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不同有机物料还田对农田系统净温室气体排放的影响

李柘锦隋鹏龙攀严玲玲王彬彬陈源泉

农业工程学报2016，Vol.32Issue(z2)：111-117,7.

农业工程学报2016，Vol.32Issue(z2)：111-117,7.DOI:10.11975/j.issn.1002-6819.2016.z2.015

不同有机物料还田对农田系统净温室气体排放的影响

Effects of different organic wastes application on net greenhouse gas emission in farmland system

李柘锦 ¹隋鹏 ¹龙攀 ¹严玲玲 ²王彬彬 ¹陈源泉³

作者信息

1. 中国农业大学农学院，北京 100193
2. 湖南农业大学农学院，长沙 410128
3. 益阳市农业科学研究所，益阳 413002
折叠

摘要

Abstract

The recycling of agricultural organic wastes not only can mitigate its pollution to the environment, provide nutrients for farmland, but also increase soil carbon storage and reduce greenhouse gas (GHG) emissions, which play an important role to climate change. Five kinds of agricultural organic wastes were selected to the wheat-maize rotation system, including crop residue, biogas residue, mushroom residue, wine residue and pig manure, with chemical fertilizer as control. Based on the field trials, the effects of soil carbon storage, soil GHG emissions and net greenhouse gas emissions (NGHGE) were measured. The results from 2013-2015 showed that: 1) Compared with chemical fertilizer control, returning organic materials improved the ability of soil carbon sequestrationby63.52% of 0-20 cm soil during 2013-2015 years of observation, crop residue, biogas residue, mushroom residue, wine residue and pig manure increased by33.13%、86.34%、75.97%、52.66% and 69.48% in 2013-2015, respectively.Except the treatment of mushroom residue returning, organic material outside the croplands were more conducive to the increasing of soil carbon storage than crop residue.2) Except crop residues returning, organic materials returning increased soil GHG emissions, soil GWP of crop residues were the lowest one, which was significantly lower than wine residue and pig manure (p<0.05), compared with biogas residue, mushroom residue, wine residue and pig manure, crop residue reduced emissions by 30.23%、27.84%、62.10% and 52.55%, respectively.3) The values of NGHGE of each treatment were positive, which means all of the treatments were GHG emission sources. Compared with inorganic fertilizer control, except the treatment of mushroom residue returning, other organic amendments reduced GHG emissions and increased soil carbon pool s of the system(p<0.05), crop residues, biogas residues, wine residues and pig manures decreased NGHGE by52.78%、56.30%、54.19% and 90.35%, respectively. Organic materials from outside had a better NGHGE than crop residues. In conclusion, recycling organic wastes is beneficial to the soil carbon storage, although increasing soil GHG emissions, it ultimately presents an enhancement of NGHGE, which reduced total GHG emissions of the whole system. Returning organic amendments such as crop residues, biogas residues, wine residues and pig manures far beyond the croplands had better effects of mitigating GHGs than crop residues.

关键词

温室气体/排放控制/土壤/有机物料还田/农田土壤碳库/循环农业

Key words

greenhouse gases/emission control/soils/organic wastes returning/soil carbon storage/circular agriculture

分类

农业科技

引用本文复制引用

李柘锦,隋鹏,龙攀,严玲玲,王彬彬,陈源泉..不同有机物料还田对农田系统净温室气体排放的影响[J].农业工程学报,2016,32(z2):111-117,7.

基金项目

国家自然科学基金（31571595）；“十三五”国家重点研发计划（）

农业工程学报

OA北大核心CSCDCSTPCD

ISSN：1002-6819

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