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Compost Science & Utilization Volume 25, 2017 - Issue sup1: 2015 International Composting Conference, Beijing, China
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Original Articles

Effects of Long-Term Use of Compost on N2O and CO2 Fluxes in Greenhouse Vegetable Systems

Hui HanDepartment of Ecology and Ecological Engineering, College of Resources and Environmental Science, China Agricultural University, Beijing, China
,
Yanmin TengDepartment of Ecology and Ecological Engineering, College of Resources and Environmental Science, China Agricultural University, Beijing, China
,
Hefa YangExperimental Station of Quzhou, China Agricultural University, Quzhou, Hebei Province, China
&
Ji LiDepartment of Ecology and Ecological Engineering, College of Resources and Environmental Science, China Agricultural University, Beijing, ChinaCorrespondence[email protected]
Pages S61-S69 | Published online: 06 Dec 2016

References

  • Akbolat, D., F. Evrendilek, A. Coskan, and K. Ekinci. 2009. Quantifying soil respiration in response to short-term tillage practices: A case study in southern Turkey. Acta Agriculturae Scandinavica Section B—Soil and Plant Science 59 (1):50–56.
  • Alluvione, F., C. Bertora, L. Zavattaro, and C. Grignani. 2010. Nitrous oxide and carbon dioxide emissions following green manure and compost fertilization in corn. Soil Science Society of America Journal 74 (2):384–95.
  • Alvaro-Fuentes, J., C. Cantero-Martinez, M. V. Lopez, and J. L. Arrue. 2007. Soil carbon dioxide fluxes following tillage in semiarid Mediterranean agroecosystems. Soil & Tillage Research 96 (1–2):331–41.
  • Baggs, E. M., J. Chebii, and J. K. Ndufa. 2006. A short-term investigation of trace gas emissions following tillage and no-tillage of agroforestry residues in Western Kenya. Soil & Tillage Research 90 (1–2):69–76.
  • Bao, S. D. 2000. Soil and agricultural chemistry analysis 30–34. Beijing: China Agricultural Press.
  • Bauer, P. J. F., R. James, and J. M. Novak. 2006. Soil CO2 flux from a Norfolk loamy sand after 25 years of conventional and conservation tillage. Soil & Tillage Research 90 (1–2):205–11.
  • Bertrand, B., O. Delfose, and B. Mary. 2007. Carbon and nitrogen mineralization in acidic, limed and calcareous agricultural soils: Apparent and actual effects. Soil Biology and Biochemistry 39 (1):276–88.
  • Bono, A., R. Alvarez, D. E. Buschiazzo, and R. J. C. Cantet. 2008. Tillage effects on soil carbon balance in a semiarid agroecosystem. Soil Science Society of America Journal 72 (4):1140–9.
  • Borken, W., E. A. Davidson, K. Savage, J. Gaudinski, and S. E. Trumbore. 2003. Drying and wetting effects on carbon dioxide release from organic horizons. Soil Science Society of America Journal 67 (6):1888–96.
  • Bouwman, A. F., L. J. M. Boumans, and N. H. Batjes. 2002. Emissions of N2O and NO from fertilized fields: Summary of available measurement data. Global Biogeochem Cycle 16 (4):6-1–6-13.
  • Buyanovsky, G. A., and G. H. Wagner. 1983. Annual cycles of carbon dioxide level in soil air. Soil Science Society of America Journal 47 (6):1139–45.
  • Chatskikh, D., J. E. Olesen, J. Berntsen, K. Regina, and S. Yamulki. 2005. Simulation of effects of soils, climate and management on N2O emission from grasslands. Biogeochemistry 76 (3):395–419.
  • Chen, S. P., G. H. Lin, J. H. Huang, and M. He. 2008. Responses of soil respiration to simulated precipitation pulses in semiarid steppe under different grazing regimes. Journal of Plant Ecology 1 (4):237–46.
  • Chirinda, N., M. S. Carter, K. R. Albert, P. Ambus, J. E. Olesen, J. R. Porter, and S. O. Petersen. 2010. Emissions of nitrous oxide from arable organic and conventional cropping systems on two soil types. Agriculture, Ecosystems & Environment 136 (3–4):199–208.
  • Conrad, R. 1996. Soil microorganisms as controllers of atmospheric trace gases (H2, CO, CH4, OCS, N2O, and NO). Microbiological Reviews 60 (4):609–40.
  • Davidson, E. A., E. Belk, and R. D. Boone. 1998. Soil water content and temperature as independent or confounded factors controlling soil respiration in a temperate mixed hardwood forest. Global Change Biology 4 (2):217–27.
  • Davidson, E. A., and L. V. Verchot. 2000. Testing the hole-in-the-pipe model of nitric and nitrous oxide emissions from soils using the TRAGNET Database. Global Biogeochem Cycle 14 (4):1035–43.
  • do Carmo, J. B., M. D. C. Piccolo, C. A. de Andrade, C. E. Pellegrino Cerri, B. J. Feigl, E. Sousa Neto, and C. C. Cerri. 2007. Short-term changes in nitrogen availability, gas fluxes (CO2, NO, N2O) and microbial biomass after tillage during pasture re-establishment in Rondonia, Brazil. Soil & Tillage Research 96 (96):250–9.
  • Dobbie, K. E., and K. A. Smith. 2003. Nitrous oxide emission factors for agricultural soils in Great Britain: The impact of soil water-filled pore space and other controlling variables. Global Change Biology 9 (2):204–18.
  • Drewitt, G. B., T. A. Black, Z. Nesic, E. R. Humphreys, E. M. Jork, R. Swanson, G. J. Ethier, T. Griffis, and K. Morgenstern. 2002. Measuring forest floor CO2 fluxes in a Douglas-fir forest. Agricultural and Forest Meteorology 110 (4):299–317.
  • Ellis, S., S. Yamulki, E. Dixon, R. Harrison, and S. C. Jarvis. 1998. Denitrification and N2O emissions from a UK pasture soil following the early spring application of cattle slurry and mineral fertiliser. Plant and Soil 202 (1):15–25.
  • Eriksen, J., and  , L. S. Jensen. 2001. Soil respiration, nitrogen mineralization and uptake in barley following cultivation of grazed grasslands. Biology and Fertility of Soils 33 (2):139–45.
  • Fang, C., and J. B. Moncrieff. 2001. The dependence of soil CO2 efflux on temperature. Soil Biology & Biochemistry 33 (2):155–65.
  • Frank, A. B., M. A. Liebig, and J. D. Hanson. 2002. Soil carbon dioxide fluxes in northern semiarid grasslands. Soil Biology & Biochemistry 34 (9):1235–41.
  • Franzluebbers, K., A. J. Franzluebbers, and M. D. Jawson. 2002. Environmental controls on soil and whole-ecosystem respiration from a tallgrass prairie. Soil Science Society of America Journal 66 (1):254–62.
  • Galloway, J. N., J. D. Aber, J. W. Erisman, S. P. Seitzinger, R. H. Howarth, E. B. Cowling, and B. J. Cosby. 2003. The nitrogen cascade. BioScience 53 (4):341–56.
  • Heller, H., A. Bar-Tal, G. Tamir, P. Bloom, R. T. Venterea, D. Chen, Y. Zhang, C. E. Clapp, and P. Fine. 2010. Effects of manure and cultivation on carbon dioxide and nitrous oxide emissions from a corn field under Mediterranean conditions. Journal of Environmental Quality 39 (2):437–48.
  • Huang, Y., J. W. Zou, X. H. Zheng, Y. S. Wang, and X. K. Xu. 2004. Nitrous oxide emissions as influenced by amendment of plant residues with different C:N ratios. Soil Biology & Biochemistry 36 (6):973–81.
  • IPCC. 2014. Observed changes and their causes. In Climate change 2014: Synthesis report, ed. R. K. Pachauri and L. A. Meyer, 39–54. Geneva, Switzerland.
  • IPCC. 2007. Changes in atmospheric constituents and in radiative forcing. In Climate change 2007: The physical science basis. Contribution of Working Group I to the fourth assessment report of the intergovernmental panel on climate change, ed. S. Solomon, D. Qin, and M. Manning. Cambridge, UK/New York, NY: Cambridge University Press.
  • IPCC. 2006. IPCC guidelines for national greenhouse gas inventories. Hayama: Institute for Global Environmental Strategies.
  • Jha, P. B., J. S. Singh, and A. K. Kashyap. 1996. Dynamics of viable nitrifier community and nutrient availability in dry tropical forest habitat as affected by cultivation and soil texture. Plant and Soil 180 (2):277–85.
  • Jin, C. W., S. T. Du, Y. Wang, J. Condon, X. Y. Lin, and Y. S. Zhang. 2009. Carbon dioxide enrichment by composting in greenhouses and its effect on vegetable production. Journal of Plant Nutrition and Soil Science 172 (3):418–24.
  • Johnson, J. M. F., A. J. Franzluebbers, S. L. Weyers, and D. C. Reicosky. 2007. Agricultural opportunities to mitigate greenhouse gas emissions. Environmental Pollution 150 (1):107–24.
  • Kaiser, E. A., and R. Ruser. 2000. Nitrous oxide emissions from arable soils in Germany—an evaluation of six long-term field experiments. Journal of Plant Nutrition and Soil Science 163 (3):249–59.
  • Khalil, M. I., A. B. Rosenani, O. Van Cleemput, C. I. Fauziah, and J. Shamshuddin. 2002. Nitrous oxide emissions from an ultisol of the humid tropics under maize-groundnut rotation. Journal of Environmental Quality 31 (4):1071–8.
  • Lee, D. K., J. J. Doolittle, and V. N. Owens. 2007. Soil carbon dioxide fluxes in established switchgrass land managed for biomass production. Soil Biology & Biochemistry 39 (1):178–86.
  • Lee, J., J. W. Hopmans, C. van Kessel, A. P. King, K. J. Evatt, D. Louie, D. E. Rolston, and J. Six. 2009. Tillage and seasonal emissions of CO2, N2O and NO across a seed bed and at the field scale in a Mediterranean climate. Agriculture Ecosystems & Environment 129 (4):378–90.
  • Lee, J., J. Six, A. P. King, C. Van Kessel, and D. E. Rolston. 2006. Tillage and field scale controls on greenhouse gas emissions. Journal of Environmental Quality 35 (3):714–25.
  • Liu, C. Y., X. H. Zheng, Z. X. Zhou, S. H. Han, Y. H. Wang, K. Wang, W. G. Liang, M. Li, D. L. Chen, and Z. P. Yang. 2010. Nitrous oxide and nitric oxide emissions from an irrigated cotton field in Northern China. Plant and Soil 332 (1–2):123–34.
  • Lloyd, J., and J. A. Taylor. 1994. On the temperature dependence of soil respiration. Functional Ecology 8 (3):315–23.
  • Loecke, T. D., and G. P. Robertson. 2009. Soil resource heterogeneity in terms of litter aggregation promotes nitrous oxide fluxes and slows decomposition. Soil Biology & Biochemistry 41 (2):228–35.
  • López-Fernández, S., J. A. Díez, P. Hernaiz, A. Arce, L. García-Torres, and A. Vallejo. 2007. Effects of fertiliser type and the presence or absence of plants on nitrous oxide emissions from irrigated soils. Nutrient Cycling in Agroecosystems 78 (3):279–89.
  • Ma, J., E. D. Ma, H. Xu, K. Yagi, and Z. C. Cai. 2009. Wheat straw management affects CH4 and N2O emissions from rice fields. Soil Biology & Biochemistry 41 (5):1022–8.
  • Mariko, S., T. Urano, and J. Asanuma. 2007. Effects of irrigation on CO2 and CH4 fluxes from Mongolian steppe soil. Journal of Hydrology 333 (1):118–23.
  • Meijide, A., J. A. Díez, L. Sánchez-Martín, S. López-Fernández, and A. Vallejo. 2007. Nitrogen oxide emissions from an irrigated maize crop amended with treated pig slurries and composts in a Mediterranean climate. Agriculture Ecosystems & Environment 121 (4):383–94.
  • Meng, L., W. X. Ding, and Z. C. Cai. 2005. Long-term application of organic manure and nitrogen fertilizer on N2O emissions, soil quality and crop production in a sandy loam soil. Soil Biology & Biochemistry 37 (11):2037–45.
  • Metay, A., R. Oliver, E. Scopel, J.-M. Douzet, J. A. Alves Moreira, F. Maraux, B. J. Feigl, and C. Feller. 2007. N2O and CH4 emissions from soils under conventional and no-till management practices in Goiania (Cerrados, Brazil). Geoderma 141 (1–2):78–88.
  • Passianoto, C. A.T., B. J. Feigl, P. A. Steudler, J. M. Melillo, and J. B. do Carmo. 2004. Diurnal changes in nitric oxide emissions from conventional tillage and pasture sites in the Amazon Basin influence of soil temperature. Plant and Soil 258 (1–2):21–29.
  • Passianoto, C. C., T. Ahrens, B. J. Feigl, P. A. Steudler, J. B. do Carmo, and J. M. Melillo. 2003. Emissions of CO2, N2O, and NO in conventional and no-till management practices in Rondonia, Brazil. Biology and Fertility of Soils 38 (4):200–8.
  • Potthoff, M., J. Dyckmans, H. Flessa, A. Muhs, F. Beese, and R. G. Joergensen. 2005. Dynamics of maize (Zea mays L.) leaf straw mineralization as affected by the presence of soil and the availability of nitrogen. Soil Biology & Biochemistry 37 (7):1259–66.
  • Ravishankara, A. R., J. S. Daniel, and R. W. Portmann. 2009. Nitrous oxide (N2O): The dominant ozone-depleting substance emitted in the 21st century. Science 326 (5949):123–5.
  • Reicosky, D. C., D. W. Reeves, S. A. Prior, G. B. Runion, H. H. Rogers, and R. L. Raper. 1999. Effects of residue management and controlled traffic on carbon dioxide and water loss. Soil & Tillage Research 52 (3–4):153–65.
  • Robertson, G. P., E. A. Paul, and R. R. Harwood. 2000. Greenhouse gases in intensive agriculture: Contributions of individual gases to the radiative forcing of the atmosphere. Science 289 (5486):1922–5.
  • Rochette, P., and D. A. Angers. 1999. Soil surface carbon dioxide fluxes induced by spring, summer, and fall moldboard plowing in a sandy loam. Soil Science Society of America Journal 63 (3):621–8.
  • Rudaz, A. O., E. Walti, G. Kyburz, P. Lehmann, and J. Fuhrer. 1999. Temporal variation in N2O and N2 fluxes from a permanent pasture in Switzerland in relation to management, soil water content and soil temperature. Agriculture, Ecosystems & Environment 73 (1):83–91.
  • Sánchez-Martín, L., A. Sanz-Cobena, A. Meijide, M. Quemada, and A. Vallejo. 2010b. The importance of the fallow period for N2O and CH4 fluxes and nitrate leaching in a Mediterranean irrigated agroecosystem. European Journal of Soil Science 61 (5):710–20.
  • Sänger, A., D. Geisseler, and B. Ludwig. 2010. Effects of rainfall pattern on carbon and nitrogen dynamics in soil amended with biogas slurry and composted cattle manure. Journal of Plant Nutrition and Soil Science 173 (5):692–8.
  • Sänger, A., D. Geisseler, and B. Ludwig. 2011. Effects of moisture and temperature on greenhouse gas emissions and C and N leaching losses in soil treated with biogas slurry. Biology and Fertility of Soils 47 (3):249–59.
  • Scheer, C., R. Wassmann, K. Klenzler, N. Lbragimov, and R. Eschanov. 2008. Nitrous oxide emissions from fertilized irrigated cotton (Gossypium Hirsutum L.) in the Aral Sea Basin, Uzbekistan: Influence of nitrogen applications and irrigation practices. Soil Biology & Biochemistry 40 (2):290–301.
  • Silvola, J., J. Alm, U. Ahlholm, H. Nykanen, and P. J. Martikainen. 1996. CO2 fluxes from peat in boreal mires under varying temperature and moisture conditions. Journal of Ecology 84 (2):219–28.
  • Simek, M., P. Brucek, and J. Hynst. 2010. Diurnal fluxes of CO2 and N2O from cattle-impacted soil and implications for emission estimates. Plant Soil and Environment 56 (10):451–7.
  • Skinner, C., A. Gattinger, A. Muller, P. Mader, A. Fliebetabach, M. Stolze, R. Ruser, and U. Niggli. 2014. Greenhouse gas fluxes from agricultural soils under organic and non-organic management—A global meta-analysis. Science of the Total Environment 468–469:553–63.
  • Song, X. Z., C. X. Zhao, and J. L. Wang. 2009. Study of nitrate leaching and nitrogen fate under intensive vegetable production pattern in northern China. Comptes Rendus Biologies 332 (4):385–392.
  • Sotta, E. D., E. Veldkamp, B. R. Guimaras, R. K. Paixa, M. L. P. Ruivo, and S. S. Almeida. 2006. Landscape and climatic controls on spatial and temporal variation in soil CO2 efflux in an Eastern Amazonian Rainforest, Caxiuanã, Brazil. Forest Ecology and Management 237 (Suppl. 1):57–64.
  • Syvasalo, E., K. Regina, E. Turtola, R. Lemola, and M. Esala. 2006. Fluxes of nitrous oxide and methane, and nitrogen leaching from organically and conventionally cultivated sandy soil in western Finland. Agriculture, Ecosystems & Environment 113 (1–4):342–8.
  • Thierron, V., and H. Laudelout. 1996. Contribution of root respiration to total CO2 efflux from the soil of a deciduous forest. Canadian Journal of Forest Research 26 (7):1142–8.
  • Vallejo, A., U. M. Skiba, L. García-Torres, A. Arce, S. López-Fernández, and L. Sánchez-Martín. 2006. Nitrogen oxides emission from soils bearing a potato crop as influenced by fertilization with treated pig slurries and composts. Soil Biology & Biochemistry 38 (9):2782–93.
  • Van Groenigen, J. W., G. L. Velthof, O. Oenema, K. J. Van Groenigen, and C. Van Kessel. 2010. Towards an agronomic assessment of N2O emissions: A case study for arable crops. European Journal of Soil Science 61 (6):903–13.
  • Wang, Y. S., Y. Q. Hu, B. M. Ji, G. R. Liu, and M. Xue. 2003. An investigation on the relationship between emission/uptake of greenhouse gases and environmental factors in semiarid grassland. Advances in Atmospheric Sciences 20 (1):119–27.
  • Yan, L. M., S. P. Chen, J. H. Huang, and G. H. Lin. 2009. Differential responses of auto- and heterotrophic soil respiration to water and nitrogen addition in a semiarid temperate steppe. Global Change Biology 16 (8):2345–57.
  • Zhang, J. F., and X. G. Han. 2008. N2O emission from the semi-arid ecosystem under mineral fertilizer (urea and superphosphate) and increased precipitation in Northern China. Atmospheric Environment 42 (2):291–302.
  • Zheng, X. H., M. X. Wang, Y. S. Wang, R. X. Shen, J. Gou, J. Li, J. S. Jin, and L. T. Li. 2000. Impacts of soil moisture on nitrous oxide emission from croplands: A case study on the rice-based agroecosystem in Southeast China. Chemosphere-Global Change Science 2 (2):207–24.

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