本文主要研究内容
作者(2019)在《生草覆盖下有机无机配施对苹果园温室气体排放的影响》一文中研究指出:农业活动对温室气体的排放贡献很大,特别是CO2、CH4和N2O,主要通过捕获地球发出的长波辐射来影响气候变化。本研究旨在监测果园有机无机配施条件下这3种重要温室气体(GHGs)的排放量。本试验以陕西省渭北区白水县西北农林科技大学苹果试验站为试验地点,研究了生草覆盖与有机肥、化肥配合施用对苹果园温室气体排放的影响。试验设置生草覆盖(R)和无覆盖清耕(C)两种主处理,副处理为:不施肥(CK),用化肥(NPK)、有机肥(M),MNPK化肥结合有机肥(MNPK)。采用静态箱采气法和气相色谱仪收集测定CH4、N2O和CO2的排放通量。通过研究油菜覆盖结合有机无机肥的施用,研究了生草覆盖对苹果园温室气体(GHGs)排放的影响。本研究结果发现,油菜覆盖栽培系统的温室气体排放量(GHGs)明显高于清耕处理。1.各处理CO2排放量季节变化一致,CO2排放通量与土壤含水量、温度呈极显著正相关。生草覆盖处理下的平均CO2排放量高于免耕9%。对生草覆盖试验CO2通量的监测结果表明:CO2平均排放通量从最高到最低的顺序为M>MNPK>NPK>CK,M处理最高,为452.583mg.m-2.h-1。对清耕试验CO2通量的监测结果表明:CO2平均排放通量从最高到最低的顺序为M>NPK>MNPK>CK。M处理最高,为370.276 mg·m-2·h-1。2.苹果园土壤不仅是CH4的排放源,而且是吸收CH4的汇。各处理间CH4排放通量均较小,CH4不是苹果土壤中主要的温室气体排放源。M和NPK处理是CH4的排放源,而其他处理表现出对CH4的吸收生草覆盖试验的CH4平均排放量高于免耕处理的14%。对生草覆盖试验CH4通量的监测结果表明:CH4平均排放通量从最高到最低的顺序为M>NPK>MNPK>CK,M处理CH4通量最高,为0.130 mg·m-2·h-1.。对清耕试验CH4通量的监测结果表明:CH4平均排放通量从最高到最低的顺序为:NPK>M>MNPK>CK。NPK处理CH4通量最高,为0.096 mg.m-2.h-1。MNPK处理能较好地降低土壤中CH4的排放。3.各处理N2O排放的季节性变化是一致的。对生草覆盖试验N2O通量的监测结果表明:N2O平均排放通量从最高到最低的顺序为NPK>M>MNPK>CK,NPK处理的N2O通量最高,为0.353 mg·m-2·h-1.。生草覆盖试验的平均N2O排放量高于清耕处理10.6%。对清耕试验N2O通量的监测结果表明:N2O平均排放通量从最高到最低的顺序为NPK>M>MNPK>CK。NPK处理的N2O通量最高,为0.270 mg·m-2·h-1。结果表明,MNPK处理能有效降低苹果园N2O的排放,N2O排放通量与土壤硝态氮和铵态氮含量呈负相关。也就是说,当土壤氮源确定时,N2O、硝态氮和铵态氮的汇流方向不同。研究结果表明,化肥与有机肥混合施用是减少温室气体排放的最佳途径,对提高苹果产量也具有重要意义。此外,有机无机配施有助于降低生产成本,并提高土壤肥力和质量。然而,温室气体的排放通量受季节、温度、土壤性质和降雨量等环境因素的影响。
Abstract
nong ye huo dong dui wen shi qi ti de pai fang gong suo hen da ,te bie shi CO2、CH4he N2O,zhu yao tong guo bu huo de qiu fa chu de chang bo fu she lai ying xiang qi hou bian hua 。ben yan jiu zhi zai jian ce guo yuan you ji mo ji pei shi tiao jian xia zhe 3chong chong yao wen shi qi ti (GHGs)de pai fang liang 。ben shi yan yi shan xi sheng wei bei ou bai shui xian xi bei nong lin ke ji da xue ping guo shi yan zhan wei shi yan de dian ,yan jiu le sheng cao fu gai yu you ji fei 、hua fei pei ge shi yong dui ping guo yuan wen shi qi ti pai fang de ying xiang 。shi yan she zhi sheng cao fu gai (R)he mo fu gai qing geng (C)liang chong zhu chu li ,fu chu li wei :bu shi fei (CK),yong hua fei (NPK)、you ji fei (M),MNPKhua fei jie ge you ji fei (MNPK)。cai yong jing tai xiang cai qi fa he qi xiang se pu yi shou ji ce ding CH4、N2Ohe CO2de pai fang tong liang 。tong guo yan jiu you cai fu gai jie ge you ji mo ji fei de shi yong ,yan jiu le sheng cao fu gai dui ping guo yuan wen shi qi ti (GHGs)pai fang de ying xiang 。ben yan jiu jie guo fa xian ,you cai fu gai zai pei ji tong de wen shi qi ti pai fang liang (GHGs)ming xian gao yu qing geng chu li 。1.ge chu li CO2pai fang liang ji jie bian hua yi zhi ,CO2pai fang tong liang yu tu rang han shui liang 、wen du cheng ji xian zhe zheng xiang guan 。sheng cao fu gai chu li xia de ping jun CO2pai fang liang gao yu mian geng 9%。dui sheng cao fu gai shi yan CO2tong liang de jian ce jie guo biao ming :CO2ping jun pai fang tong liang cong zui gao dao zui di de shun xu wei M>MNPK>NPK>CK,Mchu li zui gao ,wei 452.583mg.m-2.h-1。dui qing geng shi yan CO2tong liang de jian ce jie guo biao ming :CO2ping jun pai fang tong liang cong zui gao dao zui di de shun xu wei M>NPK>MNPK>CK。Mchu li zui gao ,wei 370.276 mg·m-2·h-1。2.ping guo yuan tu rang bu jin shi CH4de pai fang yuan ,er ju shi xi shou CH4de hui 。ge chu li jian CH4pai fang tong liang jun jiao xiao ,CH4bu shi ping guo tu rang zhong zhu yao de wen shi qi ti pai fang yuan 。Mhe NPKchu li shi CH4de pai fang yuan ,er ji ta chu li biao xian chu dui CH4de xi shou sheng cao fu gai shi yan de CH4ping jun pai fang liang gao yu mian geng chu li de 14%。dui sheng cao fu gai shi yan CH4tong liang de jian ce jie guo biao ming :CH4ping jun pai fang tong liang cong zui gao dao zui di de shun xu wei M>NPK>MNPK>CK,Mchu li CH4tong liang zui gao ,wei 0.130 mg·m-2·h-1.。dui qing geng shi yan CH4tong liang de jian ce jie guo biao ming :CH4ping jun pai fang tong liang cong zui gao dao zui di de shun xu wei :NPK>M>MNPK>CK。NPKchu li CH4tong liang zui gao ,wei 0.096 mg.m-2.h-1。MNPKchu li neng jiao hao de jiang di tu rang zhong CH4de pai fang 。3.ge chu li N2Opai fang de ji jie xing bian hua shi yi zhi de 。dui sheng cao fu gai shi yan N2Otong liang de jian ce jie guo biao ming :N2Oping jun pai fang tong liang cong zui gao dao zui di de shun xu wei NPK>M>MNPK>CK,NPKchu li de N2Otong liang zui gao ,wei 0.353 mg·m-2·h-1.。sheng cao fu gai shi yan de ping jun N2Opai fang liang gao yu qing geng chu li 10.6%。dui qing geng shi yan N2Otong liang de jian ce jie guo biao ming :N2Oping jun pai fang tong liang cong zui gao dao zui di de shun xu wei NPK>M>MNPK>CK。NPKchu li de N2Otong liang zui gao ,wei 0.270 mg·m-2·h-1。jie guo biao ming ,MNPKchu li neng you xiao jiang di ping guo yuan N2Ode pai fang ,N2Opai fang tong liang yu tu rang xiao tai dan he an tai dan han liang cheng fu xiang guan 。ye jiu shi shui ,dang tu rang dan yuan que ding shi ,N2O、xiao tai dan he an tai dan de hui liu fang xiang bu tong 。yan jiu jie guo biao ming ,hua fei yu you ji fei hun ge shi yong shi jian shao wen shi qi ti pai fang de zui jia tu jing ,dui di gao ping guo chan liang ye ju you chong yao yi yi 。ci wai ,you ji mo ji pei shi you zhu yu jiang di sheng chan cheng ben ,bing di gao tu rang fei li he zhi liang 。ran er ,wen shi qi ti de pai fang tong liang shou ji jie 、wen du 、tu rang xing zhi he jiang yu liang deng huan jing yin su de ying xiang 。
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标签:生草覆盖论文; 小油菜论文; 有机无机配施论文; 温室气体排放论文; 苹果园论文; 西北农林科技大学2019-07-11论文;