Elsevier

CATENA

Volume 208, January 2022, 105732
CATENA

Effects of global greening phenomenon on water sustainability

https://doi.org/10.1016/j.catena.2021.105732Get rights and content
Under a Creative Commons license
open access

Highlights

  • Vegetation growth contributes 85.4–90.5% of the increased water consumption.

  • 94.3–98.8% of global vegetation land are sustainable due to rising precipitation.

  • Unsustainable regions will continuously expand due to the greening world.

Abstract

The global vegetation cover is increasing and is expected continue increasing till 2100, owing to CO2 fertilisation and afforestation. This greening phenomenon may create conflicting demands for water between ecosystems, atmosphere, and humans, and has aroused a series of controversies. For exploring the effects of greening phenomenon on terrestrial water availability, we estimated the balance between water supply (precipitation and snowmelt runoff) and water consumption (evaporation, human water use, transpiration, and interception losses) in the global vegetation land based on the outputs of 30 models from the Coupled Model Intercomparison Project Phase 6. Water consumption showed an increasing trend in most regions of global vegetation land for the period 1982–2016 as well as 2040–2100, mainly driven by the increased transpiration and interception losses for vegetation growth (contributing 85.4–90.5%). Although the greening phenomenon widely exacerbates water shortages, 94.3–98.8% of the global vegetation land was still found to be sustainable during 1982–2100, due to the water supply exceeding the total water consumption. More attention should be paid to the unsustainable regions where the total water consumption exceeded the total water supply. Such areas were continuously found to increase from 2.1–5.3% (1982–2016) to 5.4–5.7% (2040–2100) of the global vegetation land. We predict that Oceania, Northern India, the southern coastal regions of North America will be transformed from sustainable regions in 1982–2016 to unsustainable regions in 2040–2100.

Keywords

Global vegetation cover
Evapotranspiration
Precipitation
Human water use
Soil water content
CMIP6

Cited by (0)

1

Yujiao Liu and Yuanfang Chai contribute equally to this paper and should be considered as co-first author.