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淮北平原杨-麦间作系统的小气候效应与土壤水分变化研究
引用本文:李俊祥,宛志沪. 淮北平原杨-麦间作系统的小气候效应与土壤水分变化研究[J]. 应用生态学报, 2002, 13(4): 390-394
作者姓名:李俊祥  宛志沪
作者单位:1. 华东师范大学环境科学系,上海,200036
2. 安徽农业大学农业学院,合肥,230061
基金项目:中国林业科学研究院“八五”科技攻关项目(85-02-13).
摘    要:对淮北平原的杨-麦间作系统的小气候效应与土壤水分的研究表明,在冬小麦发育的拔节期和灌浆期,林粮带状间作与对照地相比可以降低农田地面温度1-7℃,提高相对湿度2%-8%,农田日照时数减低量随间作为间距和时间而变化,在范围在4.1%-15.3%之间,农田林网可以提高相对湿度6.4%-11.6%,日照时数减少8.5%-11.75,农林 间作可以提高土壤含水率,幅度随间作密度而定,一般可提高含水率0.67%-3.875,农田林网的土壤含率与林带的方位和离林带的距离有关,在各个方位上均与离林带的距离呈显著负相关。

关 键 词:淮北平原杨 麦间作系统 小气候效应 土壤水分
文章编号:1001-9332(2002)04-0390-05
修稿时间:2000-02-17

Microclimatic effect and soil moisture change of poplar-wheat intercropping systems in Huaibei Plain
LIJunxiang,WAN Zhihu. Microclimatic effect and soil moisture change of poplar-wheat intercropping systems in Huaibei Plain[J]. The journal of applied ecology, 2002, 13(4): 390-394
Authors:LIJunxiang  WAN Zhihu
Affiliation:Department of Environment Science and Technology, East China Normal University, Shanghai 200062. junxiang-li@yahoo.com
Abstract:In this paper, the microclimatic effect and the soil moisture of poplar-wheat intercropping systems were studied. The results indicated that the strip intercropping, comparing with the contrast, could increase the relative humidity by 2-8%, decrease the surface temperature by 1-7 degrees C, and reduce wind speed. The illumination hours were decreased with the time and the distance between the rows, and the varying range was within 4.1-15.3%. In shelterbelt network, the relative humidity was increased by 6.4-11.6%, and the illumination hours were decreased by 8.5-11.7%. In strip intercropping, the intercropping systems could improve soil moisture, which was varied with the intensity of tree, and generally, the increase of soil moisture was about in a range of 0.67-3.87%. In shelterbelt network, the soil moisture was related to the orientation and the distance from the shelterbelt, and there existed negative correlation between the soil moisture and the distance in all orientations.
Keywords:Poplar-wheat intercropping systems  Microclimatic effect   Soil moisture.
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