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小麦/玉米套作田棵间土壤蒸发的数学模拟
其他题名Mathematical simulation of soil evaporation from wheat/maize
王自奎; 吴普特; 赵西宁; 王玉宝; 高莹
2013
发表期刊农 业 工 程 学 报
卷号29期号:21页码:72-10
摘要 为了探明小麦/玉米套作条件下棵间土壤蒸发规律及内在机制,该文将Ritchie模型和间套作群体光能传输模型结合起来模拟了小麦/玉米套作田的棵间土壤蒸发,并用2012年和2013年微型蒸渗仪的实测值对该方法进行了验证。结果表明,2 a模拟值和实测值的变化趋势都非常一致。与实测蒸发相比,该文所建模型2012年模拟结果的均方根误差为0.447 mm/d,平均绝对误差为0.331 mm/d,分别比原Ritchie模型降低16.8%和20.8%。在实测数据的88 d,累计实测蒸发量为107.2 mm,而模型的模拟值为100.5 mm,仅低估实测值6.7%。在2013年实测数据的68 d,累计实测蒸发量为83.1 mm,而模型的模拟值为73.7 mm,低估11.3%。模拟值与实测值的均方根误差和平均绝对误差分别为0.465和0.333 mm/d,略大于2012年。套作群体根系层水量平衡分析结果表明,小麦/玉米套作系统整个生育期土壤蒸发占总蒸发蒸腾的比例高达41.1%,故有必要在该套作农田实施秸秆覆盖等农艺措施,以减少棵间土壤蒸发,提高土壤水分的利用效率。该研究成果可为小麦套作种植模式下田间水分管理提...
其他摘要Soil evaporation is one of the most important components of crop field water balances, especially in
arid and semiarid environments where soil evaporation can be prominent due to incomplete cover. Understanding
and reducing this part of water consumption is important, since it can not be used by a crop. The effects of a crop
and of crop management on this water loss from the soil have been estimated in the past using combinations of
field measurement and simple models, but few works have been done for the wheat/maize intercropping system,
which is a commonly practiced planting pattern in arid and semiarid areas of China due to its high productivity.
The primary objects of this were to develop a mathematic model that was suitable for the intercropping system
and then use this model for analyzing the soil evaporation from a wheat/maize intercropping field. The Ritchie
model has been successfully applied to simulate soil evaporation from different kinds of sole crop fields. In this
study, the Ritchie model and specific light transmission models were combined together to simulate the soil
evaporation from an intercropping system. The performance of the models was evaluated with micro-lysimeter
measured values. Soil evaporation data from two dry circles of bare soil after rain and irrigation were used to
calculate the parameter αof the Ritchie model and a value of 4.62 was derived. The parameter U was set as 9
mm according to the soil hydraulic properties. Results showed that during the 2012 growing season, the estimated
soil evaporation with the new model showed almost the same trend as the measured values, and they had a
correlation coefficient of 0.705 with the measured ones. During the 88 days that had measured soil evaporation,
the total measured value was 107.2 mm, while the total simulated value was 100.5 mm, which revealed that the
models only underestimated the measured values by 6.7%. The root mean square error and mean absolute error of
the modeled values from the measured ones were 0.447 mm/d and 0.331 mm/d respectively. If the original Richie
model was used, the root mean square error and mean absolute error of the modeled values from the measured
ones would be 0.537 mm/d and 0.418 mm/d, which were 16.8% and 20.8% higher than the refined model. During
the 2013 growing season, the total measured value was 83.1 mm, while the total simulated value was 73.7 mm,
which revealed that the models underestimated the measured values by 11.3%. The root mean square error and
mean absolute error of the modeled values from the measured ones were 0.465 mm/d and 0.333 mm/d , which are
slightly higher than that of 2012. These results demonstrated the superiority of the model developed here. Analysis
of the soil root zone water balance showed that total actual evapotranspiration of the intercropping system was
485.9 mm. The soil evaporation calculated from the new model throughout the growing season was 199.7 mm,
which accounted for as much as 41.1% of the actual evapotranspiration across the whole intercropping season.
This value was very significant and could cause a large waste of water. The results of this study implied that some
evaporation reducing actions should be applied to improve water use efficiency of this intercropping system. The
results of this paper will provide some theoretical basis for the water management of a wheat/maize intercropping
field and the methods provided here can also be applied to other intercropping systems.
关键词作物 Crops 土壤 Soils 蒸发 Evaporation 小麦/玉米套作 Wheat/maize Intercropping Ritchie模型 Ritchie Model 河套灌区 Hetao Irrigation District
语种中文
文献类型期刊论文
条目标识符sbir.nwafu.edu.cn/handle/361005/5527
专题水保所知识产出(1956---)
推荐引用方式
GB/T 7714
王自奎,吴普特,赵西宁,等. 小麦/玉米套作田棵间土壤蒸发的数学模拟[J]. 农 业 工 程 学 报,2013,29(21):72-10.
APA 王自奎,吴普特,赵西宁,王玉宝,&高莹.(2013).小麦/玉米套作田棵间土壤蒸发的数学模拟.农 业 工 程 学 报,29(21),72-10.
MLA 王自奎,et al."小麦/玉米套作田棵间土壤蒸发的数学模拟".农 业 工 程 学 报 29.21(2013):72-10.
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