生物地球化学和群落生态学对非常年溪流湿润的反应

Adam Nicholas Price, Margaret Ann Zimmer, Anna Bergstrom, Amy Jo Burgin, Erin Cedar Seybold, Corey Anne Krabbenhoft, Sam Zipper, Michelle Hope Busch, Walter Kennedy Dodds, Annika Walters, Jane Sarah Rogosch, Rachel Stubbington, Richard Harry Walker, James Christian Stegen, Thibault Datry, Mathis Messager, Julian Olden, Sarah Elizabeth Godsey, Margaret Shanafield, David Lytle, Ryan Burrows, Kendra Elena Kaiser, George Henry Allen, Meryl Christine Mims, Jonathan Douglas Tonkin, Michael Bogan, John Christopher Hammond, Kate Boersma, Allison Nicole Myers-Pigg, Amanda DelVecchia, Daniel Allen, Songyan Yu, Adam Ward
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引用次数: 0

摘要

干湿水文状态之间的过渡是构成全球大部分河流网络的非多年河流和溪流的显著特征。尽管过去的工作主要集中在溪流干涸的特征上,但对溪流湿润时水文、生态学和生物地球化学如何反应和相互作用的关注较少。湿润机制千变万化,可以是剧烈的洪水和泥石流,也可以是地下水上涌造成的逐渐饱和。这种湿润的变化会影响生态和生物地球化学功能,包括养分处理、沉积物迁移和生物群落的组合。在此,我们综合了有关证据,描述了不同类型湿润机制的水文机制、相关的生物地球化学和生物反应,以及对下游生态系统的潜在科学和管理影响。这种对非多年生溪流湿润动态的多学科综合理解将成为预测和管理气候变化对非多年生生态系统影响的关键。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Biogeochemical and community ecology responses to the wetting of non-perennial streams

Biogeochemical and community ecology responses to the wetting of non-perennial streams

Biogeochemical and community ecology responses to the wetting of non-perennial streams
Transitions between dry and wet hydrologic states are the defining characteristic of non-perennial rivers and streams, which constitute the majority of the global river network. Although past work has focused on stream drying characteristics, there has been less focus on how hydrology, ecology and biogeochemistry respond and interact during stream wetting. Wetting mechanisms are highly variable and can range from dramatic floods and debris flows to gradual saturation by upwelling groundwater. This variation in wetting affects ecological and biogeochemical functions, including nutrient processing, sediment transport and the assembly of biotic communities. Here we synthesize evidence describing the hydrological mechanisms underpinning different types of wetting regimes, the associated biogeochemical and organismal responses, and the potential scientific and management implications for downstream ecosystems. This combined multidisciplinary understanding of wetting dynamics in non-perennial streams will be key to predicting and managing for the effects of climate change on non-perennial ecosystems. This Perspective presents a wetting regime framework that is classified by dominant hydrologic mechanisms and highlights the resulting responses of stream biogeochemistry and community ecology.
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