Effects of enhanced-efficiency nitrogen fertilizers on nitrous oxide emissions from cotton field under plastic mulched drip irrigation in Xinjiang,China

doi:10.13287/j.1001-9332.201612.016

Chinese Journal of Applied Ecology ›› 2016, Vol. 27 ›› Issue (12): 3961-3968.doi: 10.13287/j.1001-9332.201612.016

Previous Articles Next Articles

Effects of enhanced-efficiency nitrogen fertilizers on nitrous oxide emissions from cotton field under plastic mulched drip irrigation in Xinjiang,China

MA Zhi-wen^1,2,3,4, GAO Xiao-peng^1,2,3*, GUI Dong-wei^1,2,3, KUANG Wen-nong^1,2,3,4, WANG Xi-he⁵, LIU Hua⁵

¹State Key Laboratory of Desert and Oasis Ecology, Xinjiang Institute of Ecology and Geography, Chinese Aca-demy of Sciences, Urumqi 830011, China;
²Cele National Station of Observation and Research for Desert-Grassland Ecosystems in Xinjiang, Cele 848300, China;
³Key Laboratory of Biogeography and Bioresource in Arid Zone, Chinese Academy of Sciences, Urumqi 830011, China;
⁴University of Chinese Academy of Sciences, Beijing 100049, China;
⁵Institute of Soil and Fertilizer and Agricultu-ral Sparing Water/Key Laboratory of Nutrient and Water Resources Efficient Utilization of Oasis, Xinjiang Academy of Agricultural Sciences, Urumqi 830091, China

Received:2016-04-26 Online:2016-12-18 Published:2016-12-18
Contact: * E-mail:Xiaopeng.Gao@umanitoba.ca
Supported by:
This work was supported by the 1000-Talent Plan of China (Y472171) and the National Natural Science Foundation of China(31570002).

Abstract

Abstract: The effect of enhanced-efficiency nitrogen (N) fertilizers on emissions of nitrous oxide (N₂O) from the grey desert agricultural soils of Xinjiang is uncertain. In this study, the enhanced-efficiency fertilizers, polymer-coated urea (ESN), and stabilized urea with urease and nitrification inhibitors (U+I) were compared to conventional urea (U) for N₂O emissions from cotton under plastic mulch drip irrigation near Urumqi, Xinjiang. ESN was added once at planting but the other treatments were added multiple times with drip irrigation during the growing season. Gas samples were collected and analyzed twice per week during the growing season, using the static chamber-chromatography methodology. The results showed that generally, ESN significantly increased soil cumulative N₂O emissions during the growing season by 47%-73% compared to other treatments. In the first four months after fertilization, soil ammonium (NH₄⁺-N) and nitrate (NO₃^--N) concentrations under ESN treatment were generally higher than under other treatments. Thereafter, NH₄⁺-N and NO₃^--N concentrations under all treatments gradually decreased to similar levels. ESN all added at planting was likely responsible for high NH₄⁺-N and NO₃^--N concentrations and highest N₂O emissions. The U+I treatment reduced soil N₂O emission by 9.9% in comparison with U, whereas the difference was not statistically significant. In addition, soil NO₃^--N contents of the U+I treatments were generally lower than those of the ESN and the U treatments. The cumulative N₂O emissionsover the growing season ranged from 300 to 500 g N₂O-N·hm^-2, generally lower than emissions reported for other agricultural ecosystems. Drip irrigation successfully kept moisture conditions below levels for appreciable N₂O emissions. Multiple applications of N via drip irrigation seemed to be effective to lower emissions than all N applied at planting. Therefore, for cotton field under plastic mulch drip irrigation in arid land of Northwest China, the benefit of enhanced efficiency N ferti-lizers on N₂O mitigation is limited.

MA Zhi-wen, GAO Xiao-peng, GUI Dong-wei, KUANG Wen-nong, WANG Xi-he, LIU Hua. Effects of enhanced-efficiency nitrogen fertilizers on nitrous oxide emissions from cotton field under plastic mulched drip irrigation in Xinjiang,China[J]. Chinese Journal of Applied Ecology, 2016, 27(12): 3961-3968.

References

[1] IPCC. Climate change 2007: The Physical Science Basis, Contribution of Working Group 1 to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge: Cambridge University Press, 2007
[2] Smith P, Martino D, Cai Z, et al. Greenhouse gas mitigation in agriculture. Philosophical Transactions of the Royal Society B: Biological Sciences, 2008, 363: 789-813
[3] Qi Y-C (齐玉春), Dong Y-S (董云社). Nitrous oxide emissions from soil and some influence factors. Acta Geographica Sinica (地理学报), 1999, 54(6): 534-539 (in Chinese)
[4] Yu S-X (喻树迅). Present situation and development trend of cotton production in China. Engineering Sciences (中国工程科学), 2013, 15(4): 9-13 (in Chinese)
[5] Zhu H-Y (朱会义). The underlying cause for the concentration of China’s cotton production in Xinjiang. Geographical Research (地理研究), 2013, 32(4): 744-754 (in Chinese)
[6] Hen H (贺欢), Tian C-Y (田长彦), Wang L-X (王林霞). Effect of different coverings on soil temperature and soil moisture content in cotton field in Xinjiang. Arid Zone Research (干旱区研究), 2015, 26(6): 58-63 (in Chinese)
[7] Li Z, Zhang R, Wang X, et al. Effects of plastic film mulching with drip irrigation on N₂O and CH₄ emissions from cotton fields in arid land. Journal of Agricultural Science, 2014, 152: 534-542
[8] Lv JL, Liu XJ, Liu H. et al. Greenhouse gas intensity and net annual global warming potential of cotton cropping systems in an extremely arid region. Nutrient Cycling in Agroecosystems, 2014, 98: 15-26
[9] Cuello JP, Hwang HY, Gutierrez J, et al. Impact of plastic film mulching on increasing greenhouse gas emissions in temperate upland soil during maize cultivation. Applied Soil Ecology, 2015, 91: 48-57
[10] Akiyama H, Yan X, Yagi K. Evaluation of effectiveness of enhanced-efficiency fertilizers as mitigation options for N₂O and NO emissions from agricultural soils: Meta-analysis. Global Change Biology, 2010, 16: 1837-1846
[11] Li X-L (李香兰), Xu-H (徐华), Cai Z-C (蔡祖聪). Effect of water management on nitrous oxide emission from rice paddy field: A review. Soils (土壤), 2009, 41(1): 1-7 (in Chinese)
[12] Gao X, Asgedom H, Tenuta M, et al. Enhanced efficiency urea sources and placement effects on nitrous oxide emissions. Agronomy Journal, 2015, 107: 265-277
[13] Ding WX, Chen ZM, Yu HY, et al. Nitrous oxide emission and nitrogen use efficiency in response to nitrophosphate, N-(n-butyl) thiophosphorictriamide and dicyandiamide of a wheat cultivated soil under sub-humid monsoon conditions. Biogeosciences, 2015, 12: 803-815
[14] Ji Y, Liu G, Ma J, et al. Effect of controlled-release fertilizer on mitigation of N₂O emission from paddy field in South China: A multi-year field observation. Plant and Soil, 2013, 371: 473-486
[15] Xu W-L (徐万里), Tang G-M (唐光木), Ge C-H (葛春辉), et al. Effects of long-term fertilization on diversities of soil microbial community structure and function in grey desert soil of Xinjiang. Acta Ecologica Sinica (生态学报), 2015, 35(2): 468-477 (in Chinese)
[16] Yao Z, Zheng X, XieB, et al. Tillage and crop residue management significantly affects N-trace gas emissions during the non-rice season of a subtropical rice-wheat rotation. Soil Biology and Biochemistry, 2009, 41: 2131-2140
[17] Pedersen AR. HMR: Flux Estimation with Static Chamber Data. R Package Version 0.3.1. [EB/OL]. (2015-01-27) [2012-04-10]. http://CRAN.R-project.org/packageHMR
[18] Zebarth BJ, Rochette P, Burton DL, et al. Effect of fertilizer nitrogen management on N₂O emissions in commercial corn fields. Canadian Journal of Soil Science, 2008, 88: 189-195
[19] Asgedom H, Tenuta M, Flaten DN, et al. Nitrous oxide emissions from a clay soil receiving granular urea formulations and dairy manure. Agronomy Journal, 2014, 106: 732-744
[20] Zhang Y-F (张岳芳), Zheng J-C (郑建初), Zhou W (周炜), et al. Effect of controlled release fertilizer on nitrous oxide emission during winter wheat-growing season under no-tillage condition. Jiangsu Journal of Agricultural Science (江苏农业学报), 2014, 30(5): 1037-1043 (in Chinese)
[21] Ding H (丁洪), Wang Y-S (王跃思), Qin S-J (秦胜金), et al. Effects of controlled release fertilizers on nitrogen loss by denitrification and N₂O emission. Journal of Agro-Environment Science (农业环境科学学报), 2012, 29(5): 1015-1019 (in Chinese)
[22] Li F-M (李方敏), Fan X-L (樊小林), Liu F (刘芳), et al. Effects of controlled release fertilizers on N₂O emission from paddy field. Chinese Journal of Applied Ecology (应用生态学报), 2004, 15(11): 2170-2174 (in Chinese)
[23] Yi Q (易琼), Pang Y-W (逄玉万), Yang S-H (杨少海), et al. Methane and nitrous oxide emissions in paddy field as influenced by fertilization. Ecology and Environmental Sciences (生态环境学报), 2013, 22(8): 1432-1437 (in Chinese)
[24] Liu Z-B (刘昭兵), Ji X-H (纪雄辉), Peng H (彭华), et al. Effects of nitrogen amount and inhibitor ratio on greenhouse gas emission during double-rice growing season. Ecology and Environmental Sciences (生态环境学报), 2010, 19(4): 919-925 (in Chinese)
[25] Ding WX, Yu HY, Cai ZC. Impact of urease and nitrification inhibitors on nitrous oxide emissions from fluvo-aquic soil in the North China Plain. Biology and Fertility of Soils, 2011, 47: 91-99
[26] Butterbach-Bahl K, Baggs EM, Dannenmann M, et al. Nitrous oxide emissions from soils: How well do we understand the processes and their controls? Philosophical Transactions of the Royal Society B: Biological Sciences, 2013, 368: 20130122, doi: 10.1098/rstb.2013.0122
[27] Yan C-P (闫翠萍), Zhang Y-M (张玉铭), Hu C-S (胡春胜), et al. Greenhouse gases exchange and their comprehensive global warming potentials in different tillage wheat-maize rotation field. Chinese Journal of Eco-Agriculture (中国生态农业学报), 2016, 24(6): 704-715 (in Chinese)
[28] Wang L-G (王立刚), Li H (李虎), Qiu J-J (邱建军). Characterization of emissions of nitrous oxide from soils of typical crop fields in Huang-Huai-Hai Plain. Scientia Agricultura Sinica (中国农业科学), 2008, 41(4): 1248-1254 (in Chinese)
[29] Dobbie KE, Smith KA. 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, 2003, 9: 204-218

Effects of enhanced-efficiency nitrogen fertilizers on nitrous oxide emissions from cotton field under plastic mulched drip irrigation in Xinjiang,China

PDF (PC)

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 0

Recommended Articles

Metrics

Comments