3200 |
11.3490 |
112.3902 |
kg N03 equivs |
112.2030 |
lower 90% ci |
112.5774 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Acidification (1.0)
|
SO2B |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
6.2010 |
kg NH3-N / ha |
219.9600 |
charac factor |
117.0000 |
normal factor |
5.8500 |
weight factor |
0.0000 |
none |
0.5850 |
kg SO2 equivs |
58.5000 |
6.4350 |
58.5351 |
kg SO2 equivs |
58.4298 |
lower 90% ci |
58.6404 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of acidification. |
((I8.Q1*I8.Q2)/I8.Q3)*I8.Q4 |
Budget : Organic Orange Budget, Brazil |
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
13,503.4594 |
environmental performance |
13,484.1600 |
mean |
1,196.7100 |
sd |
10000 |
|
13,462.9569 |
mean |
13,443.3282 |
lower 90% ci |
13,482.5856 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
6.0 |
I1.QTM+I2.QTM/2 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 1546326.1907, 154.6326, 154.6842, 17.3962, 302.6280, 90.2019, 217.5003,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
90.2019,132.2439,139.9212,145.4144,150.3242,154.6852,159.0753,163.7764,169.2482,177.1526,217.5003
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrate Loss (3.0)
|
NO3 |
01/01/2014 |
CO2A,NO2A,SO2A, |
algorithm1 |
triangle |
3.0 |
equalto |
subalgorithm1 |
25,104.0000 |
kg N / ha applied |
24,366.0000 |
kg N / ha total |
7,074.0000 |
kg N03-N / ha |
22,794.0000 |
kg N / ha applied |
0.0000 |
none |
83.7704 |
kg N03-N / ha |
5,687.0000 |
11,101.0000 |
3,746.8749 |
kg N03-N / ha |
3,703.8435 |
lower 90% ci |
3,789.9063 |
upper 90% ci |
Nitrate emissions derived from organic fertilizer. Measurement for field has been adjusted to NO3 emission per kg fertilizer applied, as follows: 0.29 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 27 kg N03) / 87 kg N per |
((I1.Q1/ I1.Q2) * I1.Q3) / I1.Q4 |
Ammonia Loss (3.0)
|
NH3 |
01/01/2014 |
CO2A |
algorithm1 |
normal |
|
none |
subalgorithm1 |
25,104.0000 |
kg N / ha applied |
24,366.0000 |
kg N / ha total |
707.4000 |
kg NH3-N / ha |
22,794.0000 |
kg N / ha applied |
0.0000 |
none |
8.3711 |
kg NH3-N / ha |
830.6000 |
78.6000 |
830.6262 |
kg NH3-N / ha |
829.3424 |
lower 90% ci |
831.9100 |
upper 90% ci |
Ammonia emissions derived from organic fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 2.7 kg N03) / 87 kg N per |
((I2.Q1/ I2.Q2) * I2.Q3) / I2.Q4 |
Nitrous Oxide Loss (3.0)
|
N2O |
01/01/2014 |
SO2A |
algorithm1 |
normal |
|
equalto |
subalgorithm1 |
25,104.0000 |
kg N / ha applied |
24,366.0000 |
kg N / ha total |
314.4000 |
kg N2O-N / ha |
22,794.0000 |
kg N / ha applied |
0.0000 |
none |
3.7263 |
kg N2O-N / ha |
376.0000 |
39.3000 |
376.0000 |
kg N2O-N / ha |
375.3450 |
lower 90% ci |
376.6550 |
upper 90% ci |
Nitrous oxide emissions derived from organic fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 2.7 kg N03) / 87 kg |
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4 |
Global Warming (3.0)
|
CO2A |
07/16/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
3.7972 |
kg N2O N / ha |
78,076.0000 |
charac factor |
262.0000 |
normal factor |
41.9200 |
weight factor |
0.0000 |
none |
181.0497 |
CO2 eqivs / ha |
18,200.0000 |
1,862.6000 |
18,200.5250 |
CO2 eqivs / ha |
18,170.0325 |
lower 90% ci |
18,231.0175 |
upper 90% ci |
This indicator measures the contribution of the nitrous oxide emissions from this input to the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Acidification (3.0)
|
SO2A |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
83.9900 |
kg NH3-N / ha |
492.5600 |
charac factor |
262.0000 |
normal factor |
13.1000 |
weight factor |
0.0000 |
none |
7.9002 |
SO2 eqivs / ha |
805.0000 |
78.6000 |
805.0262 |
SO2 eqivs / ha |
803.7424 |
lower 90% ci |
806.3100 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input to the environmental performance measure of acidification. |
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4 |
Eutrophication (3.0)
|
NO3A |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
83.9900 |
kg NH3-N / ha |
953.6800 |
charac factor |
262.0000 |
normal factor |
13.1000 |
weight factor |
0.0000 |
none |
15.2841 |
NO3 eqivs / ha |
1,530.8000 |
155.5900 |
1,530.8524 |
NO3 eqivs / ha |
1,528.3087 |
lower 90% ci |
1,533.3961 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of eutrophication |
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4 |
Eutrophication (3.0)
|
NO3B |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
83.9900 |
kg NO3-N / ha |
262.0000 |
charac factor |
262.0000 |
normal factor |
13.1000 |
weight factor |
0.0000 |
none |
4.1995 |
NO3 eqivs / ha |
424.0500 |
43.6600 |
424.0587 |
NO3 eqivs / ha |
423.3514 |
lower 90% ci |
424.7660 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Acidification (3.0)
|
SO2B |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
83.9900 |
kg NO3-N / ha |
183.4000 |
charac factor |
262.0000 |
normal factor |
13.1000 |
weight factor |
0.0000 |
none |
2.9394 |
SO2 eqivs / ha |
288.7000 |
36.6900 |
288.7000 |
SO2 eqivs / ha |
288.0885 |
lower 90% ci |
289.3115 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of acidification. |
((I8.Q1*I8.Q2)/I8.Q3)*I8.Q4 |
Nitrogen (3.0)
|
N |
01/01/2014 |
none |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
1,605.0000 |
kg N / ha |
972.0000 |
tons / ha |
57.0000 |
kg N / ton |
0.0000 |
none |
0.0000 |
none |
89.1680 |
kg N / ton |
8,960.0000 |
963.0000 |
8,939.7824 |
kg N / ton |
8,923.9892 |
lower 90% ci |
8,955.5756 |
upper 90% ci |
This indicator measures annual nitrogen per ton of output yield. |
I1.Q1/I1.Q2 |
Phosphorous (3.0)
|
P |
01/01/2014 |
none |
algorithm1 |
triangle |
none |
equalto |
subalgorithm1 |
231.4000 |
kg P / ha |
972.0000 |
tons / ha |
4.4400 |
none |
0.0000 |
none |
0.0000 |
none |
12.8544 |
kg P / ton |
786.0000 |
1,866.0000 |
627.6882 |
kg P / ton |
620.4716 |
lower 90% ci |
634.9048 |
upper 90% ci |
This indicator measures annual phosphorous per ton of output yield. |
I2.Q1/I2.Q2 |
Time Period : 2012 Organic Orange Crop
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
4,904.9529 |
environmental performance |
4,896.0000 |
mean |
498.6000 |
sd |
10000 |
|
4,888.8633 |
mean |
4,880.6880 |
lower 90% ci |
4,897.0386 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
2.0 |
I1.QTM+I2.QTM/2 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 1846011.2927, 184.6011, 184.6572, 18.8873, 356.7305, 114.6478, 252.8575,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
114.6478,160.2934,168.6287,174.5928,179.9234,184.6582,189.4246,194.5287,200.4695,209.0514,252.8575
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrate Loss (1.0)
|
NO3 |
01/01/2014 |
CO2A,NO2A,SO2A, |
algorithm1 |
triangle |
1.0 |
equalto |
subalgorithm1 |
9,135.0000 |
kg N / ha applied |
8,091.0000 |
kg N / ha total |
2,349.0000 |
kg N03-N / ha |
7,569.0000 |
kg N / ha applied |
0.0000 |
none |
30.4848 |
kg N03-N / ha |
2,001.0000 |
3,915.0000 |
1,321.9650 |
kg N03-N / ha |
1,306.7922 |
lower 90% ci |
1,337.1378 |
upper 90% ci |
Nitrate emissions derived from organic fertilizer. Measurement for field has been adjusted to NO3 emission per kg fertilizer applied, as follows: 0.29 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 27 kg N03) / 87 kg N per |
((I1.Q1/ I1.Q2) * I1.Q3) / I1.Q4 |
Ammonia Loss (1.0)
|
NH3 |
01/01/2014 |
CO2A |
algorithm1 |
normal |
|
none |
subalgorithm1 |
9,135.0000 |
kg N / ha applied |
8,091.0000 |
kg N / ha total |
234.9000 |
kg NH3-N / ha |
7,569.0000 |
kg N / ha applied |
0.0000 |
none |
3.0450 |
kg NH3-N / ha |
304.5000 |
26.1000 |
304.5087 |
kg NH3-N / ha |
304.0824 |
lower 90% ci |
304.9350 |
upper 90% ci |
Ammonia emissions derived from organic fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 2.7 kg N03) / 87 kg N per |
((I2.Q1/ I2.Q2) * I2.Q3) / I2.Q4 |
Nitrous Oxide Loss (1.0)
|
N2O |
01/01/2014 |
SO2A |
algorithm1 |
normal |
|
equalto |
subalgorithm1 |
9,135.0000 |
kg N / ha applied |
8,091.0000 |
kg N / ha total |
104.4000 |
kg N2O-N / ha |
7,569.0000 |
kg N / ha applied |
0.0000 |
none |
1.3572 |
kg N2O-N / ha |
139.2000 |
13.0500 |
139.2000 |
kg N2O-N / ha |
138.9825 |
lower 90% ci |
139.4175 |
upper 90% ci |
Nitrous oxide emissions derived from organic fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 2.7 kg N03) / 87 kg |
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4 |
Global Warming (1.0)
|
CO2A |
07/16/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
1.3920 |
kg N2O N / ha |
25,926.0000 |
charac factor |
87.0000 |
normal factor |
13.9200 |
weight factor |
0.0000 |
none |
66.3723 |
CO2 eqivs / ha |
6,699.0000 |
678.6000 |
6,699.1914 |
CO2 eqivs / ha |
6,688.0815 |
lower 90% ci |
6,710.3013 |
upper 90% ci |
This indicator measures the contribution of the nitrous oxide emissions from this input to the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Acidification (1.0)
|
SO2A |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
30.4500 |
kg NH3-N / ha |
163.5600 |
charac factor |
87.0000 |
normal factor |
4.3500 |
weight factor |
0.0000 |
none |
2.8623 |
SO2 eqivs / ha |
287.1000 |
26.1000 |
287.1087 |
SO2 eqivs / ha |
286.6824 |
lower 90% ci |
287.5350 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input to the environmental performance measure of acidification. |
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4 |
Eutrophication (1.0)
|
NO3A |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
30.4500 |
kg NH3-N / ha |
316.6800 |
charac factor |
87.0000 |
normal factor |
4.3500 |
weight factor |
0.0000 |
none |
5.5419 |
NO3 eqivs / ha |
556.8000 |
56.5500 |
556.8174 |
NO3 eqivs / ha |
555.8952 |
lower 90% ci |
557.7396 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of eutrophication |
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4 |
Eutrophication (1.0)
|
NO3B |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
30.4500 |
kg NO3-N / ha |
87.0000 |
charac factor |
87.0000 |
normal factor |
4.3500 |
weight factor |
0.0000 |
none |
1.5225 |
NO3 eqivs / ha |
152.2500 |
15.6600 |
152.2587 |
NO3 eqivs / ha |
152.0064 |
lower 90% ci |
152.5110 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Acidification (1.0)
|
SO2B |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
30.4500 |
kg NO3-N / ha |
60.9000 |
charac factor |
87.0000 |
normal factor |
4.3500 |
weight factor |
0.0000 |
none |
1.0614 |
SO2 eqivs / ha |
104.4000 |
10.4400 |
104.4000 |
SO2 eqivs / ha |
104.2260 |
lower 90% ci |
104.5740 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of acidification. |
((I8.Q1*I8.Q2)/I8.Q3)*I8.Q4 |
Nitrogen (1.0)
|
N |
01/01/2014 |
none |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
585.0000 |
kg N / ha |
324.0000 |
tons / ha |
27.0000 |
kg N / ton |
0.0000 |
none |
0.0000 |
none |
32.5008 |
kg N / ton |
3,240.0000 |
333.0000 |
3,233.0088 |
kg N / ton |
3,227.5476 |
lower 90% ci |
3,238.4700 |
upper 90% ci |
This indicator measures annual nitrogen per ton of output yield. |
I1.Q1/I1.Q2 |
Phosphorous (1.0)
|
P |
01/01/2014 |
none |
algorithm1 |
triangle |
none |
equalto |
subalgorithm1 |
81.0000 |
kg P / ha |
324.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
4.5000 |
kg P / ton |
306.0000 |
666.0000 |
223.9794 |
kg P / ton |
221.4036 |
lower 90% ci |
226.5552 |
upper 90% ci |
This indicator measures annual phosphorous per ton of output yield. |
I2.Q1/I2.Q2 |
Outcomes |
Outcome
|
2012 Organic Orange Crop Outcome
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
3,344.9994 |
environmental performance |
3,330.0000 |
mean |
342.0000 |
sd |
10000 |
|
3,322.8198 |
mean |
3,317.2110 |
lower 90% ci |
3,328.4286 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
I1.QTM+I2.QTM/2 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 1846011.2927, 184.6011, 184.6572, 18.8873, 356.7305, 114.6478, 252.8575,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
114.6478,160.2934,168.6287,174.5928,179.9234,184.6582,189.4246,194.5287,200.4695,209.0514,252.8575
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrogen (1.0)
|
N |
01/01/2014 |
none |
algorithm1 |
normal |
1.0 |
equalto |
subalgorithm1 |
585.0000 |
kg N / ha |
324.0000 |
tons / ha |
27.0000 |
kg N / ton |
0.0000 |
none |
0.0000 |
none |
32.5008 |
kg N / ton |
3,240.0000 |
333.0000 |
3,233.0088 |
kg N / ton |
3,227.5476 |
lower 90% ci |
3,238.4700 |
upper 90% ci |
This indicator measures annual nitrogen per ton of output yield. |
I1.Q1/I1.Q2 |
Phosphorous (1.0)
|
P |
01/01/2014 |
none |
algorithm1 |
triangle |
none |
equalto |
subalgorithm1 |
81.0000 |
kg P / ha |
324.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
4.5000 |
kg P / ton |
306.0000 |
666.0000 |
223.9794 |
kg P / ton |
221.4036 |
lower 90% ci |
226.5552 |
upper 90% ci |
This indicator measures annual phosphorous per ton of output yield. |
I2.Q1/I2.Q2 |
Output : 2012 Orange, Organic LCA
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
3,344.9994 |
environmental performance |
3,330.0000 |
mean |
342.0000 |
sd |
10000 |
|
3,322.8198 |
mean |
3,317.2110 |
lower 90% ci |
3,328.4286 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
I1.QTM+I2.QTM/2 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 1846011.2927, 184.6011, 184.6572, 18.8873, 356.7305, 114.6478, 252.8575,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
114.6478,160.2934,168.6287,174.5928,179.9234,184.6582,189.4246,194.5287,200.4695,209.0514,252.8575
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrogen (1.0)
|
N |
01/01/2014 |
none |
algorithm1 |
normal |
1.0 |
equalto |
subalgorithm1 |
585.0000 |
kg N / ha |
324.0000 |
tons / ha |
27.0000 |
kg N / ton |
0.0000 |
none |
0.0000 |
none |
32.5008 |
kg N / ton |
3,240.0000 |
333.0000 |
3,233.0088 |
kg N / ton |
3,227.5476 |
lower 90% ci |
3,238.4700 |
upper 90% ci |
This indicator measures annual nitrogen per ton of output yield. |
I1.Q1/I1.Q2 |
Phosphorous (1.0)
|
P |
01/01/2014 |
none |
algorithm1 |
triangle |
none |
equalto |
subalgorithm1 |
81.0000 |
kg P / ha |
324.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
4.5000 |
kg P / ton |
306.0000 |
666.0000 |
223.9794 |
kg P / ton |
221.4036 |
lower 90% ci |
226.5552 |
upper 90% ci |
This indicator measures annual phosphorous per ton of output yield. |
I2.Q1/I2.Q2 |
Operations |
Operation
|
2012 Organic Orange Crop Operation
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
1,559.9535 |
environmental performance |
1,566.0000 |
mean |
156.6000 |
sd |
10000 |
|
1,566.0435 |
mean |
1,563.4770 |
lower 90% ci |
1,568.6100 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
(I4.QTM+I5.QTM+I6.QTM+I7.QTM+I8.QTM)/5 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 180005.1150, 18.0005, 18.0100, 1.7863, 3.1909, 9.6858, 25.0629,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
9.6858,15.6753,16.4756,17.0815,17.5599,18.0102,18.4639,18.9581,19.4987,20.2699,25.0629
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrate Loss (1.0)
|
NO3 |
01/01/2014 |
CO2A,NO2A,SO2A, |
algorithm1 |
triangle |
1.0 |
equalto |
subalgorithm1 |
9,135.0000 |
kg N / ha applied |
8,091.0000 |
kg N / ha total |
2,349.0000 |
kg N03-N / ha |
7,569.0000 |
kg N / ha applied |
0.0000 |
none |
30.4848 |
kg N03-N / ha |
2,001.0000 |
3,915.0000 |
1,321.9650 |
kg N03-N / ha |
1,306.7922 |
lower 90% ci |
1,337.1378 |
upper 90% ci |
Nitrate emissions derived from organic fertilizer. Measurement for field has been adjusted to NO3 emission per kg fertilizer applied, as follows: 0.29 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 27 kg N03) / 87 kg N per |
((I1.Q1/ I1.Q2) * I1.Q3) / I1.Q4 |
Ammonia Loss (1.0)
|
NH3 |
01/01/2014 |
CO2A |
algorithm1 |
normal |
|
none |
subalgorithm1 |
9,135.0000 |
kg N / ha applied |
8,091.0000 |
kg N / ha total |
234.9000 |
kg NH3-N / ha |
7,569.0000 |
kg N / ha applied |
0.0000 |
none |
3.0450 |
kg NH3-N / ha |
304.5000 |
26.1000 |
304.5087 |
kg NH3-N / ha |
304.0824 |
lower 90% ci |
304.9350 |
upper 90% ci |
Ammonia emissions derived from organic fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 2.7 kg N03) / 87 kg N per |
((I2.Q1/ I2.Q2) * I2.Q3) / I2.Q4 |
Nitrous Oxide Loss (1.0)
|
N2O |
01/01/2014 |
SO2A |
algorithm1 |
normal |
|
equalto |
subalgorithm1 |
9,135.0000 |
kg N / ha applied |
8,091.0000 |
kg N / ha total |
104.4000 |
kg N2O-N / ha |
7,569.0000 |
kg N / ha applied |
0.0000 |
none |
1.3572 |
kg N2O-N / ha |
139.2000 |
13.0500 |
139.2000 |
kg N2O-N / ha |
138.9825 |
lower 90% ci |
139.4175 |
upper 90% ci |
Nitrous oxide emissions derived from organic fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 2.7 kg N03) / 87 kg |
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4 |
Global Warming (1.0)
|
CO2A |
07/16/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
1.3920 |
kg N2O N / ha |
25,926.0000 |
charac factor |
87.0000 |
normal factor |
13.9200 |
weight factor |
0.0000 |
none |
66.3723 |
CO2 eqivs / ha |
6,699.0000 |
678.6000 |
6,699.1914 |
CO2 eqivs / ha |
6,688.0815 |
lower 90% ci |
6,710.3013 |
upper 90% ci |
This indicator measures the contribution of the nitrous oxide emissions from this input to the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Acidification (1.0)
|
SO2A |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
30.4500 |
kg NH3-N / ha |
163.5600 |
charac factor |
87.0000 |
normal factor |
4.3500 |
weight factor |
0.0000 |
none |
2.8623 |
SO2 eqivs / ha |
287.1000 |
26.1000 |
287.1087 |
SO2 eqivs / ha |
286.6824 |
lower 90% ci |
287.5350 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input to the environmental performance measure of acidification. |
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4 |
Eutrophication (1.0)
|
NO3A |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
30.4500 |
kg NH3-N / ha |
316.6800 |
charac factor |
87.0000 |
normal factor |
4.3500 |
weight factor |
0.0000 |
none |
5.5419 |
NO3 eqivs / ha |
556.8000 |
56.5500 |
556.8174 |
NO3 eqivs / ha |
555.8952 |
lower 90% ci |
557.7396 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of eutrophication |
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4 |
Eutrophication (1.0)
|
NO3B |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
30.4500 |
kg NO3-N / ha |
87.0000 |
charac factor |
87.0000 |
normal factor |
4.3500 |
weight factor |
0.0000 |
none |
1.5225 |
NO3 eqivs / ha |
152.2500 |
15.6600 |
152.2587 |
NO3 eqivs / ha |
152.0064 |
lower 90% ci |
152.5110 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Acidification (1.0)
|
SO2B |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
30.4500 |
kg NO3-N / ha |
60.9000 |
charac factor |
87.0000 |
normal factor |
4.3500 |
weight factor |
0.0000 |
none |
1.0614 |
SO2 eqivs / ha |
104.4000 |
10.4400 |
104.4000 |
SO2 eqivs / ha |
104.2260 |
lower 90% ci |
104.5740 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of acidification. |
((I8.Q1*I8.Q2)/I8.Q3)*I8.Q4 |
Input : 2012 Fertilizer, Orange, Organic
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
1,559.9535 |
environmental performance |
1,566.0000 |
mean |
156.6000 |
sd |
10000 |
|
1,566.0435 |
mean |
1,563.4770 |
lower 90% ci |
1,568.6100 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
(I4.QTM+I5.QTM+I6.QTM+I7.QTM+I8.QTM)/5 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 180005.1150, 18.0005, 18.0100, 1.7863, 3.1909, 9.6858, 25.0629,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
9.6858,15.6753,16.4756,17.0815,17.5599,18.0102,18.4639,18.9581,19.4987,20.2699,25.0629
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrate Loss (1.0)
|
NO3 |
01/01/2014 |
CO2A,NO2A,SO2A, |
algorithm1 |
triangle |
1.0 |
equalto |
subalgorithm1 |
9,135.0000 |
kg N / ha applied |
8,091.0000 |
kg N / ha total |
2,349.0000 |
kg N03-N / ha |
7,569.0000 |
kg N / ha applied |
0.0000 |
none |
30.4848 |
kg N03-N / ha |
2,001.0000 |
3,915.0000 |
1,321.9650 |
kg N03-N / ha |
1,306.7922 |
lower 90% ci |
1,337.1378 |
upper 90% ci |
Nitrate emissions derived from organic fertilizer. Measurement for field has been adjusted to NO3 emission per kg fertilizer applied, as follows: 0.29 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 27 kg N03) / 87 kg N per |
((I1.Q1/ I1.Q2) * I1.Q3) / I1.Q4 |
Ammonia Loss (1.0)
|
NH3 |
01/01/2014 |
CO2A |
algorithm1 |
normal |
|
none |
subalgorithm1 |
9,135.0000 |
kg N / ha applied |
8,091.0000 |
kg N / ha total |
234.9000 |
kg NH3-N / ha |
7,569.0000 |
kg N / ha applied |
0.0000 |
none |
3.0450 |
kg NH3-N / ha |
304.5000 |
26.1000 |
304.5087 |
kg NH3-N / ha |
304.0824 |
lower 90% ci |
304.9350 |
upper 90% ci |
Ammonia emissions derived from organic fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 2.7 kg N03) / 87 kg N per |
((I2.Q1/ I2.Q2) * I2.Q3) / I2.Q4 |
Nitrous Oxide Loss (1.0)
|
N2O |
01/01/2014 |
SO2A |
algorithm1 |
normal |
|
equalto |
subalgorithm1 |
9,135.0000 |
kg N / ha applied |
8,091.0000 |
kg N / ha total |
104.4000 |
kg N2O-N / ha |
7,569.0000 |
kg N / ha applied |
0.0000 |
none |
1.3572 |
kg N2O-N / ha |
139.2000 |
13.0500 |
139.2000 |
kg N2O-N / ha |
138.9825 |
lower 90% ci |
139.4175 |
upper 90% ci |
Nitrous oxide emissions derived from organic fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 2.7 kg N03) / 87 kg |
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4 |
Global Warming (1.0)
|
CO2A |
07/16/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
1.3920 |
kg N2O N / ha |
25,926.0000 |
charac factor |
87.0000 |
normal factor |
13.9200 |
weight factor |
0.0000 |
none |
66.3723 |
CO2 eqivs / ha |
6,699.0000 |
678.6000 |
6,699.1914 |
CO2 eqivs / ha |
6,688.0815 |
lower 90% ci |
6,710.3013 |
upper 90% ci |
This indicator measures the contribution of the nitrous oxide emissions from this input to the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Acidification (1.0)
|
SO2A |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
30.4500 |
kg NH3-N / ha |
163.5600 |
charac factor |
87.0000 |
normal factor |
4.3500 |
weight factor |
0.0000 |
none |
2.8623 |
SO2 eqivs / ha |
287.1000 |
26.1000 |
287.1087 |
SO2 eqivs / ha |
286.6824 |
lower 90% ci |
287.5350 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input to the environmental performance measure of acidification. |
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4 |
Eutrophication (1.0)
|
NO3A |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
30.4500 |
kg NH3-N / ha |
316.6800 |
charac factor |
87.0000 |
normal factor |
4.3500 |
weight factor |
0.0000 |
none |
5.5419 |
NO3 eqivs / ha |
556.8000 |
56.5500 |
556.8174 |
NO3 eqivs / ha |
555.8952 |
lower 90% ci |
557.7396 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of eutrophication |
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4 |
Eutrophication (1.0)
|
NO3B |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
30.4500 |
kg NO3-N / ha |
87.0000 |
charac factor |
87.0000 |
normal factor |
4.3500 |
weight factor |
0.0000 |
none |
1.5225 |
NO3 eqivs / ha |
152.2500 |
15.6600 |
152.2587 |
NO3 eqivs / ha |
152.0064 |
lower 90% ci |
152.5110 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Acidification (1.0)
|
SO2B |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
30.4500 |
kg NO3-N / ha |
60.9000 |
charac factor |
87.0000 |
normal factor |
4.3500 |
weight factor |
0.0000 |
none |
1.0614 |
SO2 eqivs / ha |
104.4000 |
10.4400 |
104.4000 |
SO2 eqivs / ha |
104.2260 |
lower 90% ci |
104.5740 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of acidification. |
((I8.Q1*I8.Q2)/I8.Q3)*I8.Q4 |
Time Period : 2013 Organic Orange Crop
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
4,307.5297 |
environmental performance |
4,299.1600 |
mean |
335.8100 |
sd |
10000 |
|
4,292.4416 |
mean |
4,286.9332 |
lower 90% ci |
4,297.9500 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
2.0 |
I1.QTM+I2.QTM/2 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 1745801.3608, 174.5801, 174.6391, 19.8814, 395.2693, 100.9451, 246.4290,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
100.9451,148.9931,157.7670,164.0451,169.6562,174.6403,179.6575,185.0302,191.2837,200.3172,246.4290
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrate Loss (1.0)
|
NO3 |
01/01/2014 |
CO2A,NO2A,SO2A, |
algorithm1 |
triangle |
1.0 |
equalto |
subalgorithm1 |
8,835.0000 |
kg N / ha applied |
8,649.0000 |
kg N / ha total |
2,511.0000 |
kg N03-N / ha |
8,091.0000 |
kg N / ha applied |
0.0000 |
none |
29.4810 |
kg N03-N / ha |
2,046.0000 |
3,906.0000 |
1,318.3773 |
kg N03-N / ha |
1,303.2369 |
lower 90% ci |
1,333.5177 |
upper 90% ci |
Nitrate emissions derived from organic fertilizer. Measurement for field has been adjusted to NO3 emission per kg fertilizer applied, as follows: 0.29 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 27 kg N03) / 87 kg N per |
((I1.Q1/ I1.Q2) * I1.Q3) / I1.Q4 |
Ammonia Loss (1.0)
|
NH3 |
01/01/2014 |
CO2A |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
8,835.0000 |
kg N / ha applied |
8,649.0000 |
kg N / ha total |
251.1000 |
kg NH3-N / ha |
8,091.0000 |
kg N / ha applied |
0.0000 |
none |
2.9481 |
kg NH3-N / ha |
288.3000 |
27.9000 |
288.3093 |
kg NH3-N / ha |
287.8536 |
lower 90% ci |
288.7650 |
upper 90% ci |
Ammonia emissions derived from organic fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 2.7 kg N03) / 87 kg N per |
((I2.Q1/ I2.Q2) * I2.Q3) / I2.Q4 |
Nitrous Oxide Loss (1.0)
|
N2O |
01/01/2014 |
SO2A |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
8,835.0000 |
kg N / ha applied |
8,649.0000 |
kg N / ha total |
111.6000 |
kg N2O-N / ha |
8,091.0000 |
kg N / ha applied |
0.0000 |
none |
1.3113 |
kg N2O-N / ha |
130.2000 |
13.9500 |
130.2000 |
kg N2O-N / ha |
129.9675 |
lower 90% ci |
130.4325 |
upper 90% ci |
Nitrous oxide emissions derived from organic fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 2.7 kg N03) / 87 kg |
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4 |
Global Warming (1.0)
|
CO2A |
07/16/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
1.3392 |
kg N2O N / ha |
27,714.0000 |
charac factor |
93.0000 |
normal factor |
14.8800 |
weight factor |
0.0000 |
none |
63.8538 |
CO2 eqivs / ha |
6,417.0000 |
651.0000 |
6,417.1860 |
CO2 eqivs / ha |
6,406.5282 |
lower 90% ci |
6,427.8438 |
upper 90% ci |
This indicator measures the contribution of the nitrous oxide emissions from this input to the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Acidification (1.0)
|
SO2A |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
29.7600 |
kg NH3-N / ha |
174.8400 |
charac factor |
93.0000 |
normal factor |
4.6500 |
weight factor |
0.0000 |
none |
2.7993 |
SO2 eqivs / ha |
288.3000 |
27.9000 |
288.3093 |
SO2 eqivs / ha |
287.8536 |
lower 90% ci |
288.7650 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input to the environmental performance measure of acidification. |
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4 |
Eutrophication (1.0)
|
NO3A |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
29.7600 |
kg NH3-N / ha |
338.5200 |
charac factor |
93.0000 |
normal factor |
4.6500 |
weight factor |
0.0000 |
none |
5.4126 |
NO3 eqivs / ha |
539.4000 |
53.9400 |
539.4186 |
NO3 eqivs / ha |
538.5351 |
lower 90% ci |
540.3021 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of eutrophication |
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4 |
Eutrophication (1.0)
|
NO3B |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
29.7600 |
kg NO3-N / ha |
93.0000 |
charac factor |
93.0000 |
normal factor |
4.6500 |
weight factor |
0.0000 |
none |
1.4880 |
NO3 eqivs / ha |
148.8000 |
14.8800 |
148.8000 |
NO3 eqivs / ha |
148.5582 |
lower 90% ci |
149.0418 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Acidification (1.0)
|
SO2B |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
29.7600 |
kg NO3-N / ha |
65.1000 |
charac factor |
93.0000 |
normal factor |
4.6500 |
weight factor |
0.0000 |
none |
1.0416 |
SO2 eqivs / ha |
102.3000 |
13.9500 |
102.3000 |
SO2 eqivs / ha |
102.0675 |
lower 90% ci |
102.5325 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of acidification. |
((I8.Q1*I8.Q2)/I8.Q3)*I8.Q4 |
Nitrogen (1.0)
|
N |
01/01/2014 |
none |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
480.0000 |
kg N / ha |
288.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
26.6672 |
kg N / ton |
2,720.0000 |
280.0000 |
2,714.1216 |
kg N / ton |
2,709.5296 |
lower 90% ci |
2,718.7136 |
upper 90% ci |
This indicator measures annual nitrogen per ton of output yield. |
I1.Q1/I1.Q2 |
Phosphorous (1.0)
|
P |
01/01/2014 |
none |
algorithm1 |
triangle |
none |
equalto |
subalgorithm1 |
70.4000 |
kg P / ha |
288.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
3.9104 |
kg P / ton |
240.0000 |
560.0000 |
188.4048 |
kg P / ton |
186.2400 |
lower 90% ci |
190.5696 |
upper 90% ci |
This indicator measures annual phosphorous per ton of output yield. |
I2.Q1/I2.Q2 |
Outcomes |
Outcome
|
2013 Organic Orange Crop Outcome
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
2,808.3232 |
environmental performance |
2,800.0000 |
mean |
320.0000 |
sd |
10000 |
|
2,793.2816 |
mean |
2,788.0336 |
lower 90% ci |
2,798.5296 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
I1.QTM+I2.QTM/2 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 1745801.3608, 174.5801, 174.6391, 19.8814, 395.2693, 100.9451, 246.4290,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
100.9451,148.9931,157.7670,164.0451,169.6562,174.6403,179.6575,185.0302,191.2837,200.3172,246.4290
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrogen (1.0)
|
N |
01/01/2014 |
none |
algorithm1 |
normal |
1.0 |
equalto |
subalgorithm1 |
480.0000 |
kg N / ha |
288.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
26.6672 |
kg N / ton |
2,720.0000 |
280.0000 |
2,714.1216 |
kg N / ton |
2,709.5296 |
lower 90% ci |
2,718.7136 |
upper 90% ci |
This indicator measures annual nitrogen per ton of output yield. |
I1.Q1/I1.Q2 |
Phosphorous (1.0)
|
P |
01/01/2014 |
none |
algorithm1 |
triangle |
none |
equalto |
subalgorithm1 |
70.4000 |
kg P / ha |
288.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
3.9104 |
kg P / ton |
240.0000 |
560.0000 |
188.4048 |
kg P / ton |
186.2400 |
lower 90% ci |
190.5696 |
upper 90% ci |
This indicator measures annual phosphorous per ton of output yield. |
I2.Q1/I2.Q2 |
Output : 2013 Orange, Organic LCA
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
2,808.3232 |
environmental performance |
2,800.0000 |
mean |
320.0000 |
sd |
10000 |
|
2,793.2816 |
mean |
2,788.0336 |
lower 90% ci |
2,798.5296 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
I1.QTM+I2.QTM/2 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 1745801.3608, 174.5801, 174.6391, 19.8814, 395.2693, 100.9451, 246.4290,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
100.9451,148.9931,157.7670,164.0451,169.6562,174.6403,179.6575,185.0302,191.2837,200.3172,246.4290
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrogen (1.0)
|
N |
01/01/2014 |
none |
algorithm1 |
normal |
1.0 |
equalto |
subalgorithm1 |
480.0000 |
kg N / ha |
288.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
26.6672 |
kg N / ton |
2,720.0000 |
280.0000 |
2,714.1216 |
kg N / ton |
2,709.5296 |
lower 90% ci |
2,718.7136 |
upper 90% ci |
This indicator measures annual nitrogen per ton of output yield. |
I1.Q1/I1.Q2 |
Phosphorous (1.0)
|
P |
01/01/2014 |
none |
algorithm1 |
triangle |
none |
equalto |
subalgorithm1 |
70.4000 |
kg P / ha |
288.0000 |
tons / ha |
0.0000 |
none |
0.0000 |
none |
0.0000 |
none |
3.9104 |
kg P / ton |
240.0000 |
560.0000 |
188.4048 |
kg P / ton |
186.2400 |
lower 90% ci |
190.5696 |
upper 90% ci |
This indicator measures annual phosphorous per ton of output yield. |
I2.Q1/I2.Q2 |
Operations |
Operation
|
2013 Organic Orange Crop Operation
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
1,499.2065 |
environmental performance |
1,499.1600 |
mean |
15.8100 |
sd |
10000 |
|
1,499.1600 |
mean |
1,498.8996 |
lower 90% ci |
1,499.4204 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
(I4.QTM+I5.QTM+I6.QTM+I7.QTM+I8.QTM)/5 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 161200.4831, 16.1200, 16.1209, 0.1687, 0.0285, 15.3348, 16.7870,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
15.3348,15.9004,15.9760,16.0333,16.0784,16.1210,16.1638,16.2105,16.2615,16.3344,16.7870
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrate Loss (1.0)
|
NO3 |
01/01/2014 |
CO2A,NO2A,SO2A, |
algorithm1 |
triangle |
1.0 |
equalto |
subalgorithm1 |
8,835.0000 |
kg N / ha applied |
8,649.0000 |
kg N / ha total |
2,511.0000 |
kg N03-N / ha |
8,091.0000 |
kg N / ha applied |
0.0000 |
none |
29.4810 |
kg N03-N / ha |
2,046.0000 |
3,906.0000 |
1,318.3773 |
kg N03-N / ha |
1,303.2369 |
lower 90% ci |
1,333.5177 |
upper 90% ci |
Nitrate emissions derived from organic fertilizer. Measurement for field has been adjusted to NO3 emission per kg fertilizer applied, as follows: 0.29 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 27 kg N03) / 87 kg N per |
((I1.Q1/ I1.Q2) * I1.Q3) / I1.Q4 |
Ammonia Loss (1.0)
|
NH3 |
01/01/2014 |
CO2A |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
8,835.0000 |
kg N / ha applied |
8,649.0000 |
kg N / ha total |
251.1000 |
kg NH3-N / ha |
8,091.0000 |
kg N / ha applied |
0.0000 |
none |
2.9481 |
kg NH3-N / ha |
288.3000 |
27.9000 |
288.3093 |
kg NH3-N / ha |
287.8536 |
lower 90% ci |
288.7650 |
upper 90% ci |
Ammonia emissions derived from organic fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 2.7 kg N03) / 87 kg N per |
((I2.Q1/ I2.Q2) * I2.Q3) / I2.Q4 |
Nitrous Oxide Loss (1.0)
|
N2O |
01/01/2014 |
SO2A |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
8,835.0000 |
kg N / ha applied |
8,649.0000 |
kg N / ha total |
111.6000 |
kg N2O-N / ha |
8,091.0000 |
kg N / ha applied |
0.0000 |
none |
1.3113 |
kg N2O-N / ha |
130.2000 |
13.9500 |
130.2000 |
kg N2O-N / ha |
129.9675 |
lower 90% ci |
130.4325 |
upper 90% ci |
Nitrous oxide emissions derived from organic fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 2.7 kg N03) / 87 kg |
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4 |
Global Warming (1.0)
|
CO2A |
07/16/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
1.3392 |
kg N2O N / ha |
27,714.0000 |
charac factor |
93.0000 |
normal factor |
14.8800 |
weight factor |
0.0000 |
none |
63.8538 |
CO2 eqivs / ha |
6,417.0000 |
651.0000 |
6,417.1860 |
CO2 eqivs / ha |
6,406.5282 |
lower 90% ci |
6,427.8438 |
upper 90% ci |
This indicator measures the contribution of the nitrous oxide emissions from this input to the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Acidification (1.0)
|
SO2A |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
29.7600 |
kg NH3-N / ha |
174.8400 |
charac factor |
93.0000 |
normal factor |
4.6500 |
weight factor |
0.0000 |
none |
2.7993 |
SO2 eqivs / ha |
288.3000 |
27.9000 |
288.3093 |
SO2 eqivs / ha |
287.8536 |
lower 90% ci |
288.7650 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input to the environmental performance measure of acidification. |
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4 |
Eutrophication (1.0)
|
NO3A |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
29.7600 |
kg NH3-N / ha |
338.5200 |
charac factor |
93.0000 |
normal factor |
4.6500 |
weight factor |
0.0000 |
none |
5.4126 |
NO3 eqivs / ha |
539.4000 |
53.9400 |
539.4186 |
NO3 eqivs / ha |
538.5351 |
lower 90% ci |
540.3021 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of eutrophication |
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4 |
Eutrophication (1.0)
|
NO3B |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
29.7600 |
kg NO3-N / ha |
93.0000 |
charac factor |
93.0000 |
normal factor |
4.6500 |
weight factor |
0.0000 |
none |
1.4880 |
NO3 eqivs / ha |
148.8000 |
14.8800 |
148.8000 |
NO3 eqivs / ha |
148.5582 |
lower 90% ci |
149.0418 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Acidification (1.0)
|
SO2B |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
29.7600 |
kg NO3-N / ha |
65.1000 |
charac factor |
93.0000 |
normal factor |
4.6500 |
weight factor |
0.0000 |
none |
1.0416 |
SO2 eqivs / ha |
102.3000 |
13.9500 |
102.3000 |
SO2 eqivs / ha |
102.0675 |
lower 90% ci |
102.5325 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of acidification. |
((I8.Q1*I8.Q2)/I8.Q3)*I8.Q4 |
Input : 2013 Fertilizer, Orange, Organic
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
1,499.2065 |
environmental performance |
1,499.1600 |
mean |
15.8100 |
sd |
10000 |
|
1,499.1600 |
mean |
1,498.8996 |
lower 90% ci |
1,499.4204 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
(I4.QTM+I5.QTM+I6.QTM+I7.QTM+I8.QTM)/5 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 161200.4831, 16.1200, 16.1209, 0.1687, 0.0285, 15.3348, 16.7870,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
15.3348,15.9004,15.9760,16.0333,16.0784,16.1210,16.1638,16.2105,16.2615,16.3344,16.7870
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrate Loss (1.0)
|
NO3 |
01/01/2014 |
CO2A,NO2A,SO2A, |
algorithm1 |
triangle |
1.0 |
equalto |
subalgorithm1 |
8,835.0000 |
kg N / ha applied |
8,649.0000 |
kg N / ha total |
2,511.0000 |
kg N03-N / ha |
8,091.0000 |
kg N / ha applied |
0.0000 |
none |
29.4810 |
kg N03-N / ha |
2,046.0000 |
3,906.0000 |
1,318.3773 |
kg N03-N / ha |
1,303.2369 |
lower 90% ci |
1,333.5177 |
upper 90% ci |
Nitrate emissions derived from organic fertilizer. Measurement for field has been adjusted to NO3 emission per kg fertilizer applied, as follows: 0.29 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 27 kg N03) / 87 kg N per |
((I1.Q1/ I1.Q2) * I1.Q3) / I1.Q4 |
Ammonia Loss (1.0)
|
NH3 |
01/01/2014 |
CO2A |
algorithm1 |
normal |
none |
none |
subalgorithm1 |
8,835.0000 |
kg N / ha applied |
8,649.0000 |
kg N / ha total |
251.1000 |
kg NH3-N / ha |
8,091.0000 |
kg N / ha applied |
0.0000 |
none |
2.9481 |
kg NH3-N / ha |
288.3000 |
27.9000 |
288.3093 |
kg NH3-N / ha |
287.8536 |
lower 90% ci |
288.7650 |
upper 90% ci |
Ammonia emissions derived from organic fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 2.7 kg N03) / 87 kg N per |
((I2.Q1/ I2.Q2) * I2.Q3) / I2.Q4 |
Nitrous Oxide Loss (1.0)
|
N2O |
01/01/2014 |
SO2A |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
8,835.0000 |
kg N / ha applied |
8,649.0000 |
kg N / ha total |
111.6000 |
kg N2O-N / ha |
8,091.0000 |
kg N / ha applied |
0.0000 |
none |
1.3113 |
kg N2O-N / ha |
130.2000 |
13.9500 |
130.2000 |
kg N2O-N / ha |
129.9675 |
lower 90% ci |
130.4325 |
upper 90% ci |
Nitrous oxide emissions derived from organic fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 2.7 kg N03) / 87 kg |
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4 |
Global Warming (1.0)
|
CO2A |
07/16/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
1.3392 |
kg N2O N / ha |
27,714.0000 |
charac factor |
93.0000 |
normal factor |
14.8800 |
weight factor |
0.0000 |
none |
63.8538 |
CO2 eqivs / ha |
6,417.0000 |
651.0000 |
6,417.1860 |
CO2 eqivs / ha |
6,406.5282 |
lower 90% ci |
6,427.8438 |
upper 90% ci |
This indicator measures the contribution of the nitrous oxide emissions from this input to the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Acidification (1.0)
|
SO2A |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
29.7600 |
kg NH3-N / ha |
174.8400 |
charac factor |
93.0000 |
normal factor |
4.6500 |
weight factor |
0.0000 |
none |
2.7993 |
SO2 eqivs / ha |
288.3000 |
27.9000 |
288.3093 |
SO2 eqivs / ha |
287.8536 |
lower 90% ci |
288.7650 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input to the environmental performance measure of acidification. |
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4 |
Eutrophication (1.0)
|
NO3A |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
29.7600 |
kg NH3-N / ha |
338.5200 |
charac factor |
93.0000 |
normal factor |
4.6500 |
weight factor |
0.0000 |
none |
5.4126 |
NO3 eqivs / ha |
539.4000 |
53.9400 |
539.4186 |
NO3 eqivs / ha |
538.5351 |
lower 90% ci |
540.3021 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of eutrophication |
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4 |
Eutrophication (1.0)
|
NO3B |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
29.7600 |
kg NO3-N / ha |
93.0000 |
charac factor |
93.0000 |
normal factor |
4.6500 |
weight factor |
0.0000 |
none |
1.4880 |
NO3 eqivs / ha |
148.8000 |
14.8800 |
148.8000 |
NO3 eqivs / ha |
148.5582 |
lower 90% ci |
149.0418 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Acidification (1.0)
|
SO2B |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
29.7600 |
kg NO3-N / ha |
65.1000 |
charac factor |
93.0000 |
normal factor |
4.6500 |
weight factor |
0.0000 |
none |
1.0416 |
SO2 eqivs / ha |
102.3000 |
13.9500 |
102.3000 |
SO2 eqivs / ha |
102.0675 |
lower 90% ci |
102.5325 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of acidification. |
((I8.Q1*I8.Q2)/I8.Q3)*I8.Q4 |
Time Period : 2014 Organic Orange Crop
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
4,290.9768 |
environmental performance |
4,289.0000 |
mean |
362.3000 |
sd |
10000 |
|
4,281.6520 |
mean |
4,275.7070 |
lower 90% ci |
4,287.5970 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
2.0 |
I1.QTM+I2.QTM/2 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 1546326.1907, 154.6326, 154.6842, 17.3962, 302.6280, 90.2019, 217.5003,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
90.2019,132.2439,139.9212,145.4144,150.3242,154.6852,159.0753,163.7764,169.2482,177.1526,217.5003
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrate Loss (1.0)
|
NO3 |
01/01/2014 |
CO2A,NO2A,SO2A, |
algorithm1 |
triangle |
1.0 |
equalto |
subalgorithm1 |
7,134.0000 |
kg N / ha applied |
7,626.0000 |
kg N / ha total |
2,214.0000 |
kg N03-N / ha |
7,134.0000 |
kg N / ha applied |
0.0000 |
none |
23.8046 |
kg N03-N / ha |
1,640.0000 |
3,280.0000 |
1,106.5326 |
kg N03-N / ha |
1,093.8144 |
lower 90% ci |
1,119.2508 |
upper 90% ci |
Nitrate emissions derived from organic fertilizer. Measurement for field has been adjusted to NO3 emission per kg fertilizer applied, as follows: 0.29 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 27 kg N03) / 87 kg N per |
((I1.Q1/ I1.Q2) * I1.Q3) / I1.Q4 |
Ammonia Loss (1.0)
|
NH3 |
01/01/2014 |
CO2A |
algorithm1 |
normal |
|
none |
subalgorithm1 |
7,134.0000 |
kg N / ha applied |
7,626.0000 |
kg N / ha total |
221.4000 |
kg NH3-N / ha |
7,134.0000 |
kg N / ha applied |
0.0000 |
none |
2.3780 |
kg NH3-N / ha |
237.8000 |
24.6000 |
237.8082 |
kg NH3-N / ha |
237.4064 |
lower 90% ci |
238.2100 |
upper 90% ci |
Ammonia emissions derived from organic fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 2.7 kg N03) / 87 kg N per |
((I2.Q1/ I2.Q2) * I2.Q3) / I2.Q4 |
Nitrous Oxide Loss (1.0)
|
N2O |
01/01/2014 |
SO2A |
algorithm1 |
normal |
|
equalto |
subalgorithm1 |
7,134.0000 |
kg N / ha applied |
7,626.0000 |
kg N / ha total |
98.4000 |
kg N2O-N / ha |
7,134.0000 |
kg N / ha applied |
0.0000 |
none |
1.0578 |
kg N2O-N / ha |
106.6000 |
12.3000 |
106.6000 |
kg N2O-N / ha |
106.3950 |
lower 90% ci |
106.8050 |
upper 90% ci |
Nitrous oxide emissions derived from organic fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 2.7 kg N03) / 87 kg |
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4 |
Global Warming (1.0)
|
CO2A |
07/16/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
1.0660 |
kg N2O N / ha |
24,436.0000 |
charac factor |
82.0000 |
normal factor |
13.1200 |
weight factor |
0.0000 |
none |
50.8236 |
CO2 eqivs / ha |
5,084.0000 |
533.0000 |
5,084.1476 |
CO2 eqivs / ha |
5,075.4228 |
lower 90% ci |
5,092.8724 |
upper 90% ci |
This indicator measures the contribution of the nitrous oxide emissions from this input to the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Acidification (1.0)
|
SO2A |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
23.7800 |
kg NH3-N / ha |
154.1600 |
charac factor |
82.0000 |
normal factor |
4.1000 |
weight factor |
0.0000 |
none |
2.2386 |
SO2 eqivs / ha |
229.6000 |
24.6000 |
229.6082 |
SO2 eqivs / ha |
229.2064 |
lower 90% ci |
230.0100 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input to the environmental performance measure of acidification. |
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4 |
Eutrophication (1.0)
|
NO3A |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
23.7800 |
kg NH3-N / ha |
298.4800 |
charac factor |
82.0000 |
normal factor |
4.1000 |
weight factor |
0.0000 |
none |
4.3296 |
NO3 eqivs / ha |
434.6000 |
45.1000 |
434.6164 |
NO3 eqivs / ha |
433.8784 |
lower 90% ci |
435.3544 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of eutrophication |
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4 |
Eutrophication (1.0)
|
NO3B |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
23.7800 |
kg NO3-N / ha |
82.0000 |
charac factor |
82.0000 |
normal factor |
4.1000 |
weight factor |
0.0000 |
none |
1.1890 |
NO3 eqivs / ha |
123.0000 |
13.1200 |
123.0000 |
NO3 eqivs / ha |
122.7868 |
lower 90% ci |
123.2132 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Acidification (1.0)
|
SO2B |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
23.7800 |
kg NO3-N / ha |
57.4000 |
charac factor |
82.0000 |
normal factor |
4.1000 |
weight factor |
0.0000 |
none |
0.8364 |
SO2 eqivs / ha |
82.0000 |
12.3000 |
82.0000 |
SO2 eqivs / ha |
81.7950 |
lower 90% ci |
82.2050 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of acidification. |
((I8.Q1*I8.Q2)/I8.Q3)*I8.Q4 |
Nitrogen (1.0)
|
N |
01/01/2014 |
none |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
540.0000 |
kg N / ha |
360.0000 |
tons / ha |
30.0000 |
kg N / ton |
0.0000 |
none |
0.0000 |
none |
30.0000 |
kg N / ton |
3,000.0000 |
350.0000 |
2,992.6520 |
kg N / ton |
2,986.9120 |
lower 90% ci |
2,998.3920 |
upper 90% ci |
This indicator measures annual nitrogen per ton of output yield. |
I1.Q1/I1.Q2 |
Phosphorous (1.0)
|
P |
01/01/2014 |
none |
algorithm1 |
triangle |
none |
equalto |
subalgorithm1 |
80.0000 |
kg P / ha |
360.0000 |
tons / ha |
4.4400 |
kg P / ton |
0.0000 |
none |
0.0000 |
none |
4.4440 |
kg P / ton |
240.0000 |
640.0000 |
215.3040 |
kg P / ton |
212.8280 |
lower 90% ci |
217.7800 |
upper 90% ci |
This indicator measures annual phosphorous per ton of output yield. |
I2.Q1/I2.Q2 |
Outcomes |
Outcome
|
2014 Organic Orange Crop Outcome
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
3,100.3040 |
environmental performance |
3,100.0000 |
mean |
350.0000 |
sd |
10000 |
|
3,092.6520 |
mean |
3,086.9120 |
lower 90% ci |
3,098.3920 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
I1.QTM+I2.QTM/2 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 1546326.1907, 154.6326, 154.6842, 17.3962, 302.6280, 90.2019, 217.5003,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
90.2019,132.2439,139.9212,145.4144,150.3242,154.6852,159.0753,163.7764,169.2482,177.1526,217.5003
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrogen (1.0)
|
N |
01/01/2014 |
none |
algorithm1 |
normal |
1.0 |
equalto |
subalgorithm1 |
540.0000 |
kg N / ha |
360.0000 |
tons / ha |
30.0000 |
kg N / ton |
0.0000 |
none |
0.0000 |
none |
30.0000 |
kg N / ton |
3,000.0000 |
350.0000 |
2,992.6520 |
kg N / ton |
2,986.9120 |
lower 90% ci |
2,998.3920 |
upper 90% ci |
This indicator measures annual nitrogen per ton of output yield. |
I1.Q1/I1.Q2 |
Phosphorous (1.0)
|
P |
01/01/2014 |
none |
algorithm1 |
triangle |
none |
equalto |
subalgorithm1 |
80.0000 |
kg P / ha |
360.0000 |
tons / ha |
4.4400 |
kg P / ton |
0.0000 |
none |
0.0000 |
none |
4.4440 |
kg P / ton |
240.0000 |
640.0000 |
215.3040 |
kg P / ton |
212.8280 |
lower 90% ci |
217.7800 |
upper 90% ci |
This indicator measures annual phosphorous per ton of output yield. |
I2.Q1/I2.Q2 |
Output : 2014 Orange, Organic LCA
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
3,100.3040 |
environmental performance |
3,100.0000 |
mean |
350.0000 |
sd |
10000 |
|
3,092.6520 |
mean |
3,086.9120 |
lower 90% ci |
3,098.3920 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
I1.QTM+I2.QTM/2 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 1546326.1907, 154.6326, 154.6842, 17.3962, 302.6280, 90.2019, 217.5003,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
90.2019,132.2439,139.9212,145.4144,150.3242,154.6852,159.0753,163.7764,169.2482,177.1526,217.5003
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrogen (1.0)
|
N |
01/01/2014 |
none |
algorithm1 |
normal |
1.0 |
equalto |
subalgorithm1 |
540.0000 |
kg N / ha |
360.0000 |
tons / ha |
30.0000 |
kg N / ton |
0.0000 |
none |
0.0000 |
none |
30.0000 |
kg N / ton |
3,000.0000 |
350.0000 |
2,992.6520 |
kg N / ton |
2,986.9120 |
lower 90% ci |
2,998.3920 |
upper 90% ci |
This indicator measures annual nitrogen per ton of output yield. |
I1.Q1/I1.Q2 |
Phosphorous (1.0)
|
P |
01/01/2014 |
none |
algorithm1 |
triangle |
none |
equalto |
subalgorithm1 |
80.0000 |
kg P / ha |
360.0000 |
tons / ha |
4.4400 |
kg P / ton |
0.0000 |
none |
0.0000 |
none |
4.4440 |
kg P / ton |
240.0000 |
640.0000 |
215.3040 |
kg P / ton |
212.8280 |
lower 90% ci |
217.7800 |
upper 90% ci |
This indicator measures annual phosphorous per ton of output yield. |
I2.Q1/I2.Q2 |
Operations |
Operation
|
2014 Organic Orange Crop Operation
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
1,190.6728 |
environmental performance |
1,189.0000 |
mean |
12.3000 |
sd |
10000 |
|
1,189.0000 |
mean |
1,188.7950 |
lower 90% ci |
1,189.2050 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
(I4.QTM+I5.QTM+I6.QTM+I7.QTM+I8.QTM)/5 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 145000.4262, 14.5000, 14.5008, 0.1489, 0.0222, 13.8071, 15.0886,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
13.8071,14.3063,14.3730,14.4235,14.4633,14.5008,14.5387,14.5798,14.6249,14.6892,15.0886
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrate Loss (1.0)
|
NO3 |
01/01/2014 |
CO2A,NO2A,SO2A, |
algorithm1 |
triangle |
1.0 |
equalto |
subalgorithm1 |
7,134.0000 |
kg N / ha applied |
7,626.0000 |
kg N / ha total |
2,214.0000 |
kg N03-N / ha |
7,134.0000 |
kg N / ha applied |
0.0000 |
none |
23.8046 |
kg N03-N / ha |
1,640.0000 |
3,280.0000 |
1,106.5326 |
kg N03-N / ha |
1,093.8144 |
lower 90% ci |
1,119.2508 |
upper 90% ci |
Nitrate emissions derived from organic fertilizer. Measurement for field has been adjusted to NO3 emission per kg fertilizer applied, as follows: 0.29 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 27 kg N03) / 87 kg N per |
((I1.Q1/ I1.Q2) * I1.Q3) / I1.Q4 |
Ammonia Loss (1.0)
|
NH3 |
01/01/2014 |
CO2A |
algorithm1 |
normal |
|
none |
subalgorithm1 |
7,134.0000 |
kg N / ha applied |
7,626.0000 |
kg N / ha total |
221.4000 |
kg NH3-N / ha |
7,134.0000 |
kg N / ha applied |
0.0000 |
none |
2.3780 |
kg NH3-N / ha |
237.8000 |
24.6000 |
237.8082 |
kg NH3-N / ha |
237.4064 |
lower 90% ci |
238.2100 |
upper 90% ci |
Ammonia emissions derived from organic fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 2.7 kg N03) / 87 kg N per |
((I2.Q1/ I2.Q2) * I2.Q3) / I2.Q4 |
Nitrous Oxide Loss (1.0)
|
N2O |
01/01/2014 |
SO2A |
algorithm1 |
normal |
|
equalto |
subalgorithm1 |
7,134.0000 |
kg N / ha applied |
7,626.0000 |
kg N / ha total |
98.4000 |
kg N2O-N / ha |
7,134.0000 |
kg N / ha applied |
0.0000 |
none |
1.0578 |
kg N2O-N / ha |
106.6000 |
12.3000 |
106.6000 |
kg N2O-N / ha |
106.3950 |
lower 90% ci |
106.8050 |
upper 90% ci |
Nitrous oxide emissions derived from organic fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 2.7 kg N03) / 87 kg |
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4 |
Global Warming (1.0)
|
CO2A |
07/16/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
1.0660 |
kg N2O N / ha |
24,436.0000 |
charac factor |
82.0000 |
normal factor |
13.1200 |
weight factor |
0.0000 |
none |
50.8236 |
CO2 eqivs / ha |
5,084.0000 |
533.0000 |
5,084.1476 |
CO2 eqivs / ha |
5,075.4228 |
lower 90% ci |
5,092.8724 |
upper 90% ci |
This indicator measures the contribution of the nitrous oxide emissions from this input to the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Acidification (1.0)
|
SO2A |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
23.7800 |
kg NH3-N / ha |
154.1600 |
charac factor |
82.0000 |
normal factor |
4.1000 |
weight factor |
0.0000 |
none |
2.2386 |
SO2 eqivs / ha |
229.6000 |
24.6000 |
229.6082 |
SO2 eqivs / ha |
229.2064 |
lower 90% ci |
230.0100 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input to the environmental performance measure of acidification. |
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4 |
Eutrophication (1.0)
|
NO3A |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
23.7800 |
kg NH3-N / ha |
298.4800 |
charac factor |
82.0000 |
normal factor |
4.1000 |
weight factor |
0.0000 |
none |
4.3296 |
NO3 eqivs / ha |
434.6000 |
45.1000 |
434.6164 |
NO3 eqivs / ha |
433.8784 |
lower 90% ci |
435.3544 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of eutrophication |
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4 |
Eutrophication (1.0)
|
NO3B |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
23.7800 |
kg NO3-N / ha |
82.0000 |
charac factor |
82.0000 |
normal factor |
4.1000 |
weight factor |
0.0000 |
none |
1.1890 |
NO3 eqivs / ha |
123.0000 |
13.1200 |
123.0000 |
NO3 eqivs / ha |
122.7868 |
lower 90% ci |
123.2132 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Acidification (1.0)
|
SO2B |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
23.7800 |
kg NO3-N / ha |
57.4000 |
charac factor |
82.0000 |
normal factor |
4.1000 |
weight factor |
0.0000 |
none |
0.8364 |
SO2 eqivs / ha |
82.0000 |
12.3000 |
82.0000 |
SO2 eqivs / ha |
81.7950 |
lower 90% ci |
82.2050 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of acidification. |
((I8.Q1*I8.Q2)/I8.Q3)*I8.Q4 |
Input : 2014 Fertilizer, Orange, Organic
|
Score
|
Score Unit
|
Score D1 Amount
|
Score D1 Unit
|
Score D2 Amount
|
Score D2 Unit
|
Iterations
|
Confid Int
|
Random Seed
|
Base IO
|
Score Most Amount
|
Score Most Unit
|
Score Low Amount
|
Score Low Unit
|
Score High Amount
|
Score High Unit
|
Distribution Type
|
Math Type
|
Math Sub Type
|
Observations
|
1,190.6728 |
environmental performance |
1,189.0000 |
mean |
12.3000 |
sd |
10000 |
|
1,189.0000 |
mean |
1,188.7950 |
lower 90% ci |
1,189.2050 |
upper 90% ci |
normal |
algorithm1 |
subalgorithm1 |
1.0 |
(I4.QTM+I5.QTM+I6.QTM+I7.QTM+I8.QTM)/5 |
sampled descriptive statistics
N,Total,Mean,Median,StdDev,Var,Min,Max
10000, 145000.4262, 14.5000, 14.5008, 0.1489, 0.0222, 13.8071, 15.0886,
sampled cumulative density function
0.00,0.10,0.20,0.30,0.40,0.50,0.60,0.70,0.80,0.90,1.00
13.8071,14.3063,14.3730,14.4235,14.4633,14.5008,14.5387,14.5798,14.6249,14.6892,15.0886
|
Name (N)
|
Label
|
Date
|
Rel Label
|
Math Type
|
Dist Type
|
Base IO
|
Math Operator
|
Math Sub Type
|
Q1 Amount
|
Q1 Unit
|
Q2 Amount
|
Q2 Unit
|
Q3 Amount
|
Q3 Unit
|
Q4 Amount
|
Q4 Unit
|
Q5 Amount
|
Q5 Unit
|
QT Amount
|
QT Unit
|
QT D1 Amount
|
QT D2 Amount
|
QT Most Amount
|
QT Most Unit
|
QT Low Amount
|
QT Low Unit
|
QT High Amount
|
QT High Unit
|
Nitrate Loss (1.0)
|
NO3 |
01/01/2014 |
CO2A,NO2A,SO2A, |
algorithm1 |
triangle |
1.0 |
equalto |
subalgorithm1 |
7,134.0000 |
kg N / ha applied |
7,626.0000 |
kg N / ha total |
2,214.0000 |
kg N03-N / ha |
7,134.0000 |
kg N / ha applied |
0.0000 |
none |
23.8046 |
kg N03-N / ha |
1,640.0000 |
3,280.0000 |
1,106.5326 |
kg N03-N / ha |
1,093.8144 |
lower 90% ci |
1,119.2508 |
upper 90% ci |
Nitrate emissions derived from organic fertilizer. Measurement for field has been adjusted to NO3 emission per kg fertilizer applied, as follows: 0.29 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 27 kg N03) / 87 kg N per |
((I1.Q1/ I1.Q2) * I1.Q3) / I1.Q4 |
Ammonia Loss (1.0)
|
NH3 |
01/01/2014 |
CO2A |
algorithm1 |
normal |
|
none |
subalgorithm1 |
7,134.0000 |
kg N / ha applied |
7,626.0000 |
kg N / ha total |
221.4000 |
kg NH3-N / ha |
7,134.0000 |
kg N / ha applied |
0.0000 |
none |
2.3780 |
kg NH3-N / ha |
237.8000 |
24.6000 |
237.8082 |
kg NH3-N / ha |
237.4064 |
lower 90% ci |
238.2100 |
upper 90% ci |
Ammonia emissions derived from organic fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 2.7 kg N03) / 87 kg N per |
((I2.Q1/ I2.Q2) * I2.Q3) / I2.Q4 |
Nitrous Oxide Loss (1.0)
|
N2O |
01/01/2014 |
SO2A |
algorithm1 |
normal |
|
equalto |
subalgorithm1 |
7,134.0000 |
kg N / ha applied |
7,626.0000 |
kg N / ha total |
98.4000 |
kg N2O-N / ha |
7,134.0000 |
kg N / ha applied |
0.0000 |
none |
1.0578 |
kg N2O-N / ha |
106.6000 |
12.3000 |
106.6000 |
kg N2O-N / ha |
106.3950 |
lower 90% ci |
106.8050 |
upper 90% ci |
Nitrous oxide emissions derived from organic fertilizer. Measurement for field has been adjusted to NH3 emission per kg fertilizer applied, as follows: .25 kg NH3-N / ha : ((87 kg N per ha applied fertilizer / 93 kg N per ha total) 2.7 kg N03) / 87 kg |
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4 |
Global Warming (1.0)
|
CO2A |
07/16/2014 |
N2O |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
1.0660 |
kg N2O N / ha |
24,436.0000 |
charac factor |
82.0000 |
normal factor |
13.1200 |
weight factor |
0.0000 |
none |
50.8236 |
CO2 eqivs / ha |
5,084.0000 |
533.0000 |
5,084.1476 |
CO2 eqivs / ha |
5,075.4228 |
lower 90% ci |
5,092.8724 |
upper 90% ci |
This indicator measures the contribution of the nitrous oxide emissions from this input to the environmental performance measure of global warming. |
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4 |
Acidification (1.0)
|
SO2A |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
23.7800 |
kg NH3-N / ha |
154.1600 |
charac factor |
82.0000 |
normal factor |
4.1000 |
weight factor |
0.0000 |
none |
2.2386 |
SO2 eqivs / ha |
229.6000 |
24.6000 |
229.6082 |
SO2 eqivs / ha |
229.2064 |
lower 90% ci |
230.0100 |
upper 90% ci |
This indicator measures the contribution of the ammonia emissions from this input to the environmental performance measure of acidification. |
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4 |
Eutrophication (1.0)
|
NO3A |
01/01/2014 |
NH3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
23.7800 |
kg NH3-N / ha |
298.4800 |
charac factor |
82.0000 |
normal factor |
4.1000 |
weight factor |
0.0000 |
none |
4.3296 |
NO3 eqivs / ha |
434.6000 |
45.1000 |
434.6164 |
NO3 eqivs / ha |
433.8784 |
lower 90% ci |
435.3544 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of eutrophication |
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4 |
Eutrophication (1.0)
|
NO3B |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
23.7800 |
kg NO3-N / ha |
82.0000 |
charac factor |
82.0000 |
normal factor |
4.1000 |
weight factor |
0.0000 |
none |
1.1890 |
NO3 eqivs / ha |
123.0000 |
13.1200 |
123.0000 |
NO3 eqivs / ha |
122.7868 |
lower 90% ci |
123.2132 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of eutrophication. |
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4 |
Acidification (1.0)
|
SO2B |
01/01/2014 |
NO3 |
algorithm1 |
normal |
none |
equalto |
subalgorithm1 |
23.7800 |
kg NO3-N / ha |
57.4000 |
charac factor |
82.0000 |
normal factor |
4.1000 |
weight factor |
0.0000 |
none |
0.8364 |
SO2 eqivs / ha |
82.0000 |
12.3000 |
82.0000 |
SO2 eqivs / ha |
81.7950 |
lower 90% ci |
82.2050 |
upper 90% ci |
This indicator measures the contribution of the nitrate emissions from this input to the environmental performance measure of acidification. |
((I8.Q1*I8.Q2)/I8.Q3)*I8.Q4 |