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保护性耕作下土壤水分变化特征模拟研究

Simulation on Variation Characteristics of Soil Water Content under Conservation Tillage

  • 摘要: 为了对陇中黄土高原沟壑区不同保护性耕作措施下的土壤含水率进行差异性分析,利用长期定位试验,设置春小麦/豌豆、豌豆/春小麦轮作序列下传统耕作、免耕、传统耕作秸秆覆盖和免耕覆盖4种耕作措施以当地月平均气温、月降水量、月平均辐射量、月平均蒸发量、月作物耗水量作为输入,以0~200 cm土层土壤含水率作为输出建立基于长短期记忆(Long short-term memory,LSTM)神经网络的土壤含水率预测模型并对模型的有效性进行评估然后利用该模型模拟4种耕作措施下0~200 cm土层土壤含水率的动态变化过程。结果表明基于LSTM神经网络建立的土壤含水率模型对陇中黄土高原沟壑区保护性耕作下土壤含水率预测具有较好的适用性其模拟值与实测值的平均均方根误差为2.29%、平均相对误差为6.79%、平均决定系数为0.82。豌豆/春小麦轮作序列中4种耕作措施下的土壤含水率比春小麦/豌豆轮作序列的土壤含水率增加1.49%、1.61%、1.69%和1.76%,4种耕作措施下0~200 cm土层的土壤含水率由大到小依次为:免耕覆盖、免耕、传统耕作秸秆覆盖、传统耕作免耕覆盖下的土壤含水率分别比免耕、传统耕作秸秆覆盖和传统耕作增加1.27%、1.75%和2.81%。免耕覆盖对0~30 cm土层土壤含水率的影响最为显著其土壤含水率分别比免耕、传统耕作秸秆覆盖和传统耕作平均增加1.60%、2.63%和4.18%。4种耕作措施下的土壤含水率随季节发生变化免耕覆盖下的土壤含水率整体高于其他3种耕作措施且在作物生长前期的蓄水保墒效果更加显著。研究区豌豆/春小麦轮作序列中4种耕作措施的土壤含水率相对较高,而不同耕作措施下免耕覆盖更有利于提高该地区农田土壤水分为陇中黄土高原沟壑区最适宜的耕作方式。

     

    Abstract: Long-term positioning experiment was used to set up four sorts of tillage measures(traditional tillage,no-tillage,traditional tillage straw mulching and no-tillage with straw cover) for the rotation sequence of spring wheat/pea and pea/spring wheat.The monthly precipitation,monthly average radiation,monthly average evaporation,and monthly crop water consumption were used as input factors,and monthly average soil water content was used as an output to establish a prediction model of soil water content based on long short-term memory(LSTM) neural network,and the validity of the model was evaluated to analyze the differences of soil water content effect of different conservation tillage measures in the Loess Plateau gully region of central Gansu,then the model was applied to simulate the dynamics of the soil water content under four tillage measures in the 0~200 cm soil layer.The results demonstrated that the soil water model based on LSTM neural network had good applicability for predicting soil water content under conservation tillage in the Loess Plateau gully region of central Gansu,the average root mean square error,mean relatively error and determination coefficient of the model were 2.29%,6.79%and 0.82,respectively.In pea/spring wheat rotation sequence,the soil water content of four treatments was increased by 1.49%,1.61%,1.69% and 1.76%,respectively,compared with spring wheat/pea,the descending order of soil water content of the four tillage measures was as follows:no-tillage with straw cover,no-tillage,traditional tillage straw mulching,and traditional tillage in 0~200 cm soil layer,the average soil water content of no-tillage with straw cover was increased by 1.27%,1.75% and 2.81%,respectively,compared with no-tillage,traditional tillage straw mulching,and traditional tillage.The no-tillage with straw cover had the most significant effect on soil water content in 0~30 cm soil layer,the average soil water content of no-tillage with straw cover was increased by 1.60%,2.63% and 4.18%,respectively,compared with no-tillage,traditional tillage straw mulching,and traditional tillage.Soil water content of four tillage measures was changed with seasons,but the soil water content effect of no-tillage with straw cover was better than that of the other three tillage measures,the effects of water storage and soil moisture conservation were more significant during pre-crop growth.The LSTM neural network model achieved good simulation results on the soil water content in the Loess Plateau gully region of central Gansu,the soil water content of four tillage measures in the pea/spring wheat rotation sequence was relatively higher,no-tillage with straw cover was beneficial to improve the soil water content of farmland in the study area the under four tillage measures,and the most suitable one was conservation tillage measure in the Loess Plateau gully region of central Gansu.

     

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