晋西黄土区苹果大豆间作系统 果树遮阴强度的时空分布

doi:10.16843/j.sswc.2019.02.008

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摘要农林复合是晋西黄土区重要的水保经济林经营方法，苹果大豆间作系统是其中最常见的一种，定量解析苹果大豆间作系统遮阴强度的时空动态分布特征及其规律，可以为基于光环境的果农间作系统配置模式提供一定的理论基础，为晋西黄土区水土保持工作与农业可持续发展做出贡献。本研究以晋西黄土区5年生苹果与大豆的间作系统为研究对象，通过定位监测和数学分析相结合的研究方法对间作系统中果树遮阴强度的时空分布及其对大豆的影响进行研究。根据光合有效辐射实测值绘出遮阴强度的单日变化图表和生长期变化图分析出遮阴强度的时空分布规律以及与大豆产量的相关程度。结果表明：1）苹果大豆间作系统内遮阴强度从果树中心位置向四周递减，树行北侧、南侧平均遮阴强度分别为0.29和0.22，果树西侧、东侧平均遮阴强度分别为0.26和0.24；2）间作作物在结荚期、开花期及苗期等不同物候期的日平均遮阴强度分别为0.28、0.17和0.14；3）试验样区大豆生物量和产量分布也表现为从4角果树位置向试验区中心位置递增，果树遮阴强度与大豆的生物量和产量显著负相关且结荚期遮阴强度对产量影响最大。为了有效缓解苹果大豆间作系统的种间光竞争，大豆应集中种植在间作系统的中心区域，同时苹果树行的北侧和西侧的种植量应略小于苹果树行的南侧和东侧的种植量。此外，在大豆的结荚期可以采用铺设反光膜等增加林下光合有效辐射的农艺措施来增加大豆的产量。

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	彭瑞东
	毕华兴
	郭孟霞
	孙于卜
	段航旗
	王晶晶

关键词 ：果农间作系统, 光合有效辐射, 遮阴强度, 晋西黄土区

Abstract：[Background] Agroforestry system is one of the important soil and water conservation measures in the loess hilly area of western Shanxi. Apple-soybean intercropping system is one of the most common agroforestry systems. Agroforestry can take into account economic benefits and benefits of soil and water conservation. Quantitative analysis of shading intensity of apple-soybean intercropping system and its spatial-temporal dynamic distribution characteristics may provide a theoretical basis for the configuration model of fruit-crop intercropping system based on light environment, and contribute to soil and water conservation and agricultural sustainable development in the loess region of western Shanxi.[Methods] An intercropping system of 5-year-old apple-soybean on the loess area of western Shanxi was studied. The spatial and temporal distribution of shading intensity and its impact on soybean were studied through a method combined by positional monitoring and mathematical analysis. The diurnal variation chart and the growth season variation diagram of the shading intensity were plotted based on the photosynthetically active radiation measured value, from which the correlation between the temporal and spatial distribution of shading intensity and soybean yield was analyzed.[Results] 1) The shading intensity of the apple-soybean intercropping system decreased from the center to the periphery. The average shading intensity on the north and south sides of the tree were 0.29 and 0.22, respectively; and the average shading intensity on the west and east sides of the tree were 0.26 and 0.24, respectively. 2) The average daily shading intensity of intercropped crops in pod-forming period, flowering and seedling period were 0.28, 0.17 and 0.14, respectively. 3) The biomass and yield distribution of soybean showed an increase from the position of the surrounding fruit trees to the center of the study area. The shading intensity of the fruit trees was significantly negatively correlated with the biomass and yield of soybeans, and also the shading intensity during the pod-forming stage had the greatest impact on yield.[Conclusions] To effectively mitigate the interspecific competition in apple-soybean intercropping systems, soybean should be planted in the central area of the intercropping system, and the planting amount in the north and west of the apple tree rows should be slightly less than that in the South and east of the apple tree rows. In addition, in the podding stage of soybeans, agronomic measures such as laying reflective film can be used to increase photosynthetic active radiation (PAR) under the forest to increase soybean yield.

Key words： fruit crop intercropping system photosynthetically active radiation shading intensity loess area of western Shanxi

收稿日期: 2018-07-10

PACS:

S157.4+31

基金资助:国家自然科学基金"果农间作系统林下太阳辐射时空分布及其对作物的影响"（31470638）；科技创新服务能力建设-科研基地建设-林果业生态环境功能提升协同创新中心（2011协同创新中心）（市级）（PXM2017_014207_000024）

通讯作者: 毕华兴(1969-),男,博士,教授,博士生导师。主要研究方向:林业生态工程。E-mail:bhx@bjfu.edu.cn E-mail: bhx@bjfu.edu.cn

作者简介: 彭瑞东(1994-),男,硕士研究生。主要研究方向:林业生态工程。E-mail:pzgddcl@163.com

引用本文:

彭瑞东¹, 毕华兴^1,2,3, 郭孟霞⁴, 孙于卜¹, 段航旗¹, 王晶晶¹. 晋西黄土区苹果大豆间作系统果树遮阴强度的时空分布[J]. 中国水土保持科学, 2019, 17(2): 60-69.
PENG Ruidong, BI Huaxing, GUO Mengxia, SUN Yubo, DUAN Hangqi, WANG Jingjing. Temporal and spatial distribution of the shading intensity of apple-soybean intercropping system in the loess area of western Shanxi. SSWC, 2019, 17(2): 60-69.

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http://journal12.magtechjournal.com/Jweb_stbc/CN/10.16843/j.sswc.2019.02.008 或 http://journal12.magtechjournal.com/Jweb_stbc/CN/Y2019/V17/I2/60

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