Dynamics of soil water potential as a function of stand types in a temperate forest: Emphasis on flash droughts

IF 3.1 2区 农林科学 Q2 SOIL SCIENCE
Blandine Courcot , Daniel Lemire , Nicolas Bélanger
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引用次数: 0

Abstract

In the context of a changing climate and the increasing occurrences of extreme events, including droughts, field evidence, and models suggest that cases of forest decline and migration of tree species to more suitable climates will augment in the 21st century. In northeastern North America, an expansion of American beech at the expense of maples has been observed since the 1970s and has been associated to several causes. Through an analysis of time series leveraging thousands of data collected in a temperate forest in southern Quebec, Canada, dynamics of soil water potential were analyzed in interaction with soil temperature, meteorological variables and forest types, including hardwoods (mostly maple) with a large presence of beech trees (hardwood-beech stands), hardwoods (maple and birch) and mixedwoods (maple and fir). During flash drought events with a net precipitation deficit and water stress, the presence of beech led to a decrease in soil temperature and favored the maintenance of low soil water potential and faster restoration of water reserves compared to mixedwoods. Using machine learning-based approaches, distinct critical soil temperature thresholds in regard to water potential were identified for the various forest types, and the temporality in soil water regime changes was more favorable under hardwood-beech stands. The presence of beech appears to render greater resilience in regard to water stress in this forest. A greater capacity of beech to preserve and restore soil water not only offers an additional explanation for its establishment in hardwoods in the last decades, but greater water conservation in the presence of beech, assuming it remains in the landscape, could also help local plant species adapt to climate change and to the predicted increased water deficits, as well as species migrating northward to find more suitable environmental envelopes.

温带森林中土壤水势的动态变化与林分类型的关系:以山洪暴发为重点
在气候不断变化和包括干旱在内的极端事件不断增多的背景下,实地证据和模型表明,森林衰退和树种向更适宜的气候迁移的情况在 21 世纪将会增加。在北美洲东北部,自 20 世纪 70 年代以来,人们观察到美国山毛榉的扩展,而枫树则受到了影响,这与多种原因有关。通过对在加拿大魁北克省南部温带森林中收集的数千个数据进行时间序列分析,分析了土壤水势与土壤温度、气象变量和森林类型(包括含有大量榉树的硬木(主要是枫树)(硬木-榉树林)、硬木(枫树和桦树)以及混交林(枫树和冷杉))之间的相互作用动态。在净降水量不足和水资源紧张的山洪干旱事件中,与杂木林相比,榉树的存在导致土壤温度下降,有利于维持低土壤水势和更快地恢复水资源储备。利用基于机器学习的方法,确定了各种森林类型在水势方面不同的临界土壤温度阈值,在硬木-山毛榉林下,土壤水分机制变化的时间性更为有利。在这片森林中,山毛榉的存在似乎使其对水压力有更强的适应能力。榉树保护和恢复土壤水分的能力更强,这不仅为过去几十年中榉树在硬木林中的建立提供了额外的解释,而且假定榉树继续存在于景观中,榉树存在时更强的水源保护能力也有助于当地植物物种适应气候变化和预计会增加的缺水情况,以及向北迁移以寻找更合适环境的物种。
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来源期刊
Geoderma Regional
Geoderma Regional Agricultural and Biological Sciences-Soil Science
CiteScore
6.10
自引率
7.30%
发文量
122
审稿时长
76 days
期刊介绍: Global issues require studies and solutions on national and regional levels. Geoderma Regional focuses on studies that increase understanding and advance our scientific knowledge of soils in all regions of the world. The journal embraces every aspect of soil science and welcomes reviews of regional progress.
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