Forest Hydrology: Processes, Management and Assessment 2016
DOI: 10.1079/9781780646602.0240
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Applications of forest hydrological science to watershed management in the 21st century.

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Cited by 5 publications
(6 citation statements)
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“…We recommend that strategies for watershed management are more likely to be successful if they adopt risk‐based assessments of a range of future senarios and include regular updating (Golladay et al, ). It is likely that the simultaneous effects of LULC and CCs will impact critical water supplies before many of the model uncertainties, particularly for precipitation projections, will be resolved; therefore, planning will need to incorporate risk (Vose, Martin, & Barten, in press). The complexities of LU and CCs are likely to result in a range of possible futures across ecosystem processes, including productivity, carbon, and nutrient cycling, as vegetation responds to multiple factors of change and increased variability.…”
Section: Discussionmentioning
confidence: 99%
“…We recommend that strategies for watershed management are more likely to be successful if they adopt risk‐based assessments of a range of future senarios and include regular updating (Golladay et al, ). It is likely that the simultaneous effects of LULC and CCs will impact critical water supplies before many of the model uncertainties, particularly for precipitation projections, will be resolved; therefore, planning will need to incorporate risk (Vose, Martin, & Barten, in press). The complexities of LU and CCs are likely to result in a range of possible futures across ecosystem processes, including productivity, carbon, and nutrient cycling, as vegetation responds to multiple factors of change and increased variability.…”
Section: Discussionmentioning
confidence: 99%
“…The forestry community is facing large global environmental and socioeconomic challenges, such as climate change and urbanization, to meet the ever increasing demand for ecosystem services from forest ecosystems. Traditional watershed management is facing new challenges as rapid and compounded environmental, economic, and social change contribute to an increasingly uncertain future [19]. Our knowledge of ecohydrological response to extreme stressors (e.g., drought) is lacking, so current modeling tools may be insufficient to project the impacts of climate change on ecosystem functions at the scales needed in forest management.…”
Section: Discussionmentioning
confidence: 99%
“…One of the most observable changes is hydrologic intensification: the increased frequency of hydrologic extremes such as low and high flows. For example, studies have detected both decreasing and increasing flows in the southern U.S. and the changes were attributed, at least in part, to greater precipitation variability [19]. While changes in annual mean (or totals) values in metrics such as streamflow and groundwater recharge are important, a greater challenge is posed by changes in hydrologic extremes.…”
Section: Emerging Global Environmental Threats To Forest Water Resourcesmentioning
confidence: 99%
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“…; semi-ring porous) and fourfold greater than for oaks (Quercus spp. ; ring porous xylem) [65]. The combination of shallow groundwater and high available energy in the Atlantic coastal plain region results in high ET rates [61].…”
Section: Groundwater Extractionmentioning
confidence: 99%