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LCA Organic vs Conventional Orange Crops

Resource Stock Operating or Capital Budget Analyzer Views

Totals 210a

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

Calculation View Description
v216A

Version: 1.9.0

Feedback About carbon/budgetgroup/LCA Organic vs Conventional Orange Crops/2140761977/budgetsbtotal1

Step 1 of 3. Make Selections


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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
LCA Organic vs Conventional Orange Crops
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
Dataset: LCA Organic vs Conventional Orange Crops IRI These operating budgets use life cycle analysis to compare conventional and organic orange production

Search IRIs:
https://www.devtreks.org/greentreks/linkedviews/carbon/budgetgroup/LCA Organic vs Conventional Orange Crops/2140761977/budgetsbtotal1









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