在天然盐碱土壤中施用有机肥减少了一氧化二氮,但增加了二氧化碳和甲烷的排放量

IF 1.1 4区 环境科学与生态学 Q4 ECOLOGY
Bhavna Jaiswal, Suruchi Singh, Shashi Bhushan Agrawal, Erandathie Lokupitiya, Madhoolika Agrawal
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引用次数: 0

摘要

农业与气候变化的关系已得到广泛认可。土壤成分和土壤盐分以及用于改良土壤的改良剂是影响这种关联的主要因素。本研究针对上述问题,在北方邦印度-甘地平原寻找减少温室气体(GHG)排放的最佳管理方法。研究选取的六个地点盐度不同,采用的有机和无机添加剂管理方法也不同。在水稻和小麦/芥菜/休耕系统的不同阶段,测量了土壤中二氧化碳、甲烷和氧化亚氮的排放量。研究结果表明,土壤盐度、作物类型和有机/无机添加剂对温室气体的排放有不同的影响,因为在不同地点,作物生长周期的不同阶段,温室气体的通量也不同。与施用无机肥料相比,盐分引起的变化一般会减少甲烷的排放,同时增加二氧化碳和一氧化二氮的排放,而有机物改良剂则会增加二氧化碳和甲烷的通量。种植水稻-芥菜的地点二氧化碳和一氧化二氮通量最高,分别为 3645 毫克米-2 小时-1 和 1.9 毫克米-2 小时-1。相反,盐碱地水稻-小麦种植区的甲烷通量最高,为 0.873 毫克/立方米-2 小时-1。电导率、含水量、土壤温度和总有机碳是土壤排放所有温室气体的主要解释因素。建议进一步探索和实验使用不同的改良剂来减少稻麦系统中的温室气体排放,以实现更大的可持续发展潜力。这项正在进行的研究对于优化农业实践和提高其长期环境可行性至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Amendment of organic manure to natural saline soil reduced N2O but enhanced CO2 and CH4 emissions

Amendment of organic manure to natural saline soil reduced N2O but enhanced CO2 and CH4 emissions

Association of agriculture with climate change is widely established. Soil constituents and soil salinity along with the amendments for soil improvement are the key contributors in affecting this association. The present study targets the above issue to find the best management practice in terms of reduction in greenhouse gas (GHG) emissions in Indo-Gangetic plain of Uttar Pradesh. The six sites selected for the study varied in salinity level and followed different management practices of organic and inorganic amendments. Emissions of CO2, CH4 and N2O from soil were measured at different stages of rice and wheat/ mustard/ fallow systems. The findings revealed that soil salinity, crop type and organic/ inorganic amendments differently affected the emission as the fluxes of GHGs varied at different stages of crop growth cycle at different sites. Salinity induced variations generally tended to reduce the CH4 emission while increased the emission of CO2 and N2O, whereas organic matter amendment increased CO2 and CH4 fluxes in comparison to inorganic fertilizer application at the studied sites. The site with rice-mustard cropping exhibited the highest CO2 and N2O fluxes, measuring 3645 and 1.9 mg m− 2 h− 1, respectively. Conversely, the highest CH4 flux of 0.873 mg m− 2 h− 1 was recorded at the saline rice-wheat cropping site. Electrical conductivity, moisture content, soil temperature and total organic carbon acted as major explanatory factors for soil emission of all the GHGs. Further exploration and experimentation are suggested with the use of different amendments to reduce GHG emissions in rice-wheat system, for greater sustainability potential. This ongoing research is vital for optimizing agricultural practices and enhancing their long-term environmental viability.

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来源期刊
Tropical Ecology
Tropical Ecology ECOLOGY-
CiteScore
3.30
自引率
6.20%
发文量
71
审稿时长
>12 weeks
期刊介绍: Tropical Ecology is devoted to all aspects of fundamental and applied ecological research in tropical and sub-tropical ecosystems. Nevertheless, the cutting-edge research in new ecological concepts, methodology and reviews on contemporary themes, not necessarily confined to tropics and sub-tropics, may also be considered for publication at the discretion of the Editor-in-Chief. Areas of current interest include: Biological diversity and its management; Conservation and restoration ecology; Human ecology; Ecological economics; Ecosystem structure and functioning; Ecosystem services; Ecosystem sustainability; Stress and disturbance ecology; Ecology of global change; Ecological modeling; Evolutionary ecology; Quantitative ecology; and Social ecology. The Journal Tropical Ecology features a distinguished editorial board, working on various ecological aspects of tropical and sub-tropical systems from diverse continents. Tropical Ecology publishes: · Original research papers · Short communications · Reviews and Mini-reviews on topical themes · Scientific correspondence · Book Reviews
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