中文关键词
盐碱土壤不同盐碱程度碳汇CH4吸收电导率 英文关键词saline-alkaline soilsdifferent saline-alkalinecarbon sinkCH4 uptakeelectrical conductivity |
作者 | 单位 | E-mail | 杨文柱 | 内蒙古师范大学化学与环境科学学院, 内蒙古节水农业工程研究中心, 呼和浩特 010022 内蒙古师范大学化学与环境科学学院, 内蒙古自治区环境化学重点实验室, 呼和浩特 010022 | yangwzh@imnu.edu.cn | 焦燕 | 内蒙古师范大学化学与环境科学学院, 内蒙古自治区环境化学重点实验室, 呼和浩特 010022 | jiaoyan@imnu.edu.cn | 杨铭德 | 内蒙古师范大学化学与环境科学学院, 内蒙古自治区环境化学重点实验室, 呼和浩特 010022 | | 温慧洋 | 内蒙古师范大学化学与环境科学学院, 内蒙古自治区环境化学重点实验室, 呼和浩特 010022 | |
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中文摘要 |
土壤盐碱化严重威胁土地可持续利用和温室气体排放.本研究选择内蒙古河套灌区3种盐碱土壤[S1:盐化土壤,电导率(EC)4.80 dS·m-1;S2:强度盐碱土壤,电导率(EC)2.60 dS·m-1;S3:轻度盐碱土壤,电导率(EC)0.74 dS·m-1].利用静态暗箱法野外原位观测研究盐碱土壤甲烷(CH4)吸收规律.结果表明,不同盐碱程度土壤CH4吸收每年均存在显著差异,2014年生长季(F=18.0,P<0.001),2015年生长季(F=23.6,P<0.001)和2016年生长季(F=28.4,P<0.001).轻度盐碱土壤CH4累积吸收量最高,盐化土壤累积吸收量最低.随土壤盐碱程度加重,土壤CH4累积吸收量降低.轻度盐碱土壤CH4累积吸收量在2014~2016年3个生长季(4~10月)分别为150.0、119.6和99.9 mg·m-2;重度盐碱土壤CH4累积吸收量比轻度盐碱土壤分别降低27%、28%和19%;盐化土壤CH4累积吸收量比轻度盐碱土壤分别降低35%、35%和53%.冗余分析表明,盐碱土壤CH4吸收通量与土壤EC的投影在第一主成分轴正方向和反方向,土壤EC越高,CH4吸收通量越低.土壤电导率EC是调控盐碱土壤CH4吸收的关键因子,相关系数r为-0.8809(P<0.01,n=9). |
英文摘要 |
Soil salinization poses a great threat to sustainable land use and the limitation of greenhouse gas emissions. In this study, three saline alkali soils, saline soil[electrical conductivity (EC) 4.80 dS·m-1], high saline-alkaline soil (EC 2.60 dS·m-1), and low saline-alkaline soil (EC 0.74 dS·m-1) in the Hetao Irrigation District of Inner Mongolia were selected as research plots. Field experiments were conducted to study the uptake of methane (CH4) in the crop-growing season (April-October) for three years (2014-2016) using the static box method. There were significant differences in the soil CH4 uptake among the soil types in 2014 (F=18.0, P<0.001), 2015 (F=23.6, P<0.001), and 2016 (F=28.4, P<0.001). The uptake of CH4 by the soil decreases with increasing soil salinity. The accumulated CH4 uptake was 150.0 mg·m-2, 119.6 mg·m-2, and 99.9 mg·m-2 in the low saline-alkaline, high saline-alkaline, and saline soil in 2014, respectively. The cumulative uptake of CH4 was 27%, 28%, and 19% lower in the high saline-alkaline soil and 35%, 35%, and 53% lower in the saline soil than in the low saline-alkaline soil in 2014, 2015, and 2016, respectively. Redundancy analysis shows that the projection of the CH4 uptake flux and EC of saline-alkaline soil are in the positive direction, and in the opposite direction to the first principal component axis. The higher the soil EC, the lower the CH4 uptake flux. Soil EC was found to be the key factor controlling the uptakes of CH4, with a correlation coefficient (r) of -0.8809 (P<0.01, n=9). |
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