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2014 Fertilizer, Orange, Conventional

Resource Stock Input Analyzer View

Emissions and Env Performance Totals

Introduction
This tool generates a variety of basic resource stock statistics for inputs.

Calculation View Description
v214a

Version: 1.9.0

Feedback About carbon/input/2014 Fertilizer, Orange, Conventional/2147397531/inputsbtotal1

Step 1 of 3. Make Selections


Display Full View:

Step 2 of 3. Analyze

Relations

Use In Childs?
Overwrite Childs?

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: Choose the one option offered in this version of the analyzer.
  • 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 indicators to analyze. Run a Totals Analysis to find out the number associated with indicator.

Step 2

  • Step 2. Use Same Calculator Pack In Descendants?: True to insert or update this same calculator in children.
  • Step 2. Overwrite Descendants?: True to insert or update all of the attributes of this same calculator in all children. False only updates children attributes that are controlled by the developer of this calculator (i.e. version, stylehsheet name, relatedcalculatorstype ...)
  • 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: When the Use Same Calculator Pack in Descendant is true, uses this value to determine which descendant calculator to update. Inserts a new descendant when no descendant has this same name. Updates the descendant that has this same name.
  • Step 2. Alternative: Used for comparisons.
  • Step 2. Target Type: Used for progress analysis and to set benchmarks and actuals.
  • 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 stock calculator after inserting, deleting, or updating, this linked view (that keeps the stock calculator's linked views synchronized with these linkedviews).


Current view of document
2014 Fertilizer, Orange, Conventional
Input Group
LCA Nutrients, Organic Crops
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
30.1893 environmental performance 45.2000 mean 4.6500 sd 10000
45.2289 mean 45.1529 lower 90% ci 45.3049 upper 90% ci normal algorithm1 subalgorithm1 3.0
(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 (3.0) NO3 01/01/2014 CO2A, NO2A, SO2 algorithm1 triangle 3.0 equalto subalgorithm1
366.0000 kg N / ha applied 360.0000 kg N / ha total 90.0000 kg N03-N / ha 333.0000 kg N / ha applied 0.0000 kg N03-N / ha
0.8243 kg N03-N / ha 67.5000 120.0000 40.5282 kg N03-N / ha 40.0647 lower 90 % ci 40.9917 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
366.0000 kg N / ha applied 360.0000 kg N / ha total 19.3500 kg NH3-N / ha 333.0000 kg N / ha applied 0.0000 kg N03-N / ha
0.1773 kg N03-N / ha 17.7000 1.6500 17.7102 kg N03-N / ha 17.6832 lower 90 % ci 17.7372 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
366.0000 kg N / ha applied 360.0000 kg N / ha total 4.8000 kg N2O-N / ha 333.0000 kg N / ha applied 0.0000 none
0.0440 kg N2O-N / ha 4.4200 0.4200 4.4227 kg N2O-N / ha 4.4158 lower 90 % ci 4.4296 upper 90 % ci
Nitrous Oxide emissions derived from fertilizer. Measurement for field has been adjusted to NH4 emission per kg fertilizer applied, as follows: .0.013 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 1.6 kg N2O) / 111 kg N
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4
Global Warming (1.0) CO2 01/01/2014 N2O algorithm1 normal none equalto subalgorithm1
0.0140 kg N2O-N / ha 298.0000 charac factor 1.0000 normal factor 0.1724 weight factor 0.0000 none
0.7438 kg CO2 equivs 74.4000 7.5000 0.7438 kg CO2 equivs 0.7438 lower 90 % ci 0.7438 upper 90 % ci
This indicator measures the contribution of the nitrous oxide emissions from this input on the environmental performance measure of global warming.
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4
Acidification (3.0) SO2A 01/01/2014 NO3 algorithm1 normal none equalto subalgorithm1
0.8250 kg NO3-N / ha 2.1000 charac factor 3.0000 normal factor 0.1500 weight factor 0.0000 none
0.0288 kg SO2 equivs 2.9700 0.2850 2.9718 kg SO2 equivs 2.9670 lower 90 % ci 2.9766 upper 90 % ci
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of eutrophication.
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4
Eutrophication (3.0) NO3A 01/01/2014 NO3 algorithm1 normal none equalto subalgorithm1
0.8250 kg NO3-N / ha 4.0500 charac factor 3.0000 normal factor 0.1500 weight factor 0.0000 none
0.0558 kg N03 equivs 5.6600 0.5250 5.6633 kg N03 equivs 5.6546 lower 90 % ci 5.6720 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
115.4762 kg NH3-N / ha 142.8593 charac factor 30.0000 normal factor 115.4762 weight factor 0.0000 none
0.0116 kg N03 equivs 1.2000 0.0970 0.0116 kg N03 equivs 0.0116 lower 90 % ci 0.0116 upper 90 % ci
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of eutrophication.
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4
Acidification (3.0) SO2B 01/01/2014 NH3 algorithm1 normal none none subalgorithm1
0.1315 kg NH3-N / ha 5.6400 charac factor 3.0000 normal factor 0.1500 weight factor 0.0000 none
0.0124 kg SO2 equivs 1.2400 0.1650 1.2409 kg SO2 equivs 1.2382 lower 90 % ci 1.2436 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
Global Warming (2.0) CO2A 01/01/2014 N2O algorithm1 normal none equalto subalgorithm1
0.0275 kg N2O-N / ha 596.0000 charac factor 2.0000 normal factor 0.3200 weight factor 0.0000 none
1.3112 kg CO2 equivs 139.0000 15.0000 139.0934 kg CO2 equivs 138.8482 lower 90% ci 139.3386 upper 90% ci
This indicator measures the contribution of the nitrous oxide emissions from this input on the environmental performance measure of global warming.
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4
Eutrophication (2.0) NO3B 01/01/2014 NH3 algorithm1 normal none none subalgorithm1
0.0675 kg NH3-N / ha 7.2800 charac factor 2.0000 normal factor 0.1000 weight factor 0.0000 none
0.0122 kg N03 equivs 1.2200 0.1940 1.2212 kg N03 equivs 1.2180 lower 90% ci 1.2244 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
Input Series: 2012 Fertilizer, Orange, Conventional
Score Score Unit Score D1 Amount Score D1 Unit Score D2 Amount Score D2 Unit Iterations Confid Int Random Seed Base IO
Score Most Amount Score Most Unit Score Low Amount Score Low Unit Score High Amount Score High Unit Distribution Type Math Type Math Sub Type Observations
0.9115 environmental performance 15.9000 mean 1.6500 sd 10000
15.9103 mean 15.8833 lower 90 % ci 15.9373 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
133.0000 kg N / ha applied 120.0000 kg N / ha total 30.0000 kg N03-N / ha 111.0000 kg N / ha applied 0.0000 kg N03-N / ha
0.2995 kg N03-N / ha 20.0000 40.0000 13.5238 kg N03-N / ha 13.3694 lower 90 % ci 13.6782 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
133.0000 kg N / ha applied 120.0000 kg N / ha total 6.4500 kg NH3-N / ha 111.0000 kg N / ha applied 0.0000 kg N03-N / ha
0.0644 kg N03-N / ha 6.4000 0.5500 6.4034 kg N03-N / ha 6.3944 lower 90 % ci 6.4124 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
133.0000 kg N / ha applied 120.0000 kg N / ha total 1.6000 kg N2O-N / ha 111.0000 kg N / ha applied 0.0000 none
0.0160 kg N2O-N / ha 1.6000 0.1400 1.6009 kg N2O-N / ha 1.5986 lower 90 % ci 1.6032 upper 90 % ci
Nitrous Oxide emissions derived from fertilizer. Measurement for field has been adjusted to NH4 emission per kg fertilizer applied, as follows: .0.013 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 1.6 kg N2O) / 111 kg N
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4
Global Warming (1.0) CO2 01/01/2014 N2O algorithm1 normal none equalto subalgorithm1
0.0140 kg N2O-N / ha 298.0000 charac factor 1.0000 normal factor 0.1724 weight factor 0.0000 none
0.7438 kg CO2 equivs 74.4000 7.5000 0.7438 kg CO2 equivs 0.7438 lower 90 % ci 0.7438 upper 90 % ci
This indicator measures the contribution of the nitrous oxide emissions from this input on the environmental performance measure of global warming.
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4
Acidification (1.0) SO2A 01/01/2014 NO3 algorithm1 normal none equalto subalgorithm1
0.3000 kg NO3-N / ha 0.7000 charac factor 1.0000 normal factor 0.0500 weight factor 0.0000 none
0.0105 kg SO2 equivs 1.1000 0.0950 1.1006 kg SO2 equivs 1.0990 lower 90 % ci 1.1022 upper 90 % ci
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of eutrophication.
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4
Eutrophication (1.0) NO3A 01/01/2014 NO3 algorithm1 normal none equalto subalgorithm1
0.3000 kg NO3-N / ha 1.3500 charac factor 1.0000 normal factor 0.0500 weight factor 0.0000 none
0.0203 kg N03 equivs 2.1000 0.1750 2.1011 kg N03 equivs 2.0982 lower 90 % ci 2.1040 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
115.4762 kg NH3-N / ha 142.8593 charac factor 30.0000 normal factor 115.4762 weight factor 0.0000 none
0.0116 kg N03 equivs 1.2000 0.0970 0.0116 kg N03 equivs 0.0116 lower 90 % ci 0.0116 upper 90 % ci
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of eutrophication.
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4
Acidification (1.0) SO2B 01/01/2014 NH3 algorithm1 normal none none subalgorithm1
0.0640 kg NH3-N / ha 1.8800 charac factor 1.0000 normal factor 0.0500 weight factor 0.0000 none
0.0060 kg SO2 equivs 0.6000 0.0550 0.6003 kg SO2 equivs 0.5994 lower 90 % ci 0.6012 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 Series: 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
14.4559 environmental performance 14.5000 mean 1.5000 sd 10000
14.5093 mean 14.4848 lower 90% ci 14.5338 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
122.0000 kg N / ha applied 120.0000 kg N / ha total 30.0000 kg N03-N / ha 111.0000 kg N / ha applied 0.0000 kg N03-N / ha
0.2748 kg N03-N / ha 27.5000 40.0000 13.5094 kg N03-N / ha 13.3549 lower 90% ci 13.6639 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
122.0000 kg N / ha applied 120.0000 kg N / ha total 6.4500 kg NH3-N / ha 111.0000 kg N / ha applied 0.0000 kg N03-N / ha
0.0591 kg N03-N / ha 5.9000 0.5500 5.9034 kg N03-N / ha 5.8944 lower 90% ci 5.9124 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
122.0000 kg N / ha applied 120.0000 kg N / ha total 1.6000 kg N2O-N / ha 111.0000 kg N / ha applied 0.0000 none
0.0147 kg N2O-N / ha 1.4700 0.1400 1.4709 kg N2O-N / ha 1.4686 lower 90% ci 1.4732 upper 90% ci
Nitrous Oxide emissions derived from fertilizer. Measurement for field has been adjusted to NH4 emission per kg fertilizer applied, as follows: .0.013 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 1.6 kg N2O) / 111 kg N
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4
Global Warming (1.0) CO2A 01/01/2014 N2O algorithm1 normal none equalto subalgorithm1
0.0145 kg N2O-N / ha 298.0000 charac factor 1.0000 normal factor 0.1600 weight factor 0.0000 none
0.6914 kg CO2 equivs 69.0000 7.5000 69.0467 kg CO2 equivs 68.9241 lower 90% ci 69.1693 upper 90% ci
This indicator measures the contribution of the nitrous oxide emissions from this input on the environmental performance measure of global warming.
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4
Acidification (1.0) SO2A 01/01/2014 NO3 algorithm1 normal none equalto subalgorithm1
0.2750 kg NO3-N / ha 0.7000 charac factor 1.0000 normal factor 0.0500 weight factor 0.0000 none
0.0096 kg SO2 equivs 0.9700 0.0950 0.9706 kg SO2 equivs 0.9690 lower 90% ci 0.9722 upper 90% ci
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of eutrophication.
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4
Eutrophication (1.0) NO3A 01/01/2014 NO3 algorithm1 normal none equalto subalgorithm1
0.2750 kg NO3-N / ha 1.3500 charac factor 1.0000 normal factor 0.0500 weight factor 0.0000 none
0.0186 kg N03 equivs 1.8600 0.1750 1.8611 kg N03 equivs 1.8582 lower 90% ci 1.8640 upper 90% ci
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of acidification.
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4
Eutrophication (1.0) NO3B 01/01/2014 NH3 algorithm1 normal none none subalgorithm1
0.0145 kg NH3-N / ha 3.6400 charac factor 1.0000 normal factor 0.0500 weight factor 0.0000 none
0.0026 kg N03 equivs 0.2600 0.0970 0.2606 kg N03 equivs 0.2590 lower 90% ci 0.2622 upper 90% ci
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of eutrophication.
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4
Acidification (1.0) SO2B 01/01/2014 NH3 algorithm1 normal none none subalgorithm1
0.0145 kg NH3-N / ha 1.8800 charac factor 1.0000 normal factor 0.0500 weight factor 0.0000 none
0.0014 kg SO2 equivs 0.1400 0.0550 0.1403 kg SO2 equivs 0.1394 lower 90% ci 0.1412 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 Series: 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
14.8219 environmental performance 14.8000 mean 1.5000 sd 10000
14.8093 mean 14.7848 lower 90% ci 14.8338 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
111.0000 kg N / ha applied 120.0000 kg N / ha total 30.0000 kg N03-N / ha 111.0000 kg N / ha applied 0.0000 kg N03-N / ha
0.2500 kg N03-N / ha 20.0000 40.0000 13.4950 kg N03-N / ha 13.3404 lower 90% ci 13.6496 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
111.0000 kg N / ha applied 120.0000 kg N / ha total 6.4500 kg NH3-N / ha 111.0000 kg N / ha applied 0.0000 kg N03-N / ha
0.0538 kg N03-N / ha 5.4000 0.5500 5.4034 kg N03-N / ha 5.3944 lower 90% ci 5.4124 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
111.0000 kg N / ha applied 120.0000 kg N / ha total 1.6000 kg N2O-N / ha 111.0000 kg N / ha applied 0.0000 none
0.0133 kg N2O-N / ha 1.3500 0.1400 1.3509 kg N2O-N / ha 1.3486 lower 90% ci 1.3532 upper 90% ci
Nitrous Oxide emissions derived from fertilizer. Measurement for field has been adjusted to NH4 emission per kg fertilizer applied, as follows: .0.013 kg NH3-N / ha : ((111 kg N per ha applied fertilizer / 120 kg N per ha total) 1.6 kg N2O) / 111 kg N
((I3.Q1/ I3.Q2) * I3.Q3) / I3.Q4
Global Warming (1.0) CO2A 01/01/2014 N2O algorithm1 normal none equalto subalgorithm1
0.0130 kg N2O-N / ha 298.0000 charac factor 1.0000 normal factor 0.1600 weight factor 0.0000 none
0.6198 kg CO2 equivs 70.0000 7.5000 70.0467 kg CO2 equivs 69.9241 lower 90% ci 70.1693 upper 90% ci
This indicator measures the contribution of the nitrous oxide emissions from this input on the environmental performance measure of global warming.
((I4.Q1*I4.Q2)/I4.Q3)*I4.Q4
Acidification (1.0) SO2A 01/01/2014 NO3 algorithm1 normal none equalto subalgorithm1
0.2500 0.7000 charac factor 1.0000 normal factor 0.0500 weight factor 0.0000 none
0.0087 kg SO2 equivs 0.9000 0.0950 0.9006 kg SO2 equivs 0.8990 lower 90% ci 0.9022 upper 90% ci
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of eutrophication.
((I5.Q1*I5.Q2)/I5.Q3)*I5.Q4
Eutrophication (1.0) NO3A 01/01/2014 NO3 algorithm1 normal none equalto subalgorithm1
0.2500 kg NO3-N / ha 1.3500 charac factor 1.0000 normal factor 0.0500 weight factor 0.0000 none
0.0169 kg N03 equivs 1.7000 0.1750 1.7011 kg N03 equivs 1.6982 lower 90% ci 1.7040 upper 90% ci
This indicator measures the contribution of the nitrate emissions from this input on the environmental performance measure of acidification.
((I6.Q1*I6.Q2)/I6.Q3)*I6.Q4
Eutrophication (1.0) NO3B 01/01/2014 NH3 algorithm1 normal none none subalgorithm1
0.0530 kg NH3-N / ha 3.6400 charac factor 1.0000 normal factor 0.0500 weight factor 0.0000 none
0.0096 kg N03 equivs 0.9600 0.0970 0.9606 kg N03 equivs 0.9590 lower 90% ci 0.9622 upper 90% ci
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of eutrophication.
((I7.Q1*I7.Q2)/I7.Q3)*I7.Q4
Acidification (1.0) SO2B 01/01/2014 NH3 algorithm1 normal none none subalgorithm1
0.0530 kg NH3-N / ha 1.8800 charac factor 1.0000 normal factor 0.0500 weight factor 0.0000 none
0.0050 kg SO2 equivs 0.5000 0.0550 0.5003 kg SO2 equivs 0.4994 lower 90% ci 0.5012 upper 90% ci
This indicator measures the contribution of the ammonia emissions from this input on the environmental performance measure of acidification.
((I8.Q1*I8.Q2)/I8.Q3)*I8.Q4
Dataset: 2014 Fertilizer, Orange, Conventional IRI This crop nutrient input includes a unit life cycle analysis of conventional fertilizer in orange production.

Search IRIs:
https://www.devtreks.org/greentreks/linkedviews/carbon/input/2014 Fertilizer, Orange, Conventional/2147397531/inputsbtotal1









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