Rice cultivation by direct drilling and delayed flooding reduces methane emissions

机译：通过直接钻探和延迟洪水来种植水稻减少了甲烷排放

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During a project at Vercelli, N. Italy, involving intensive CH_4 flux measurement in a traditionally managed rice field, we also measured the N_2O flux prior to flooding, and both the CH_4 and N_2O emissions in other fields managed by direct drilling and delayed flooding. Total seasonal emissions of CH_4 were reduced to about 25% compared those under traditional management. Part of this gain was offset by prolonged N_2O emissions during the extended period before flooding. However, we estimate the net gain in terms of reduced global warming commitment to be equivalent to 1-2 t of sequestered CO_2-C ha~(-1)y~(-1). Other investigations at Vercelli have demonstrated that there are no associated yield or crop quality penalties. Thus the practice appears to offer a desirable "win-win" combination of agricultural and environmental benefits.

机译：在意大利北部韦尔切利（Vercelli）的一个项目中，在传统管理的稻田中进行了密集的CH_4通量测量，我们还测量了洪水前的N_2O通量，并通过直接钻井和延迟洪水管理了其他田地中CH_4和N_2O的排放。与传统管理相比，CH_4的季节性总排放量减少至约25％。在洪水之前的较长时间内，N_2O排放的延长抵消了部分收益。但是，根据减少的全球变暖承诺，我们估计净收益相当于1-2 t的隔离CO_2-C ha〜（-1）y〜（-1）。韦尔切利（Vercelli）的其他调查表明，没有相关的产量或作物质量损失。因此，该实践似乎提供了农业和环境效益的理想“双赢”组合。

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《Third International Symposium on Non-Co_2 Greenhouse Gases: Scientific Understanding, Control Options and Policy Aspects Jan 21-23, 2002 Maastricht, The Netherlands》|2002年|p.457-458|共2页
会议地点 Maastricht(NL)
作者
A. Leip; G. Bidoglio; K. A. Smith; F. Conen; S. Russo;
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作者单位

Institute for Environment and Sustainability,Joint Research Centre, Ispra (Va), Italy;

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会议组织
原文格式 PDF
正文语种 eng
中图分类石油、天然气工业;
关键词
rice paddies; methane; nitrous oxide; global warming; mitigation strategies;

机译：稻田；甲烷；一氧化二氮；全球变暖；缓解策略;

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专利

1. Previous Crop and Cultivar Effects on Methane Emissions from Drill-Seeded, Delayed-Flood Rice Grown on a Clay Soil [J] . Alden D. Smartt, Kristofor R. Brye, Christopher W. Rogers, Applied and environmental soil science . 2016,第期

机译：以前的作物和品种对黏土土壤中播种的延迟播种水稻的甲烷排放的影响
2. Cultivar and Previous Crop Effects on Methane Emissions From Drill-Seeded, Delayed-Flood Rice Production on a Silt-Loam Soil (vol 179, pg 28, 2014) [J] . Rogers C. W., Brye K. R., Smartt A. D., Soil Science . 2014,第12期

机译：淤泥质壤土上播种，延迟洪水的水稻生产对甲烷和先前作物的甲烷排放影响（第179卷，第28页，2014年）
3. Cultivar and Previous Crop Effects on Methane Emissions From Drill-Seeded, Delayed-Flood Rice Production on a Silt-Loam Soil [J] . Rogers Christopher W., Brye Kristofor R., Smartt Alden D., Soil Science . 2014,第1期

机译：泥质壤土上播种，延迟洪水水稻生产的甲烷排放对品种和既往作物的影响
4. Rice cultivation by direct drilling and delayed flooding reduces methane emissions [C] . A. Leip, G. Bidoglio, K. A. Smith, International symposium on non-CO2 greenhouse gases: Scientific understanding, control options and policy aspects . 2002

机译：直接钻探和延迟洪水稻米栽培减少了甲烷排放量
5. Methane Emissions from Direct-Seeded, Delayed-Flood Rice Grown on a Clay Soil [D] . Smartt, Alden Daniel 2015

机译：在粘土土壤上种植的延迟播种水稻的甲烷排放
6. Effective Suppression of Methane Emission by 2-Bromoethanesulfonate during Rice Cultivation [O] . Tatoba R. Waghmode, Md. Mozammel Haque, Sang Yoon Kim, -1

机译：水稻栽培中2-溴乙烷磺酸盐有效抑制甲烷排放
7. Previous Crop and Cultivar Effects on Methane Emissions from Drill-Seeded, Delayed-Flood Rice Grown on a Clay Soil [O] . Alden D. Smartt, Kristofor R. Brye, Christopher W. Rogers, 2016

机译：以前的作物和品种对甲烷排放的甲烷排放，在粘土土壤上生长的延迟洪水

Rice cultivation by direct drilling and delayed flooding reduces methane emissions

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