滴头流量对土壤甲烷吸收扩散转化及马铃薯产量的影响
S274.3; 准确认识滴头流量对甲烷在土壤内部的扩散与氧化以及地表净吸收的调控作用,对于提高滴灌农田甲烷吸收潜力以减缓全球气候变化具有重要意义.该研究于2021年和2022年在甘肃武威开展田间试验,设置3个滴头流量(F1:1.3 L/h,F2:2.0 L/h,F3:3.0 L/h),探究不同土层甲烷的扩散与吸收及地表净吸收特征及对土壤环境因素的响应.结果表明:在0~40 cm 土层,F1处理甲烷平均扩散通量显著高于F2和F3,然而>40~60 cm 土层与此规律正好相反.F1处理的地表累积甲烷吸收量比F2和F3增加5.9%~13.8%.甲烷吸收主要发生在0~20 cm表层土壤,占到总吸收量的...
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| Published in | 农业工程学报 Vol. 40; no. 13; pp. 97 - 106 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | Chinese |
| Published |
中国农业大学中国农业水问题研究中心,北京 100083
01.07.2024
甘肃武威绿洲农业高效用水国家野外科学观测研究站,武威 733000%中国水利水电科学研究院,北京 100048 |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1002-6819 |
| DOI | 10.11975/j.issn.1002-6819.202311157 |
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| Abstract | S274.3; 准确认识滴头流量对甲烷在土壤内部的扩散与氧化以及地表净吸收的调控作用,对于提高滴灌农田甲烷吸收潜力以减缓全球气候变化具有重要意义.该研究于2021年和2022年在甘肃武威开展田间试验,设置3个滴头流量(F1:1.3 L/h,F2:2.0 L/h,F3:3.0 L/h),探究不同土层甲烷的扩散与吸收及地表净吸收特征及对土壤环境因素的响应.结果表明:在0~40 cm 土层,F1处理甲烷平均扩散通量显著高于F2和F3,然而>40~60 cm 土层与此规律正好相反.F1处理的地表累积甲烷吸收量比F2和F3增加5.9%~13.8%.甲烷吸收主要发生在0~20 cm表层土壤,占到总吸收量的72.1%~82.5%.与其他土壤环境因素相比,土壤孔隙含水率对土壤甲烷浓度影响最大,F1处理的表层土壤土壤孔隙含水率较低,有利于甲烷从大气进入土壤并向深层扩散,从而增加甲烷吸收量.此外,F1处理的马铃薯产量和灌溉水分利用效率较高.在滴灌管理中应考虑通过合理的滴头流量调控土壤湿润范围营造良好的土壤水分和通气性,以增加土壤甲烷汇的能力和马铃薯产量.研究结果可为滴灌农田土壤碳汇调控与马铃薯产量提升提供参考. |
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| AbstractList | S274.3; 准确认识滴头流量对甲烷在土壤内部的扩散与氧化以及地表净吸收的调控作用,对于提高滴灌农田甲烷吸收潜力以减缓全球气候变化具有重要意义.该研究于2021年和2022年在甘肃武威开展田间试验,设置3个滴头流量(F1:1.3 L/h,F2:2.0 L/h,F3:3.0 L/h),探究不同土层甲烷的扩散与吸收及地表净吸收特征及对土壤环境因素的响应.结果表明:在0~40 cm 土层,F1处理甲烷平均扩散通量显著高于F2和F3,然而>40~60 cm 土层与此规律正好相反.F1处理的地表累积甲烷吸收量比F2和F3增加5.9%~13.8%.甲烷吸收主要发生在0~20 cm表层土壤,占到总吸收量的72.1%~82.5%.与其他土壤环境因素相比,土壤孔隙含水率对土壤甲烷浓度影响最大,F1处理的表层土壤土壤孔隙含水率较低,有利于甲烷从大气进入土壤并向深层扩散,从而增加甲烷吸收量.此外,F1处理的马铃薯产量和灌溉水分利用效率较高.在滴灌管理中应考虑通过合理的滴头流量调控土壤湿润范围营造良好的土壤水分和通气性,以增加土壤甲烷汇的能力和马铃薯产量.研究结果可为滴灌农田土壤碳汇调控与马铃薯产量提升提供参考. |
| Abstract_FL | Methane is a powerful greenhouse gas with a global warming potential 34 times greater than carbon dioxide.The emitter flow rate,as a fundamental parameter of drip irrigation systems,controls the horizontal and vertical distribution of soil water,resulting in distinct soil wetting patterns.At the same time,the soil wetting pattern influences soil temperature,aeration,and the movement and transformation of nitrogen,all of which affect soil microbial activity and consequently methane uptake.Understanding the role of the emitter flow rate of drip irrigation in regulating the diffusion,oxidation and surface uptake of methane in the soil is crucial to increasing the potential of methane uptake in drip-irrigated croplands to mitigate global climate change.In this study,a two-year field experiment combining static chamber gas chromatography with the concentration gradient method was conducted in 2021 and 2022 in Wuwei,Gansu of China.Three drip irrigation flow rates(F1:1.3 L/h,F2:2.0 L/h,F3:3.0 L/h)were set to investigate the characteristics of methane diffusion,absorption,and surface net uptake in different soil layers and their responses to soil environmental factors.The results showed that soil methane concentrations decreased with increasing soil depth.There was no significant difference in the average surface methane concentration between treatments,and the average methane concentration in the 0-60 cm soil layer showed F3>F2>F1.The value in the F3 treatment was significantly higher than F1 by 11.9%in the 0-20 cm soil layer.The average methane concentration of F3 treatment was significantly higher than that of F2 and F1 treatments by 8.5%,26.8%(>20-40 cm soil layer)and 10.2%,19.1%(>40-60 cm soil layer),respectively.Average surface methane uptake fluxes were 85.4,80.2 and 78.5 μg g/(m-2 h)for F1,F2 and F3 treatments,respectively,and were significantly increased by 6.4%and 8.9%for F1 treatment compared to F2 and F3 treatments(P<0.05).The average methane diffusion flux in the 0-20 cm and>20-40 cm soil layers was significantly higher in the F1 treatment than in the F2 and F3 treatments,while the average methane diffusion flux in the 40-60 cm soil layer was significantly lower in the F1 treatment than in the F2 and F3 treatments.The cumulative methane uptake in the F1 treatment increased by 5.9%-13.8%compared to the F2 and F3 treatments,respectively.Methane uptake primarily occurred in the 0-20 cm soil layer,accounting for 72.1%-82.5%of the total uptake.Emitter flow rate had significant effects on soil water-filled pore space,soil oxygen concentration and nitrogen content(P<0.05).Among various soil environmental factors,soil water-filled pore space had the most significant influence on soil methane concentration.Cumulative surface methane uptake fluxes were significantly and positively correlated with cumulative methane diffusion fluxes(downward)in the 0-20 and>20-40 cm soil layers,and cumulative methane diffusion fluxes in the>20-40 cm soil layer were significantly positively correlated with the values in the 0-20 cm soil layer.Cumulative methane transformation fluxes in the 0-20 cm soil layer were significantly and positively correlated with cumulative methane diffusion fluxes in the 0-20 cm soil layer,and cumulative transformation fluxes in the>20-40 cm soil layer were significantly and positively correlated with cumulative diffusion fluxes in the 0-20 and>20-40 cm soil layers.The lower values of soil water-filled pore space in the surface soil of the Fl treatment facilitated the entry of methane from the atmosphere into the soil and its diffusion into deeper layers,thereby increasing methane uptake.In addition,the potato yield and irrigation water use efficiency under F1 treatment were relatively highest.Soil methane uptake,diffusion,and transformation were influenced by soil water distribution.Therefore,it should be considered to regulate the soil wetting area through an appropriate emitter flow rate to enhance the soil methane sink capacity and potato yield in the drip irrigation management.The results can provide a valuable information for soil carbon sinks and potato yield improvement in drip irrigated soils. |
| Author | 杨开静 赵健宇 王凤新 |
| AuthorAffiliation | 中国农业大学中国农业水问题研究中心,北京 100083;甘肃武威绿洲农业高效用水国家野外科学观测研究站,武威 733000%中国水利水电科学研究院,北京 100048 |
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| Author_FL | WANG Fengxin ZHAO Jianyu YANG Kaijing |
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| DOI | 10.11975/j.issn.1002-6819.202311157 |
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| DocumentTitle_FL | Effects of emitter flow rates of drip irrigation on methane uptake,diffusion,transformation in the soil and potato yield |
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| Keywords | 土壤水分 diffusion 碳 流量 soil moisture 扩散 carbon methane 甲烷 滴头 emitter flow rate |
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| Snippet | S274.3; 准确认识滴头流量对甲烷在土壤内部的扩散与氧化以及地表净吸收的调控作用,对于提高滴灌农田甲烷吸收潜力以减缓全球气候变化具有重要意义.该研究于2021年和2022年... |
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| Title | 滴头流量对土壤甲烷吸收扩散转化及马铃薯产量的影响 |
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