从临界带科学的角度看河流廊道

IF 2.6 Q2 WATER RESOURCES Frontiers in Water Pub Date : 2023-05-31 DOI:10.3389/frwa.2023.1147561
A. Wymore, A. Ward, E. Wohl, J. Harvey
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引用次数: 1

摘要

河流廊道整合了活跃河道、地貌泛滥平原和河岸区以及低水位带,同时接收来自高地和地下水的输入,并与大气交换质量和能量。在这里,我们从地貌、水文、生态学和生物地球化学的角度追溯了当代对河流走廊的理解的发展。然后,我们总结了沿多个轴线的河流走廊的当代模型,包括空间和时间维度、扰动状态、连通性、水化学交换流和人类的遗留影响。我们探索了如何在关键区域框架下推进河流走廊科学,将重点从基于流量的控制转向多因素模型,以确定主导过程和阈值,从而做出服务于社会的预测。然后,我们确定了调查大规模空间梯度和局部尺度过程之间关系的机会,接受河流过程是时间可变的和相互作用的,承认河流走廊过程和服务不尊重学科边界,越来越需要综合的多学科调查,并明确地将人类及其管理行动整合为河流走廊的一部分。我们打算通过我们的审查来促进跨学科研究,同时认识到河流走廊在地球表面占据着独特的地位。
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Viewing river corridors through the lens of critical zone science
River corridors integrate the active channels, geomorphic floodplain and riparian areas, and hyporheic zone while receiving inputs from the uplands and groundwater and exchanging mass and energy with the atmosphere. Here, we trace the development of the contemporary understanding of river corridors from the perspectives of geomorphology, hydrology, ecology, and biogeochemistry. We then summarize contemporary models of the river corridor along multiple axes including dimensions of space and time, disturbance regimes, connectivity, hydrochemical exchange flows, and legacy effects of humans. We explore how river corridor science can be advanced with a critical zone framework by moving beyond a primary focus on discharge-based controls toward multi-factor models that identify dominant processes and thresholds that make predictions that serve society. We then identify opportunities to investigate relationships between large-scale spatial gradients and local-scale processes, embrace that riverine processes are temporally variable and interacting, acknowledge that river corridor processes and services do not respect disciplinary boundaries and increasingly need integrated multidisciplinary investigations, and explicitly integrate humans and their management actions as part of the river corridor. We intend our review to stimulate cross-disciplinary research while recognizing that river corridors occupy a unique position on the Earth's surface.
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来源期刊
Frontiers in Water
Frontiers in Water WATER RESOURCES-
CiteScore
4.00
自引率
6.90%
发文量
224
审稿时长
13 weeks
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