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N fertilizer placements and greenhouse gas emissions from continuously

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1 N fertilizer placements and greenhouse gas emissions from continuously
flooded rice systems M. Arlene Adviento-Borbe1 and Bruce Linquist2 1Delta Water Management Research Unit, USDA-ARS, Jonesboro, AR 2Dept. of Plant Sciences, University of California, Davis, CA 3rd PRRG-GRA Americas meeting, July 13-15, 2016 DBNRRC Stuttgart, AR Delta Water Management Research Unit

2 Emissions of CH4 and N2O produced from agricultural activities
( ) (20-40 Mt of CH4 per year) Source: FAOSTAT Delta Water Management Research Unit

3 CH4 Processes causing emissions of CH4 from flooded rice fields O2 CH4
Rice Roots Rice Plant Rhizosphere Bulk soil Floodwater Atmosphere CH4 O2 CH4 O2 CH4 CH4 + 2O2 CO2 + H2O CH3COOH CO2 + CH4 CO2 + 4H+ 2H2O + CH4 CH4 + 2O2 CO2 + H2O O2 , H+ Delta Water Management Research Unit

4 Processes causing emissions of N2O from flooded rice fields
Rice Roots Rice Plant Oxidized soil Reduced soil Atmosphere O2 N2O N2O O2 NH3 NH4+ N2O N2O NO3- NO2- NO + N2O NH3 NH4+ NO3- N2 O2 , H+ Delta Water Management Research Unit

5 US Nitrous oxide emissions by source (1990-2014)
Delta Water Management Research Unit

6 Current default N2O emission factor for direct emissions
EN2O = *F 0.21 to 0.40% fertilizer-induced N2O emission Source: Bouwman Nutrient Cyc. Agroeco.52, Delta Water Management Research Unit

7 Management practices for reducing GHG emissions
Water management Alternate wetting & drying Rice selections Hybrids vs conventional Placement of N fertilizer Subsurface application Forms of N Ammonium sulfate Urease inhibitor Time of N application Multiple application Amount of fertilizer N Suboptimal rates Optimal rates Delta Water Management Research Unit

8 Management practices for reducing GHG emissions
Water management Alternate wetting & drying Rice selections Hybrids vs conventional Placement of N fertilizer Subsurface application Forms of N Ammonium sulfate Urease inhibitor Time of N application Multiple application Amount of fertilizer N Suboptimal rates Optimal rates Delta Water Management Research Unit

9 Mitigating CH4 emissions in flooded rice fields
Rice Roots Rice Plant Rhizosphere Bulk soil Floodwater Atmosphere O2 CH4 O2 CH3COOH CO2 + CH4 CO2 + 4H+ 2H2O + CH4 CH4 + 2O2 CO2 + H2O O2 , H+ Delta Water Management Research Unit

10 Management practices for reducing GHG emissions
Water management Alternate wetting & drying Rice selections Hybrids vs conventional Placement of N fertilizer Subsurface application Forms of N Ammonium sulfate Urease inhibitor Time of N application Multiple application Amount of fertilizer N Suboptimal rates Optimal rates Delta Water Management Research Unit

11 Influence of N fertilizer on N2O emissions in flooded rice fields
Rice Roots Rice Plant Oxidized soil Reduced soil 18% increase in N2O emission Atmosphere O2 N2O NH3 NH4+ Fertilizer N N2O O2 N2O N2O NO3- NO2- NO + N2O NH3 NH4+ X NO3- N2 O2 , H+ Delta Water Management Research Unit

12 Influence of N fertilizer on CH4 emissions in flooded rice fields
Rice Roots Rice Plant Rhizosphere Bulk soil Floodwater N-rate dependent CH4 emissions: Low-to-moderate vs. high N rates Atmosphere Deep-placed fertilizer N = 40% reduction of CH4 emission O2 CH4 O2 NH3 NH4+ Fertilizer N (band) CH4 CH4 + 2O2 CO2 + H2O CH3COOH CO2 + CH4 CO2 + 4H+ 2H2O + CH4 CH4 + 2O2 CO2 + H2O O2 , H+ Delta Water Management Research Unit

13 Field experiments Locations:
Field 1 – Agricultural Research Farm, University of California, Davis, CA Field 2 – California Rice Research Experimental Station, Biggs, CA Field 3 - Commercial rice grower’s field, Marysville, CA N treatments: Broadcast N – surface applied N fertilizer Banded N– injected/applied 7.5 cm below soil surface Delta Water Management Research Unit

14 Objectives 1. To asses various N fertilizer placements in reducing methane (CH4) and nitrous oxide (N2O) emissions from irrigated rice systems, and 2. To quantify grain yield under different N fertilizer management practices Delta Water Management Research Unit

15 N fertilizer treatments
Delta Water Management Research Unit

16 Measurements of CH4 and N2O emissions
30.5 cm diameter vented flux chamber with 17 CFM/5800 RPM fan daily to weekly gas sampling (90+ sampling dates) varying chamber height ( cm; 8-90 L) based on height of growing rice 12 mL gas vial double sealed with silicon Multi-point valves GC-2014 gas chromatograph with a 63NI ECD and FID detectors Delta Water Management Research Unit

17 N fertilization affects grain yield
Significant at 95% confidence level Delta Water Management Research Unit

18 N fertilization affects grain yield
Fertilizer N placements Grain Yield, Mg ha-1 Relative % increase to surface application Relative Yield change to surface application Field 1 N0 4.05b F1-BR 11.1a F1-BA 12.2a 10 1.1 Field 2 3.66b F2-BR 10.3a F2-BA 12.1a 17 1.8 Field 3 10.9b 12.5a 2.5 0.3 Delta Water Management Research Unit

19 N fertilizer placements and CH4 emissions, kg CH4-C ha-1 d-1
Delta Water Management Research Unit

20 N fertilizer placements and N2O emissions, g N2O-N ha-1 d-1
Delta Water Management Research Unit

21 Global warming potentials and Fertilizer-induced N2O emissions in different N treatments and sites
Fertilizer N placements CH4 emissions kg CO2 eq ha-1 season-1 N2O emissions Fertilizer-induced N2O emissions, % Field 1 N0 210a -6.6a F1-BR 409a -23a (0.02) F1-BA 453a -12a (0.01) Field 2 2,085b -30a F2-BR 4,438a -33a F2-BA 3,834a -50a (0.04) Field 3 8,994a 4.7a 9,910a -35a (0.06) 7,711a -6.0a Delta Water Management Research Unit

22 Global warming potentials in different N treatments and sites
Fertilizer N placements GWP, kg CO2 eq ha-1 season-1 Relative % decrease to surface application GWPY, kg CO2 eq Mg-1 season-1 Field 1 N0 204a 46a F1-BR 385a 33a F1-BA 440a (14) 35a (6) Field 2 2,055b 574a F2-BR 4,405a 449a F2-BA 3,784a 14 311a 31 Field 3 8,999a 824a 9,875a 808a 7,705a 22 616a 24 Delta Water Management Research Unit

23 Influence of N fertilizer on CH4 emissions in flooded rice fields
Rice Roots Rice Plant Rhizosphere Bulk soil Floodwater N-rate dependent CH4 emissions: Low-to-moderate vs. high N rates Atmosphere Deep-placed fertilizer N = 40% reduction of CH4 emission O2 CH4 O2 NH3 NH4+ Fertilizer N (band) CH4 CH4 + 2O2 CO2 + H2O CH3COOH CO2 + CH4 CO2 + 4H+ 2H2O + CH4 CH4 + 2O2 CO2 + H2O O2 , H+ Delta Water Management Research Unit

24 Form of fertilizer N; pellets vs granular
Summary Band application of urea fertilizer below the soil surface had no effect on the total seasonal CH4 and N2O emissions. Fertilizer addition increased grain yield in all study sites but the lack of yield response to N fertilizer placements is likely due to N was applied at optimal rates. More research is needed to evaluate if N placement can be an effective management practice to reduce GHG emissions in flooded rice systems. soil depth (20 cm) Form of fertilizer N; pellets vs granular Delta Water Management Research Unit

25 Delta Water Management Research Unit

26 Thank you! Delta Water Management Research Unit

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