Climate Change and Human-Induced Changes on Hydrological and Fluvial Process

A special issue of Hydrology (ISSN 2306-5338). This special issue belongs to the section "Hydrology–Climate Interactions".

Deadline for manuscript submissions: closed (29 February 2024) | Viewed by 1370

Special Issue Editors

Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, Beijing 100101, China
Interests: floods; channel deformation; climate change; sediment transport

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Guest Editor
School of Marine Science and Technology, Zhejiang Ocean University, Zhoushan 316022, China
Interests: watershed hydrological processes; riverbed evolution; estuarine dynamics; coastal and estuarine circulations; sediment transport processes of bays; modeling of coastal ocean processes; geographic infomation
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Special Issue Information

Dear Colleagues,

A large number of rivers worldwide are being hydromorphologically altered by climate- and human-induced changes. Additionally, climate-change- and human-induced changes are driving an increase in extreme events. This leads to greater occurrences of water hazard events such as droughts and floods. Due to the increase in large hydropower dams planned across the world, most of the river basins will be severely regulated. Rivers will adjust to disturbances in a very complex way.

This Special Issue aims to offer an appropriate avenue for discussing and disseminating recent developments in hydrological and fluvial processes, coming from students, researchers, and professionals working in careers linked to water.

For this Special Issue, papers reporting theoretical, field, laboratory, and numerical investigations on hydrological and fluvial processes are welcome.

Authors are encouraged to submit their manuscripts related to the following topics:

  • Hydrological processes;
  • Water related hazards under the global climate change;
  • Fluvial processes;
  • Human impacts on fluvial system;
  • Risk mitigation.

Dr. Li He
Prof. Dr. Biyun Guo
Prof. Dr. Ali A. Assani
Guest Editors

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Keywords

  • hydrological processes
  • fluvial processes
  • climate change
  • anthropogenic influence
  • floods and droughts
  • risk mitigation

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Published Papers (1 paper)

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Research

13 pages, 5994 KiB  
Article
Water Uptake by Mountain Big Sagebrush (Artemisia tridentata subsp. vaseyana) and Environmental Variables Affecting Water Availability in Semiarid Rangeland Ecosystems
by Carlos G. Ochoa, Mohamed A. B. Abdallah and Daniel G. Gómez
Hydrology 2024, 11(6), 85; https://doi.org/10.3390/hydrology11060085 - 19 Jun 2024
Viewed by 887
Abstract
The sagebrush steppe ecosystem plays a critical role in water cycling in arid and semiarid landscapes of the western United States; yet, there is limited information regarding individual sagebrush plant water uptake. We used the stem heat balance (SHB) method to measure transpiration [...] Read more.
The sagebrush steppe ecosystem plays a critical role in water cycling in arid and semiarid landscapes of the western United States; yet, there is limited information regarding individual sagebrush plant water uptake. We used the stem heat balance (SHB) method to measure transpiration in mountain big sagebrush (Artemisia tridentata subsp. vaseyana) plants in a semiarid rangeland ecosystem in central Oregon, Pacific Northwest Region, USA. We evaluated the relationship between sagebrush transpiration and environmental factors from July 2022 to May 2023 for two individual plants representative of the average sagebrush stand height and crown width at the study site; transpiration rates varied by plant and by season. This study encompassed one below-average (2022; 278 mm) and one above-average (2023; 414 mm) precipitation years. Study results showed that the average water use during the entire period of study was 2.1 L d−1 for Plant 1 and 5.0 L d−1 for Plant 2. During the dry year, maximum transpiration was observed during the summer (Plant 1 = 4.8 L d−1; Plant 2 = 11.1 L d−1). For the wet year, both plants showed maximum transpiration levels at the end of the recording period in mid-May (Plant 1 = 9.6 L d−1; Plant 2 = 8.6 L d−1). The highest seasonal transpiration of both plants occurred in summer (2.87 L d−1), whereas the lowest transpiration was obtained in winter (0.21 L d−1). For all seasons but winter, soil moisture (SM), soil temperature (ST), and vapor pressure deficit (VPD) variables generally showed positive correlations with transpiration. Transpiration rates decreased in the summer of 2022 as the surface soil gradually dried. The two plants’ most significant water uptake differences were obtained during the dry year. It is possible that the larger stem diameter of plant 2 may have contributed to its higher transpiration rates during times of limited water availability. The study results add to the understanding of water use by sagebrush and its potential impact on the water balance of cool-climate rangeland ecosystems. The findings also highlight the sensitivity of sagebrush to variations in seasonal soil moisture availability, soil temperature, and vapor pressure deficit. Future research should involve studying the combined effects of water use by various dominant vegetation species and its effects on the water budget at the watershed scale. Full article
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