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Conventional Orange Budget

Resource Stock Operating or Capital Budget Analyzer Views

Totals

Introduction
This tool generates a variety of basic resource stock stock statistics for DevTreks capital budgets and operating budgets.

Calculation View Description
v210a

Version: 1.9.0

Feedback About carbon/investment/Conventional Orange Budget/428/investmentsbtotal1

Step 1 of 3. Make Selections


Display Full View:

Step 2 of 3. Analyze

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Step 3 of 3. Save

Method 1. Do you wish to save step 2's calculations? These calculations are viewed by opening this particular calculator addin.



Instructions

Step 1

  • Step 1. Base Calculations To Analyze: Make sure the data being analyzed corresponds to either operating budgets or capital budgets.
  • Step 1. Analysis Type: Choose the type of analysis to run. Ensure that it coincides with the name of the analyzer being used.
  • Step 1. Stocks to Analyze: Choose up to 10 resource stock properties to analyze.

Step 2

  • Step 2. Use Same Calculator Pack In Descendants?: True to insert or update this same calculator in children.
  • Step 2. What If Tag Name: Instructional videos explaining the use of what-if scenario calculations should be viewed before changing or using this parameter.
  • Step 2. Related Calculators Type: Name of the "Related Calculator Type" found in descendants. Runs calculations using the data found in those descendant linked views. This property takes precedence over the "Base Resoure Calculations to Analyze Type" property.
  • Step 2. Math Properties: Choose optional algorithms and subalgorithms. Refer to the CTA tutorial for options.
  • Step 2. Media URL: Delimited string of Media URLs that explain the analysis.

Step 3

  • Step 3. Save Using: The Save command saves xml data the Save Text command saves csv data.


Reminder: The 'Resource Stock Totals' analyzer requires running the underlying NPV calculator after inserting, deleting, or updating, this linked view (that keeps the NPV calculator's linked views synchronized with these linkedviews).


Current view of document
Conventional Orange Budget
Investment Group : LCA Organic vs Conventional Orange Crop Investments
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
15,163.7915 env performance 14,934.3390 mean 1,613.5490 sd 10000
14,942.4621 mean 14,916.1866 lower 90% ci 14,968.7376 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
43.1450 kg N / ha applied 42.6000 kg N / ha total 10.6500 kg N03-N / ha 39.4050 kg N / ha applied 0.0000 kg N03-N / ha
0.0972 kg N03-N / ha 8.0000 14.2000 4.7956 kg N03-N / ha 4.7408 lower 90 % ci 4.8505 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
43.1450 kg N / ha applied 42.6000 kg N / ha total 2.2898 kg NH3-N / ha 39.4050 kg N / ha applied 0.0000 kg N03-N / ha
0.0209 kg N03-N / ha 2.0870 0.1953 2.0882 kg N03-N / ha 2.0850 lower 90 % ci 2.0914 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
43.1450 kg N / ha applied 42.6000 kg N / ha total 0.5680 kg N2O-N / ha 39.4050 kg N / ha applied 0.0000 none
0.0052 kg N2O-N / ha 0.5212 0.0497 0.5215 kg N2O-N / ha 0.5207 lower 90 % ci 0.5223 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
0.0015 kg N2O-N / ha 32.7800 charac factor 0.1100 normal factor 0.0190 weight factor 0.0000 none
0.0818 kg CO2 equivs 8.1840 0.8250 0.0818 kg CO2 equivs 0.0818 lower 90 % ci 0.0818 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
0.0973 kg NO3-N / ha 0.2485 charac factor 0.3550 normal factor 0.0178 weight factor 0.0000 none
0.0034 kg SO2 equivs 0.3499 0.0337 0.3501 kg SO2 equivs 0.3495 lower 90 % ci 0.3507 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
0.0973 kg NO3-N / ha 0.4793 charac factor 0.3550 normal factor 0.0178 weight factor 0.0000 none
0.0066 kg N03 equivs 0.6667 0.0621 0.6671 kg N03 equivs 0.6661 lower 90 % ci 0.6681 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
12.7024 kg NH3-N / ha 15.7145 charac factor 3.3000 normal factor 12.7024 weight factor 0.0000 none
0.0013 kg N03 equivs 0.1320 0.0107 0.0013 kg N03 equivs 0.0013 lower 90 % ci 0.0013 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
0.0154 kg NH3-N / ha 0.6674 charac factor 0.3550 normal factor 0.0178 weight factor 0.0000 none
0.0015 kg SO2 equivs 0.1453 0.0195 0.1454 kg SO2 equivs 0.1451 lower 90 % ci 0.1457 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
0.0034 kg N2O-N / ha 73.0100 charac factor 0.2450 normal factor 0.0392 weight factor 0.0000 none
0.1604 kg CO2 equivs 17.0300 1.8375 17.0414 kg CO2 equivs 17.0114 lower 90% ci 17.0715 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
0.0084 kg NH3-N / ha 0.8918 charac factor 0.2450 normal factor 0.0123 weight factor 0.0000 none
0.0015 kg N03 equivs 0.1512 0.0238 0.1513 kg N03 equivs 0.1510 lower 90% ci 0.1517 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
Investment : Conventional Orange Budget
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
15,163.7915 env performance 14,934.3390 mean 1,613.5490 sd 10000
14,942.4621 mean 14,916.1866 lower 90% ci 14,968.7376 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
43.1450 kg N / ha applied 42.6000 kg N / ha total 10.6500 kg N03-N / ha 39.4050 kg N / ha applied 0.0000 kg N03-N / ha
0.0972 kg N03-N / ha 8.0000 14.2000 4.7956 kg N03-N / ha 4.7408 lower 90 % ci 4.8505 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
43.1450 kg N / ha applied 42.6000 kg N / ha total 2.2898 kg NH3-N / ha 39.4050 kg N / ha applied 0.0000 kg N03-N / ha
0.0209 kg N03-N / ha 2.0870 0.1953 2.0882 kg N03-N / ha 2.0850 lower 90 % ci 2.0914 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
43.1450 kg N / ha applied 42.6000 kg N / ha total 0.5680 kg N2O-N / ha 39.4050 kg N / ha applied 0.0000 none
0.0052 kg N2O-N / ha 0.5212 0.0497 0.5215 kg N2O-N / ha 0.5207 lower 90 % ci 0.5223 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
0.0015 kg N2O-N / ha 32.7800 charac factor 0.1100 normal factor 0.0190 weight factor 0.0000 none
0.0818 kg CO2 equivs 8.1840 0.8250 0.0818 kg CO2 equivs 0.0818 lower 90 % ci 0.0818 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
0.0973 kg NO3-N / ha 0.2485 charac factor 0.3550 normal factor 0.0178 weight factor 0.0000 none
0.0034 kg SO2 equivs 0.3499 0.0337 0.3501 kg SO2 equivs 0.3495 lower 90 % ci 0.3507 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
0.0973 kg NO3-N / ha 0.4793 charac factor 0.3550 normal factor 0.0178 weight factor 0.0000 none
0.0066 kg N03 equivs 0.6667 0.0621 0.6671 kg N03 equivs 0.6661 lower 90 % ci 0.6681 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
12.7024 kg NH3-N / ha 15.7145 charac factor 3.3000 normal factor 12.7024 weight factor 0.0000 none
0.0013 kg N03 equivs 0.1320 0.0107 0.0013 kg N03 equivs 0.0013 lower 90 % ci 0.0013 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
0.0154 kg NH3-N / ha 0.6674 charac factor 0.3550 normal factor 0.0178 weight factor 0.0000 none
0.0015 kg SO2 equivs 0.1453 0.0195 0.1454 kg SO2 equivs 0.1451 lower 90 % ci 0.1457 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
0.0034 kg N2O-N / ha 73.0100 charac factor 0.2450 normal factor 0.0392 weight factor 0.0000 none
0.1604 kg CO2 equivs 17.0300 1.8375 17.0414 kg CO2 equivs 17.0114 lower 90% ci 17.0715 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
0.0084 kg NH3-N / ha 0.8918 charac factor 0.2450 normal factor 0.0123 weight factor 0.0000 none
0.0015 kg N03 equivs 0.1512 0.0238 0.1513 kg N03 equivs 0.1510 lower 90% ci 0.1517 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
1,318.7723 env performance 1,301.7490 mean 130.1815 sd 10000
1,302.4041 mean 1,300.2832 lower 90% ci 1,304.5251 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
14.6300 kg N / ha applied 13.2000 kg N / ha total 3.3000 kg N03-N / ha 12.2100 kg N / ha applied 0.0000 kg N03-N / ha
0.0329 kg N03-N / ha 2.2000 4.4000 1.4876 kg N03-N / ha 1.4706 lower 90 % ci 1.5046 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
14.6300 kg N / ha applied 13.2000 kg N / ha total 0.7095 kg NH3-N / ha 12.2100 kg N / ha applied 0.0000 kg N03-N / ha
0.0071 kg N03-N / ha 0.7040 0.0605 0.7044 kg N03-N / ha 0.7034 lower 90 % ci 0.7054 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
14.6300 kg N / ha applied 13.2000 kg N / ha total 0.1760 kg N2O-N / ha 12.2100 kg N / ha applied 0.0000 none
0.0018 kg N2O-N / ha 0.1760 0.0154 0.1761 kg N2O-N / ha 0.1758 lower 90 % ci 0.1764 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
0.0015 kg N2O-N / ha 32.7800 charac factor 0.1100 normal factor 0.0190 weight factor 0.0000 none
0.0818 kg CO2 equivs 8.1840 0.8250 0.0818 kg CO2 equivs 0.0818 lower 90 % ci 0.0818 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
0.0330 kg NO3-N / ha 0.0770 charac factor 0.1100 normal factor 0.0055 weight factor 0.0000 none
0.0012 kg SO2 equivs 0.1210 0.0105 0.1211 kg SO2 equivs 0.1209 lower 90 % ci 0.1212 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
0.0330 kg NO3-N / ha 0.1485 charac factor 0.1100 normal factor 0.0055 weight factor 0.0000 none
0.0022 kg N03 equivs 0.2310 0.0193 0.2311 kg N03 equivs 0.2308 lower 90 % ci 0.2314 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
12.7024 kg NH3-N / ha 15.7145 charac factor 3.3000 normal factor 12.7024 weight factor 0.0000 none
0.0013 kg N03 equivs 0.1320 0.0107 0.0013 kg N03 equivs 0.0013 lower 90 % ci 0.0013 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
0.0070 kg NH3-N / ha 0.2068 charac factor 0.1100 normal factor 0.0055 weight factor 0.0000 none
0.0007 kg SO2 equivs 0.0660 0.0061 0.0660 kg SO2 equivs 0.0659 lower 90 % ci 0.0661 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
Components
Component
2012 Conventional Orange Crop Component
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
0.1003 environmental performance 1.7490 mean 0.1815 sd 10000
1.7501 mean 1.7472 lower 90 % ci 1.7531 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
14.6300 kg N / ha applied 13.2000 kg N / ha total 3.3000 kg N03-N / ha 12.2100 kg N / ha applied 0.0000 kg N03-N / ha
0.0329 kg N03-N / ha 2.2000 4.4000 1.4876 kg N03-N / ha 1.4706 lower 90 % ci 1.5046 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
14.6300 kg N / ha applied 13.2000 kg N / ha total 0.7095 kg NH3-N / ha 12.2100 kg N / ha applied 0.0000 kg N03-N / ha
0.0071 kg N03-N / ha 0.7040 0.0605 0.7044 kg N03-N / ha 0.7034 lower 90 % ci 0.7054 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
14.6300 kg N / ha applied 13.2000 kg N / ha total 0.1760 kg N2O-N / ha 12.2100 kg N / ha applied 0.0000 none
0.0018 kg N2O-N / ha 0.1760 0.0154 0.1761 kg N2O-N / ha 0.1758 lower 90 % ci 0.1764 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
0.0015 kg N2O-N / ha 32.7800 charac factor 0.1100 normal factor 0.0190 weight factor 0.0000 none
0.0818 kg CO2 equivs 8.1840 0.8250 0.0818 kg CO2 equivs 0.0818 lower 90 % ci 0.0818 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
0.0330 kg NO3-N / ha 0.0770 charac factor 0.1100 normal factor 0.0055 weight factor 0.0000 none
0.0012 kg SO2 equivs 0.1210 0.0105 0.1211 kg SO2 equivs 0.1209 lower 90 % ci 0.1212 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
0.0330 kg NO3-N / ha 0.1485 charac factor 0.1100 normal factor 0.0055 weight factor 0.0000 none
0.0022 kg N03 equivs 0.2310 0.0193 0.2311 kg N03 equivs 0.2308 lower 90 % ci 0.2314 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
12.7024 kg NH3-N / ha 15.7145 charac factor 3.3000 normal factor 12.7024 weight factor 0.0000 none
0.0013 kg N03 equivs 0.1320 0.0107 0.0013 kg N03 equivs 0.0013 lower 90 % ci 0.0013 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
0.0070 kg NH3-N / ha 0.2068 charac factor 0.1100 normal factor 0.0055 weight factor 0.0000 none
0.0007 kg SO2 equivs 0.0660 0.0061 0.0660 kg SO2 equivs 0.0659 lower 90 % ci 0.0661 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
0.1003 environmental performance 1.7490 mean 0.1815 sd 10000
1.7501 mean 1.7472 lower 90 % ci 1.7531 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
14.6300 kg N / ha applied 13.2000 kg N / ha total 3.3000 kg N03-N / ha 12.2100 kg N / ha applied 0.0000 kg N03-N / ha
0.0329 kg N03-N / ha 2.2000 4.4000 1.4876 kg N03-N / ha 1.4706 lower 90 % ci 1.5046 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
14.6300 kg N / ha applied 13.2000 kg N / ha total 0.7095 kg NH3-N / ha 12.2100 kg N / ha applied 0.0000 kg N03-N / ha
0.0071 kg N03-N / ha 0.7040 0.0605 0.7044 kg N03-N / ha 0.7034 lower 90 % ci 0.7054 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
14.6300 kg N / ha applied 13.2000 kg N / ha total 0.1760 kg N2O-N / ha 12.2100 kg N / ha applied 0.0000 none
0.0018 kg N2O-N / ha 0.1760 0.0154 0.1761 kg N2O-N / ha 0.1758 lower 90 % ci 0.1764 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
0.0015 kg N2O-N / ha 32.7800 charac factor 0.1100 normal factor 0.0190 weight factor 0.0000 none
0.0818 kg CO2 equivs 8.1840 0.8250 0.0818 kg CO2 equivs 0.0818 lower 90 % ci 0.0818 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
0.0330 kg NO3-N / ha 0.0770 charac factor 0.1100 normal factor 0.0055 weight factor 0.0000 none
0.0012 kg SO2 equivs 0.1210 0.0105 0.1211 kg SO2 equivs 0.1209 lower 90 % ci 0.1212 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
0.0330 kg NO3-N / ha 0.1485 charac factor 0.1100 normal factor 0.0055 weight factor 0.0000 none
0.0022 kg N03 equivs 0.2310 0.0193 0.2311 kg N03 equivs 0.2308 lower 90 % ci 0.2314 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
12.7024 kg NH3-N / ha 15.7145 charac factor 3.3000 normal factor 12.7024 weight factor 0.0000 none
0.0013 kg N03 equivs 0.1320 0.0107 0.0013 kg N03 equivs 0.0013 lower 90 % ci 0.0013 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
0.0070 kg NH3-N / ha 0.2068 charac factor 0.1100 normal factor 0.0055 weight factor 0.0000 none
0.0007 kg SO2 equivs 0.0660 0.0061 0.0660 kg SO2 equivs 0.0659 lower 90 % ci 0.0661 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
1,260.7165 env performance 1,255.7400 mean 133.1800 sd 10000
1,256.4118 mean 1,254.2429 lower 90% ci 1,258.5808 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
14.6400 kg N / ha applied 14.4000 kg N / ha total 3.6000 kg N03-N / ha 13.3200 kg N / ha applied 0.0000 kg N03-N / ha
0.0330 kg N03-N / ha 3.3000 4.8000 1.6211 kg N03-N / ha 1.6026 lower 90% ci 1.6397 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
14.6400 kg N / ha applied 14.4000 kg N / ha total 0.7740 kg NH3-N / ha 13.3200 kg N / ha applied 0.0000 kg N03-N / ha
0.0071 kg N03-N / ha 0.7080 0.0660 0.7084 kg N03-N / ha 0.7073 lower 90% ci 0.7095 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
14.6400 kg N / ha applied 14.4000 kg N / ha total 0.1920 kg N2O-N / ha 13.3200 kg N / ha applied 0.0000 none
0.0018 kg N2O-N / ha 0.1764 0.0168 0.1765 kg N2O-N / ha 0.1762 lower 90% ci 0.1768 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
0.0017 kg N2O-N / ha 35.7600 charac factor 0.1200 normal factor 0.0192 weight factor 0.0000 none
0.0830 kg CO2 equivs 8.2800 0.9000 8.2856 kg CO2 equivs 8.2709 lower 90% ci 8.3003 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
0.0330 kg NO3-N / ha 0.0840 charac factor 0.1200 normal factor 0.0060 weight factor 0.0000 none
0.0012 kg SO2 equivs 0.1164 0.0114 0.1165 kg SO2 equivs 0.1163 lower 90% ci 0.1167 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
0.0330 kg NO3-N / ha 0.1620 charac factor 0.1200 normal factor 0.0060 weight factor 0.0000 none
0.0022 kg N03 equivs 0.2232 0.0210 0.2233 kg N03 equivs 0.2230 lower 90% ci 0.2237 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
0.0017 kg NH3-N / ha 0.4368 charac factor 0.1200 normal factor 0.0060 weight factor 0.0000 none
0.0003 kg N03 equivs 0.0312 0.0116 0.0313 kg N03 equivs 0.0311 lower 90% ci 0.0315 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
0.0017 kg NH3-N / ha 0.2256 charac factor 0.1200 normal factor 0.0060 weight factor 0.0000 none
0.0002 kg SO2 equivs 0.0168 0.0066 0.0168 kg SO2 equivs 0.0167 lower 90% ci 0.0169 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
Components
Component
2013 Conventional Orange Crop Component
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
1.7347 environmental performance 1.7400 mean 0.1800 sd 10000
1.7411 mean 1.7382 lower 90% ci 1.7441 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
14.6400 kg N / ha applied 14.4000 kg N / ha total 3.6000 kg N03-N / ha 13.3200 kg N / ha applied 0.0000 kg N03-N / ha
0.0330 kg N03-N / ha 3.3000 4.8000 1.6211 kg N03-N / ha 1.6026 lower 90% ci 1.6397 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
14.6400 kg N / ha applied 14.4000 kg N / ha total 0.7740 kg NH3-N / ha 13.3200 kg N / ha applied 0.0000 kg N03-N / ha
0.0071 kg N03-N / ha 0.7080 0.0660 0.7084 kg N03-N / ha 0.7073 lower 90% ci 0.7095 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
14.6400 kg N / ha applied 14.4000 kg N / ha total 0.1920 kg N2O-N / ha 13.3200 kg N / ha applied 0.0000 none
0.0018 kg N2O-N / ha 0.1764 0.0168 0.1765 kg N2O-N / ha 0.1762 lower 90% ci 0.1768 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
0.0017 kg N2O-N / ha 35.7600 charac factor 0.1200 normal factor 0.0192 weight factor 0.0000 none
0.0830 kg CO2 equivs 8.2800 0.9000 8.2856 kg CO2 equivs 8.2709 lower 90% ci 8.3003 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
0.0330 kg NO3-N / ha 0.0840 charac factor 0.1200 normal factor 0.0060 weight factor 0.0000 none
0.0012 kg SO2 equivs 0.1164 0.0114 0.1165 kg SO2 equivs 0.1163 lower 90% ci 0.1167 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
0.0330 kg NO3-N / ha 0.1620 charac factor 0.1200 normal factor 0.0060 weight factor 0.0000 none
0.0022 kg N03 equivs 0.2232 0.0210 0.2233 kg N03 equivs 0.2230 lower 90% ci 0.2237 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
0.0017 kg NH3-N / ha 0.4368 charac factor 0.1200 normal factor 0.0060 weight factor 0.0000 none
0.0003 kg N03 equivs 0.0312 0.0116 0.0313 kg N03 equivs 0.0311 lower 90% ci 0.0315 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
0.0017 kg NH3-N / ha 0.2256 charac factor 0.1200 normal factor 0.0060 weight factor 0.0000 none
0.0002 kg SO2 equivs 0.0168 0.0066 0.0168 kg SO2 equivs 0.0167 lower 90% ci 0.0169 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
1.7347 environmental performance 1.7400 mean 0.1800 sd 10000
1.7411 mean 1.7382 lower 90% ci 1.7441 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
14.6400 kg N / ha applied 14.4000 kg N / ha total 3.6000 kg N03-N / ha 13.3200 kg N / ha applied 0.0000 kg N03-N / ha
0.0330 kg N03-N / ha 3.3000 4.8000 1.6211 kg N03-N / ha 1.6026 lower 90% ci 1.6397 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
14.6400 kg N / ha applied 14.4000 kg N / ha total 0.7740 kg NH3-N / ha 13.3200 kg N / ha applied 0.0000 kg N03-N / ha
0.0071 kg N03-N / ha 0.7080 0.0660 0.7084 kg N03-N / ha 0.7073 lower 90% ci 0.7095 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
14.6400 kg N / ha applied 14.4000 kg N / ha total 0.1920 kg N2O-N / ha 13.3200 kg N / ha applied 0.0000 none
0.0018 kg N2O-N / ha 0.1764 0.0168 0.1765 kg N2O-N / ha 0.1762 lower 90% ci 0.1768 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
0.0017 kg N2O-N / ha 35.7600 charac factor 0.1200 normal factor 0.0192 weight factor 0.0000 none
0.0830 kg CO2 equivs 8.2800 0.9000 8.2856 kg CO2 equivs 8.2709 lower 90% ci 8.3003 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
0.0330 kg NO3-N / ha 0.0840 charac factor 0.1200 normal factor 0.0060 weight factor 0.0000 none
0.0012 kg SO2 equivs 0.1164 0.0114 0.1165 kg SO2 equivs 0.1163 lower 90% ci 0.1167 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
0.0330 kg NO3-N / ha 0.1620 charac factor 0.1200 normal factor 0.0060 weight factor 0.0000 none
0.0022 kg N03 equivs 0.2232 0.0210 0.2233 kg N03 equivs 0.2230 lower 90% ci 0.2237 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
0.0017 kg NH3-N / ha 0.4368 charac factor 0.1200 normal factor 0.0060 weight factor 0.0000 none
0.0003 kg N03 equivs 0.0312 0.0116 0.0313 kg N03 equivs 0.0311 lower 90% ci 0.0315 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
0.0017 kg NH3-N / ha 0.2256 charac factor 0.1200 normal factor 0.0060 weight factor 0.0000 none
0.0002 kg SO2 equivs 0.0168 0.0066 0.0168 kg SO2 equivs 0.0167 lower 90% ci 0.0169 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
12,584.3027 env performance 12,376.8500 mean 1,350.1875 sd 10000
12,383.6462 mean 12,361.6606 lower 90% ci 12,405.6317 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
13.8750 kg N / ha applied 15.0000 kg N / ha total 3.7500 kg N03-N / ha 13.8750 kg N / ha applied 0.0000 kg N03-N / ha
0.0313 kg N03-N / ha 2.5000 5.0000 1.6869 kg N03-N / ha 1.6676 lower 90% ci 1.7062 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
13.8750 kg N / ha applied 15.0000 kg N / ha total 0.8063 kg NH3-N / ha 13.8750 kg N / ha applied 0.0000 kg N03-N / ha
0.0067 kg N03-N / ha 0.6750 0.0688 0.6754 kg N03-N / ha 0.6743 lower 90% ci 0.6766 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
13.8750 kg N / ha applied 15.0000 kg N / ha total 0.2000 kg N2O-N / ha 13.8750 kg N / ha applied 0.0000 none
0.0017 kg N2O-N / ha 0.1688 0.0175 0.1689 kg N2O-N / ha 0.1686 lower 90% ci 0.1692 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
0.0016 kg N2O-N / ha 37.2500 charac factor 0.1250 normal factor 0.0200 weight factor 0.0000 none
0.0775 kg CO2 equivs 8.7500 0.9375 8.7558 kg CO2 equivs 8.7405 lower 90% ci 8.7712 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
0.0313 0.0875 charac factor 0.1250 normal factor 0.0063 weight factor 0.0000 none
0.0011 kg SO2 equivs 0.1125 0.0119 0.1126 kg SO2 equivs 0.1124 lower 90% ci 0.1128 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
0.0313 kg NO3-N / ha 0.1688 charac factor 0.1250 normal factor 0.0063 weight factor 0.0000 none
0.0021 kg N03 equivs 0.2125 0.0219 0.2126 kg N03 equivs 0.2123 lower 90% ci 0.2130 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
0.0066 kg NH3-N / ha 0.4550 charac factor 0.1250 normal factor 0.0063 weight factor 0.0000 none
0.0012 kg N03 equivs 0.1200 0.0121 0.1201 kg N03 equivs 0.1199 lower 90% ci 0.1203 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
0.0066 kg NH3-N / ha 0.2350 charac factor 0.1250 normal factor 0.0063 weight factor 0.0000 none
0.0006 kg SO2 equivs 0.0625 0.0069 0.0625 kg SO2 equivs 0.0624 lower 90% ci 0.0627 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
Components
Component
2014 Conventional Orange Crop Component
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
1.8527 environmental performance 1.8500 mean 0.1875 sd 10000
1.8512 mean 1.8481 lower 90% ci 1.8542 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
13.8750 kg N / ha applied 15.0000 kg N / ha total 3.7500 kg N03-N / ha 13.8750 kg N / ha applied 0.0000 kg N03-N / ha
0.0313 kg N03-N / ha 2.5000 5.0000 1.6869 kg N03-N / ha 1.6676 lower 90% ci 1.7062 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
13.8750 kg N / ha applied 15.0000 kg N / ha total 0.8063 kg NH3-N / ha 13.8750 kg N / ha applied 0.0000 kg N03-N / ha
0.0067 kg N03-N / ha 0.6750 0.0688 0.6754 kg N03-N / ha 0.6743 lower 90% ci 0.6766 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
13.8750 kg N / ha applied 15.0000 kg N / ha total 0.2000 kg N2O-N / ha 13.8750 kg N / ha applied 0.0000 none
0.0017 kg N2O-N / ha 0.1688 0.0175 0.1689 kg N2O-N / ha 0.1686 lower 90% ci 0.1692 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
0.0016 kg N2O-N / ha 37.2500 charac factor 0.1250 normal factor 0.0200 weight factor 0.0000 none
0.0775 kg CO2 equivs 8.7500 0.9375 8.7558 kg CO2 equivs 8.7405 lower 90% ci 8.7712 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
0.0313 0.0875 charac factor 0.1250 normal factor 0.0063 weight factor 0.0000 none
0.0011 kg SO2 equivs 0.1125 0.0119 0.1126 kg SO2 equivs 0.1124 lower 90% ci 0.1128 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
0.0313 kg NO3-N / ha 0.1688 charac factor 0.1250 normal factor 0.0063 weight factor 0.0000 none
0.0021 kg N03 equivs 0.2125 0.0219 0.2126 kg N03 equivs 0.2123 lower 90% ci 0.2130 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
0.0066 kg NH3-N / ha 0.4550 charac factor 0.1250 normal factor 0.0063 weight factor 0.0000 none
0.0012 kg N03 equivs 0.1200 0.0121 0.1201 kg N03 equivs 0.1199 lower 90% ci 0.1203 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
0.0066 kg NH3-N / ha 0.2350 charac factor 0.1250 normal factor 0.0063 weight factor 0.0000 none
0.0006 kg SO2 equivs 0.0625 0.0069 0.0625 kg SO2 equivs 0.0624 lower 90% ci 0.0627 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
1.8527 environmental performance 1.8500 mean 0.1875 sd 10000
1.8512 mean 1.8481 lower 90% ci 1.8542 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
13.8750 kg N / ha applied 15.0000 kg N / ha total 3.7500 kg N03-N / ha 13.8750 kg N / ha applied 0.0000 kg N03-N / ha
0.0313 kg N03-N / ha 2.5000 5.0000 1.6869 kg N03-N / ha 1.6676 lower 90% ci 1.7062 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
13.8750 kg N / ha applied 15.0000 kg N / ha total 0.8063 kg NH3-N / ha 13.8750 kg N / ha applied 0.0000 kg N03-N / ha
0.0067 kg N03-N / ha 0.6750 0.0688 0.6754 kg N03-N / ha 0.6743 lower 90% ci 0.6766 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
13.8750 kg N / ha applied 15.0000 kg N / ha total 0.2000 kg N2O-N / ha 13.8750 kg N / ha applied 0.0000 none
0.0017 kg N2O-N / ha 0.1688 0.0175 0.1689 kg N2O-N / ha 0.1686 lower 90% ci 0.1692 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
0.0016 kg N2O-N / ha 37.2500 charac factor 0.1250 normal factor 0.0200 weight factor 0.0000 none
0.0775 kg CO2 equivs 8.7500 0.9375 8.7558 kg CO2 equivs 8.7405 lower 90% ci 8.7712 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
0.0313 0.0875 charac factor 0.1250 normal factor 0.0063 weight factor 0.0000 none
0.0011 kg SO2 equivs 0.1125 0.0119 0.1126 kg SO2 equivs 0.1124 lower 90% ci 0.1128 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
0.0313 kg NO3-N / ha 0.1688 charac factor 0.1250 normal factor 0.0063 weight factor 0.0000 none
0.0021 kg N03 equivs 0.2125 0.0219 0.2126 kg N03 equivs 0.2123 lower 90% ci 0.2130 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
0.0066 kg NH3-N / ha 0.4550 charac factor 0.1250 normal factor 0.0063 weight factor 0.0000 none
0.0012 kg N03 equivs 0.1200 0.0121 0.1201 kg N03 equivs 0.1199 lower 90% ci 0.1203 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
0.0066 kg NH3-N / ha 0.2350 charac factor 0.1250 normal factor 0.0063 weight factor 0.0000 none
0.0006 kg SO2 equivs 0.0625 0.0069 0.0625 kg SO2 equivs 0.0624 lower 90% ci 0.0627 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
Dataset: Conventional Orange Budget IRI This conventional orange production includes life cycle analysis.

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