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Abstract
Ongoing and future hydroclimatic changes have large environmental and societal impacts. In terrestrial ecosystems, these changes are usually described with the terms ‘wetter’ and ‘drier’, which refer to the change in the quantity and/or presence of water, either as water fluxes or stocks. We conducted a literature review of almost 500 recent climate change studies to quantitatively investigate the consistency of the use of these terms across disciplines, regarding the hydroclimatic variables they are related to. We found that although precipitation is prevalently used to describe ‘wetter’ and ‘drier’ conditions, many other variables are also used to refer to changes in water availability between research fields, pointing to a varied perspective on the use of these terms. Some studies do not define the terms at all. In order to facilitate meta-analyses across disciplines, we therefore highlight the need to explicitly state which hydroclimatic variables authors are referring to. In this way, we hope that the terms ‘wetter’ and ‘drier’ used in scientific studies are easier to relate to hydroclimatic processes, which should facilitate the application by authorities and policy makers.
Highlights
Ongoing and future hydroclimatic changes have large environmental and societal impacts
Confusion appears to be arising within the multidisciplinary climate change community because of the inconsistent use of the terms ‘wetter’ and ‘drier’ to describe changes in a broad range of hydroclimatic trends and their effects on ecosystems, agriculture, and water supply for societies [10,11,12,13]
For example if a given yearly amount of precipitation is confined to only winter months, it has very different implications for the ecosystem compared to if it would fall during summer, or within only a few days
Summary
Ongoing and future hydroclimatic changes have large environmental and societal impacts. Scoping review In order to shed light on the discrepant meanings of ‘wetter’ and ‘drier’ in climate change studies, we performed a literature review and investigated how different environmental research fields define those two words. According to our literature study, precipitation is the main variable that all research fields (except for ‘Geology’) use to define ‘wetter’ and ‘drier’ conditions (Fig. 1), either on its own or in combination with other variables.
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