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Effects of N management on N2O and CH4 fluxes and15N

Recovery in an irrigated mountain meadow

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Abstract

Forage production in irrigated mountain meadows plays a vital role in the livestock industry in Colorado and Wyoming. Mountain meadows are areas of intensive fertilization and irrigation which may impact regional CH4 and N2O fluxes. Nitrogen fertilization typically increases yields, but N-use efficiency is generally low. Neither the amount of fertilizer-N recovered by the forage nor the effect on N2O and CH4 emissions were known. These trace gases are long-lived in the atmosphere and contribute to global warming potential and stratospheric ozone depletion. From 1991 through 1993 studies were conducted to determine the effect of N source, and timing of N-fertilization on forage yield, N-uptake, and trace gas fluxes at the CSU Beef Improvement Center near Saratoga, Wyoming. Plots were fertilized with 168 kg N ha-1. Microplots labeled with15N-fertilizer were established to trace the fate of the added N. Weekly fluxes of N2O and CH4 were measured during the snow-free periods of the year. Although CH4 was consumed when soils were drying, flood irrigation converted the meadow into a net source of CH4. Nitrogen fertilization did not affect CH4 flux but increased N2O emissions. About 5% of the applied N was lost as N2O from spring applied NH4NO3, far greater than the amount lost as N2O from urea or fall applied NH4NO3. Fertilizer N additions increased forage biomass to a maximum of 14.6 Mg ha-1 with spring applied NH4NO3. Plant uptake of N-fertilizer was greater with spring applications (42%), than with fall applications (22%).

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References

  • Adamsen, A.P.S., and G.M.King. 1993. Methane consumption in temperate and subarctic soils: Rates, vertical zonation, and responses to water and nitrogen. Appl. Environ. Microbiol. 59: 485–490.

    Google Scholar 

  • Bronson, K.F., and A.R.Mosier. 1993. Nitrous oxide emissions and methane consumption in wheat and corn-cropped systems in northeastern Colorado.In Harper, L.A., A.R. Mosier, J.M. Duxbury, and D.E. Rolston (eds.). Agricultural Ecosystems Effects on Trace Gases and Global Climate Change. ASA Special Pub. No. 55. ASA Madison WI. pp 133–144.

    Google Scholar 

  • Burke, I.C., A.R.Mosier, L.K.Porter, and W.A.O'Deen. 1990. Diffusion of soil extracts for nitrogen and nitrogen-15 analyses by automated combustion/mass spectrometry. Soil Sci. Soc. Am. J. 54: 1190–1192.

    Google Scholar 

  • Cooper, C.S. 1956. The effect of source, rate and time of nitrogen application upon the yields, vegetative composition and crude protein content of native flood-meadow hay in eastern. Oregon. Agron J. 48: 543–545.

    Google Scholar 

  • Duxbury, J.M., L.A.Harper, and A.R.Mosier. 1993. Contributions of agroecosystems to global climate change.In Harper, L.A., A.R. Mosier, J.M. Duxbury, and D.E. Rolston (eds.) Agricultural Ecosystems Effects on Trace Gases and Global Climate Change. ASA Special Pub. No. 55. ASA Madison WI. pp 1–18.

    Google Scholar 

  • Follett, R.F., D.R. Keeney, and R.M. Cruse, (eds.) 1991. Managing Nitrogen for Groundwater Quality and Farm Profitability. SSSA, Madison WI.

    Google Scholar 

  • Follett, R.H., D.G.Westfall, J.F.Shanahan, and D.W.Lybecker. 1995. Nitrogen fertilization of mountain meadows. J. Prod. Agric 8: 239–243.

    Google Scholar 

  • Follett, R.H., D.G.Westfall, and J.F.Shanahan 1989. Fertilizer management for mountain meadows. Better Crops w/ Plant Food 73(4): 28–30.

    Google Scholar 

  • Hansen, S., J.E.Maehlum, and L.R.Bakken. 1993. N2O and CH4 fluxes in soil influenced by fertilization and tractor traffic. Soil Biol. Biochem. 25: 621–630.

    Google Scholar 

  • Hart, R.H., H.R. Haise, D.D. Walker, and R.D. Lewis. 1980. Mountain meadow management: 12 years of variety, fertilization, irrigation, and renovation research. USDA ARR-W-16. Oakland, CA.

  • Hutchinson, G.L., and A.R.Mosier. 1981. Improved soil cover method for field measurements of nitrous oxide fluxes. Soil Sci. Soc. Am. J. 45: 311–316.

    Google Scholar 

  • Hütsch, B.W., C.P.Webster, and D.S.Powlson. 1994. Methane oxidation in soils as affected by land use, soil pH and N fertilization. Soil Biol. Biochem. 26: 1613–1622.

    Google Scholar 

  • IPCC (Intergovernmental Panel on Climate Change). 1992. Houghton, J.T., B.A. Callander and S.K. Varney (eds.). Climate change 1992. The supplementary Report to the IPCC Scientific Assessment. Intergovernmental Panel on Climate Change. Cambridge Univ. Press. 200pp.

  • IPCC (Intergovernmental Panel on Climate Change). 1994. Radiative forcing of climate change. Bolin, B., J. Houghton, L.G.M. Filho (eds.). The 1994 report to the Scientific Assessment working group of IPCC, Summary for Policymakers. WMO/UNEP, Geneva.

    Google Scholar 

  • Jenkinson, D.S., R.H.Fox, and J.H.Rayner. 1985. Interactions between fertilizer nitrogen and soil nitrogen-the so-called ‘priming’ effect. J. Soil Sci. 36: 425–444.

    Google Scholar 

  • Keeney, D., and R.F.Follett. 1991. Managing nitrogen for ground water quality and farm profitability: Overview and introduction.In Follett, R.F., D.R. Keeney, and R.M. Cruse (eds.) Managing Nitrogen for Groundwater Quality and Farm Profitability, SSSA, Madison, Wl. pp 1–7.

    Google Scholar 

  • Keller, M., M.E.Mitre, and R.F.Stallard. 1990. Consumption of atmospheric methane in soils of Central Panama: Effects of agricultural development. Global Biogeochem. Cycles. 4: 21–27.

    Google Scholar 

  • Knowles, R. 1993. Methane: Processes of production and consumption.In L.A. Harper, A.R. Mosier, J.M. Duxbury, D.E. Rolston (eds). Agricultural Ecosystem Effects on Trace Gases and Global Climate Change. ASA Special Pub. No. 55. ASA Madison, WI. pp 145–156.

    Google Scholar 

  • Lindau, C.W., W.H.Patrick, and R. D.Laune. 1993. Factors affecting methane production in flooded rice soils.In Harper, L.A., A.R. Mosier, J.M. Duxbury, and D.E. Rolston (eds.) Agricultural Ecosystems Effects on Trace Gases and Global Climate Change. ASA Special Pub. No. 55. ASA Madison WI. pp 157–166.

    Google Scholar 

  • Ludwick, A.E. 1979. Meadow hay production as influenced by nitrogen and phosphorous fertilization. Proc Management of intermountain meadow symposium. Special publication RJ 141 Univ of Wyoming pp 77–86.

  • Ludwick, A.E. 1984. Proper fertilizer management improves forage productivity and profitability. Proceedings of the Second Intermountain Meadow Symposium pp 73–79. Ludwick, A.E., C.B. Rumburg, and E.G. Siemer. 1978. Nitrogen sources for hay production on flooded meadows. 1978. Soil Sci. Soc. Am. J. 42: 509–512.

    Google Scholar 

  • McTaggart, I., H.Clayton and K.Smith. 1994. Nitrous oxide flux from fertilized grassland: Strategies for reducing emissions.In Proceedings of the Symposium on Non-CO2 Greenhouse Gases. Maastrict, December 1993. Kluwer pp. 421–426.

    Google Scholar 

  • Mosier, A., D.Schimel, D.Valentine, K.Bronson, and W.Parton. 1991. Methane and nitrous oxide fluxes in native, fertilized and cultivated grasslands. Nature. 350: 330–332.

    Google Scholar 

  • Mosier, A.R., and L.Mack. 1980. Gas chromatographic system for precise, rapid analysis of N2O. Soil Sci. Soc. Am. J. 44: 1121–1123.

    Google Scholar 

  • Mosier, A.R., J.M. Duxbury, J.R. Freney, O. Heinemeyer, and K. Minami. 1995. Nitrous oxide emissions from agricultural fields: Assessment, measurement and mitigation. Plant Soil (In Press).

  • Mosier, A.R., L.K.Klemedtsson, R.A.Sommerfeld and R.C.Musselman 1993. Methane and nitrous oxide flux in a Wyoming subalpine meadow. Global Biogeochemical Cycles, Vol 7 No 4 Pages 771–784. December 1993.

    Google Scholar 

  • Parton, W.J., D.S.Schimel, C.V.Cole, and D.S.Ojima. 1987. Analysis of factors controlling soil organic matter levels in Great Plains grasslands. Soil Sci. Soc. Am. J. 51: 1173–1179.

    Google Scholar 

  • Paustian, K., G.P.Robertson and E.T.Elliott. 1995. Management impacts on carbon storage and gas fluxes (CO2, CH4) in midlatitude cropland.In Lal, R. et al. (eds.). Soil Management and Greenhouse Effect. Adv. in Soil Sci. CRC Lewis Publishers, Boca Raton. pp. 69–84.

    Google Scholar 

  • Reeburgh, W.S., S.C. Whalen, and M.J. Alpern. 1993. The role of methylotrophy in the global methane budget. tMicrobial Growth on C1 Compounds. pp. 1–14.

  • Rumburg, C.B. 1969. Yield and concentration of meadow hay fertilized with three N sources. Agron. J. 61: 824–825.

    Google Scholar 

  • Rumburg, C.B. 1972. Yield and N accumulation of meadow forage fertilized at advancing maturity with N. Agron. J. 64: 187–189.

    Google Scholar 

  • SAS Ins. (Statistical Analysis System). 1988. SAS/STAT Users guide. Ver 6.03, Third Edition. SAS Inst., Cary NC.

    Google Scholar 

  • Siemer, E.G. 1984. Generalities about meadow fertilization. Proceedings of the Second Intermountain Meadow Symposium pp 91–101.

  • Siemer, E.G. and C.B. Rumburg. 1975. Management practices determine plant species in meadows. Colo. State Univ. Exp. Stn. Bul. No 564 s 12p.

  • Siemer, E.G. and R.H. Follett. 1985. Fertilizing irrigated meadows in Colorado. Colo. State Univ. Service in Action No. 701.

  • Steudler, P.A., R.D.Bowden, J.M.Melillo, and J.D.Aber. 1989. Influence of nitrogen for fertilization on methane uptake in temperate forest soils. Nature 341: 314–316.

    Google Scholar 

  • USDAFS (United States Department of Agriculture-Forest Service) 1972. The nation's range resource-a forest-range environmental study. Forest Resource Report No. 19, 373 pp. Washington D.C.

  • Wedin, W.F. 1974. Fertilization of cool-season grasses pp 95–118In D.A. Mays (ed.) Forage Fertilization. Am. Soc. Agron. Madison, WI.

    Google Scholar 

  • Willison, T.W., C.P.Webster, K.W.T.Goulding, and D.S.Powlson. 1995. Methane oxidation in temperate soils: Effects of land use and the chemical form of nitrogen fertilizer. Chemosphere 30: 539–546.

    Google Scholar 

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Authors and Affiliations

  1. USDA/ARS Soil-Plant Nutrient Research Unit, P.O. Box E, Ft. Collins, CO, USA

    J. A. Delgado, A. R. Mosier & R. F. Follet

  2. Department of Soil & Crop Sciences, Colorado State University, Ft Collins, CO, USA

    R. H. Follett & D. G. Westfall

  3. Swedish Environmental Research Institute, Gothenberg, Sweden

    L. K. Klemedtsson

  4. Wageningen Agricultural University, The Netherlands

    J. Vermeulen

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  1. J. A. Delgado
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  2. A. R. Mosier
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  3. R. H. Follett
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  4. R. F. Follet
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  5. D. G. Westfall
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  6. L. K. Klemedtsson
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  7. J. Vermeulen
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Delgado, J.A., Mosier, A.R., Follett, R.H. et al. Effects of N management on N2O and CH4 fluxes and15N. Nutr Cycl Agroecosyst 46, 127–134 (1996). https://doi.org/10.1007/BF00704312

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