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    胡杨根系水力再分配的模式、大小及其影响因子

    Patterns, magnitude and controlling factors of hydraulic redistribution by Populus euphratica roots.

    • 摘要: 作为一种重要的生态过程,阐明水力再分配的模式、大小和影响因子是理解其生态水文效应的前提。选取黑 河下游荒漠河岸林主要建群种胡杨为研究对象,采用热比率法辨识胡杨根系水力再分配模式,量化水力再分配大 小和影响因子。结果表明:胡杨不仅具有向上的水力提升,在降水条件下,也具有逆向水力提升,即水力下传或叶 片吸收。同时,在河道灌水条件下也具有侧向再分配功能。胡杨单个根系水力再分配的大小在0.16 ~ 0.26 kg/ d 之间,平均为0.21 kg/ d,占第2 天蒸腾的比例为38.75%。相关分析和逐步回归分析表明:水力再分配大小与水汽 压差、气温、土壤含水量呈显著正相关,而与相对湿度呈显著负相关,其中水汽压差与土壤含水量是影响胡杨根系 水力再分配大小的主导因子。

       

      Abstract: As an important ecological process, it is fundamental for understanding the eco-hydrological consequences of hydraulic redistribution to illuminate its patterns, magnitude and controlling factors. We selected Populus euphratica, which of constructive species located at the lower reaches of Heihe River in northwestern China, to identify patterns and quantize the magnitude and controlling factors of hydraulic redistribution by the heat ratio method. We not only confirmed the previous knowledge on hydraulic lift, in which rates of flow in lateral roots of P. euphratica were negative during the night, but also demonstrated that water can transport from moist topsoil to dry subsoil after rain, i. e. hydraulic descent. In addition, water also moved from lateral moist soil layer to opposite dry soil layer after lateral irrigation, i. e. lateral redistribution. The magnitude of hydraulic redistribution of P. euphratica roots based on negative sap flow in lateral roots ranged from 0.16 to 0.26 kg/ day with an average of 0.21 kg/ day, which can accounts for 38.75% of transpiration of the next day. The correlation and stepwise regression analysis demonstrated that hydraulic redistribution was significantly positive correlated with vapor pressure deficit, air temperature and soil moisture content, instead negative correlation with relative humidity, in which vapor pressure deficit and soil moisture content were main controlling factors of hydraulic redistribution.

       

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