城市树木截流:事件特征和树木形态特征

Markus Anys, Markus Weiler
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摘要

城市不透水地表的迅速扩大对城市水文产生了重大影响。雨水的入渗减少,水流得更快,径流峰值也更高。除了其他生态系统服务外,城市树木作为雨水管理工具在减少洪水风险方面正变得越来越重要。在德国弗莱堡(Freiburg)进行了挪威枫(Acer platanoides)和小叶石灰(Tilia cordata)的通流测量现场试验,以确定不同程度地表密封的城市树木的拦截能力。研究了降雨特征、树木形态特征和截留行为之间的关系。对2021年4月至9月期间的76次记录降雨事件进行了评估。小叶石灰的平均截留值(70.3±6.6%)高于挪威枫(54.8±10.3%),远高于典型森林环境。挪威枫的平均截留损失为2.58±0.60 mm,小叶石灰的平均截留损失为3.73±0.29 mm。两种树种的相对截留量均与降雨深度、叶面积指数(LAI)、植物面积指数(PAI)等因子呈显著的线性相关(adj.R >0.45)。与挪威枫相比,小叶酸橙的几个形态参数与截留量也有显著的关系(adj.R >0.43)。两树种的叶面积指数随地表封密程度显著降低,叶面积指数也影响截留。我们的研究结果可以更好地理解不同城市站点的孤立树拦截过程,并允许基于可测量属性的参数化拦截。但是,需要对不同树种进行进一步的实地试验,以获得模型中典型参数的更大数据库,并支持城市规划者管理雨水径流。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Rainfall interception of urban trees: event characteristics and tree morphological traits
The rapid expansion of impermeable surfaces in cities has a major impact on urban hydrology. Infiltration of rainwater is reduced and water runs off faster with higher runoff peaks. Urban trees as stormwater management tools are becoming more relevant to reduce flood risks in addition to other ecosystem services. An in-situ field experiment to measure throughfall on Norway maple ( Acer platanoides ) and small-leaved lime ( Tilia cordata ) was conducted to determine the interception of solitary urban trees with different degrees of surface sealing in the city of Freiburg, Germany. The relationships between rainfall characteristics, tree morphological traits, and the interception behavior were investigated with eight trees per species. 76 recorded rainfall events were evaluated from April to September 2021. Average interception values were higher for small-leaved lime (70.3 ± 6.6%) than for Norway maple (54.8 ± 10.3%) and hence much higher than in a typical forested environment. The average interception loss of all recorded events was 2.58 ± 0.60 mm for Norway maple and 3.73 ± 0.29 mm for small-leaved lime. For both tree species, significant linear correlations were found between the relative interception and other factors like rainfall depths, the leaf area index (LAI), and the plant area index (PAI) (adj.R > 0.45). In contrast to Norway maple, small-leaved lime also showed significant relationships of several tree morphological parameters with the interception (adj.R > 0.43). LAI, which also effects the interception, of both tree species significantly decreased with the degree of surface sealing. Our results provide a better understanding of the interception process of solitary trees for different urban sites and allows to parameterize interception based on measurable properties. However, further field experiments with various tree species need to be conducted to obtain a larger database for typical parameters in models and to support urban planners in managing stormwater runoff.
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