本文主要研究内容
作者尹高飞(2019)在《有机肥替代对不同作物轮作模式下农田温室气体排放的影响》一文中研究指出:随着我国畜禽养殖业快速发展,畜禽养殖废弃物资源化利用收到国家和政府高度关注,将废弃物制备为有机肥进行还田利用是养殖废弃物资源化重要途径之一。如何实现有机肥(固体有机肥和沼液两种)科学合理利用和如何减少还田过程中农田温室气体排放是目前的研究热点和重点。本文针对农田温室气体排放特征不明的问题,分别选择西南高原区典型水稻-蚕豆轮作系统和华北地区典型小麦-玉米轮作系统两个试验点,研究了基于奶牛场粪污为基质的有机肥、厌氧发酵沼液替代化肥农田温室气体的排放特征及农学效应(产量及氮素利用率),分析了不同施肥类型对农田温室气体排放的关键影响因子,探讨了畜禽养殖废弃物合理利用(还田)的模式。主要研究结果如下:1)水稻-蚕豆轮作系统,与Y1(常规施肥处理)相比,Y3、Y4(施用有机肥处理)水稻季作物产量显著降低,蚕豆季作物产量减少不显著,农田温室气体排放强度分别提高了23.61%和25.00%;Y2(化肥减量20%处理),作物产量减少不显著,但温室气体排放强度明显降低;Y5(缓控施肥处理),水稻(9.9 t·hm-2)、蚕豆(5.1 t·hm-2)季作物产量均显著增加,作物吸氮量最高,分别为150 kg·hm-2(水稻)和157 kg·hm-2(蚕豆),且农田温室气体排放明显下降。施肥均增加了水稻-蚕豆整个生育期的综合增温潜势,是不施肥处理的1.191.55倍;从短期效果看,Y5(缓控施肥处理,水稻季施氮量为156 kg·hm-2,蚕豆季施氮量为84 kg·hm-2)的农学及环境效益达到最优(作物产量显著提高,温室气体排放显著下降);有机肥处理虽然导致水稻作物产量下降及温室气体排放增加,但对蚕豆季作物产量没有显著影响;Y2(化肥减量处理)作物产量减少不显著,但温室气体排放明显降低。2)沼液灌溉下小麦-玉米轮作周期内土壤温室气体排放的季节性特征没有明显改变,但会造成短时期内排放通量的增加。对于全球增温潜势,沼液灌溉处理T3(以清/沼比2:1配比的沼液灌溉,小麦季灌溉3次,玉米季灌溉1次的处理)和T4(小麦季灌溉4次,玉米季灌溉1次的处理)处理与CF处理(常规施肥)没有显著性差异,T1(小麦季灌溉1次,玉米季灌溉1次处理)和T2(小麦季灌溉2次,玉米季灌溉1次的处理)处理与CF处理相比显著性降低;两年内T3、T4处理的温室气体排放强度较常规施肥处理差异均不显著,T1和T2处理与常规施肥(CF)相比显著性降低。沼液灌溉处理和常规施肥处理相比,作物产量没有显著性差异。综合考虑全球增温潜势与作物产量,T2处理(小麦季2:1沼液灌溉2次,玉米季2:1沼液灌溉1次,施氮量为315 kg·hm-2)为小麦-玉米轮作体系的最佳施肥模式。
Abstract
sui zhao wo guo chu qin yang shi ye kuai su fa zhan ,chu qin yang shi fei qi wu zi yuan hua li yong shou dao guo jia he zheng fu gao du guan zhu ,jiang fei qi wu zhi bei wei you ji fei jin hang hai tian li yong shi yang shi fei qi wu zi yuan hua chong yao tu jing zhi yi 。ru he shi xian you ji fei (gu ti you ji fei he zhao ye liang chong )ke xue ge li li yong he ru he jian shao hai tian guo cheng zhong nong tian wen shi qi ti pai fang shi mu qian de yan jiu re dian he chong dian 。ben wen zhen dui nong tian wen shi qi ti pai fang te zheng bu ming de wen ti ,fen bie shua ze xi na gao yuan ou dian xing shui dao -can dou lun zuo ji tong he hua bei de ou dian xing xiao mai -yu mi lun zuo ji tong liang ge shi yan dian ,yan jiu le ji yu nai niu chang fen wu wei ji zhi de you ji fei 、ya yang fa jiao zhao ye ti dai hua fei nong tian wen shi qi ti de pai fang te zheng ji nong xue xiao ying (chan liang ji dan su li yong lv ),fen xi le bu tong shi fei lei xing dui nong tian wen shi qi ti pai fang de guan jian ying xiang yin zi ,tan tao le chu qin yang shi fei qi wu ge li li yong (hai tian )de mo shi 。zhu yao yan jiu jie guo ru xia :1)shui dao -can dou lun zuo ji tong ,yu Y1(chang gui shi fei chu li )xiang bi ,Y3、Y4(shi yong you ji fei chu li )shui dao ji zuo wu chan liang xian zhe jiang di ,can dou ji zuo wu chan liang jian shao bu xian zhe ,nong tian wen shi qi ti pai fang jiang du fen bie di gao le 23.61%he 25.00%;Y2(hua fei jian liang 20%chu li ),zuo wu chan liang jian shao bu xian zhe ,dan wen shi qi ti pai fang jiang du ming xian jiang di ;Y5(huan kong shi fei chu li ),shui dao (9.9 t·hm-2)、can dou (5.1 t·hm-2)ji zuo wu chan liang jun xian zhe zeng jia ,zuo wu xi dan liang zui gao ,fen bie wei 150 kg·hm-2(shui dao )he 157 kg·hm-2(can dou ),ju nong tian wen shi qi ti pai fang ming xian xia jiang 。shi fei jun zeng jia le shui dao -can dou zheng ge sheng yo ji de zeng ge zeng wen qian shi ,shi bu shi fei chu li de 1.191.55bei ;cong duan ji xiao guo kan ,Y5(huan kong shi fei chu li ,shui dao ji shi dan liang wei 156 kg·hm-2,can dou ji shi dan liang wei 84 kg·hm-2)de nong xue ji huan jing xiao yi da dao zui you (zuo wu chan liang xian zhe di gao ,wen shi qi ti pai fang xian zhe xia jiang );you ji fei chu li sui ran dao zhi shui dao zuo wu chan liang xia jiang ji wen shi qi ti pai fang zeng jia ,dan dui can dou ji zuo wu chan liang mei you xian zhe ying xiang ;Y2(hua fei jian liang chu li )zuo wu chan liang jian shao bu xian zhe ,dan wen shi qi ti pai fang ming xian jiang di 。2)zhao ye guan gai xia xiao mai -yu mi lun zuo zhou ji nei tu rang wen shi qi ti pai fang de ji jie xing te zheng mei you ming xian gai bian ,dan hui zao cheng duan shi ji nei pai fang tong liang de zeng jia 。dui yu quan qiu zeng wen qian shi ,zhao ye guan gai chu li T3(yi qing /zhao bi 2:1pei bi de zhao ye guan gai ,xiao mai ji guan gai 3ci ,yu mi ji guan gai 1ci de chu li )he T4(xiao mai ji guan gai 4ci ,yu mi ji guan gai 1ci de chu li )chu li yu CFchu li (chang gui shi fei )mei you xian zhe xing cha yi ,T1(xiao mai ji guan gai 1ci ,yu mi ji guan gai 1ci chu li )he T2(xiao mai ji guan gai 2ci ,yu mi ji guan gai 1ci de chu li )chu li yu CFchu li xiang bi xian zhe xing jiang di ;liang nian nei T3、T4chu li de wen shi qi ti pai fang jiang du jiao chang gui shi fei chu li cha yi jun bu xian zhe ,T1he T2chu li yu chang gui shi fei (CF)xiang bi xian zhe xing jiang di 。zhao ye guan gai chu li he chang gui shi fei chu li xiang bi ,zuo wu chan liang mei you xian zhe xing cha yi 。zeng ge kao lv quan qiu zeng wen qian shi yu zuo wu chan liang ,T2chu li (xiao mai ji 2:1zhao ye guan gai 2ci ,yu mi ji 2:1zhao ye guan gai 1ci ,shi dan liang wei 315 kg·hm-2)wei xiao mai -yu mi lun zuo ti ji de zui jia shi fei mo shi 。
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论文作者分别是来自中国农业科学院的尹高飞,发表于刊物中国农业科学院2019-07-05论文,是一篇关于施肥论文,有机肥论文,沼液论文,温室气体论文,全球增温潜势论文,中国农业科学院2019-07-05论文的文章。本文可供学术参考使用,各位学者可以免费参考阅读下载,文章观点不代表本站观点,资料来自中国农业科学院2019-07-05论文网站,若本站收录的文献无意侵犯了您的著作版权,请联系我们删除。
标签:施肥论文; 有机肥论文; 沼液论文; 温室气体论文; 全球增温潜势论文; 中国农业科学院2019-07-05论文;