Planting forests may help offset our freshwater losses, but it depends where you are

Embargoed until: Publicly released: 2022-11-01 03:00

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Increases in vegetation cover over the last two decades have increased the availability of water across about 45% of Earth's surface, both in the re-vegetated areas and areas downwind from them, according to international scientists. They say this has offset around 15% of the freshwater we've lost in the same time period. However, the picture is not the same across the whole world, and they say increased vegetation has actually decreased water availability across 34% of Earth's surface in the vegetated areas themselves, but increased availability downwind of those areas. And across 8% of Earth's surface, increased vegetation has decreased water availability both in the vegetated areas and downwind of them. This geographical variation in the effects of increased vegetation on water availability must be taken into account when planning afforestation to tackle climate change, they conclude.

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From: Springer Nature

Plants boost global water availability

Increases in vegetation cover over the last two decades have enhanced global water availability, but the hydrological impacts are beyond the regions undergoing vegetation changes, according to a paper published this week in Nature Geoscience.

Vegetation cover across much of the world has changed substantially in recent years due to a combination of factors including afforestation (tree planting), deforestation, and the fertilization effect of rising atmospheric carbon dioxide. Plants play an important role in the water cycle through their influence on evapotranspiration and subsequent precipitation.

Jiangpeng Cui, Xu Lian, and colleagues show how vegetation changes between 2001 and 2018 have influenced surface water availability by combining atmospheric moisture tracking data with observations of precipitation and leaf area index — a measure of the amount of foliage in a given area. Globally, the authors find that recent changes in vegetation have increased water availability by around 0.26 mm per year, equivalent to 15% of the overall recent decline in global freshwater availability. However, on a regional scale, the response is variable as the recycled water vapour is transported elsewhere. The authors produce a map quantifying how an increase in plant cover at any given location would impact water availability. More vegetation increases both local and downwind water availability for about 45% of the global land surface, including central and eastern North America, Europe, and eastern China. For 34% of global land area, mainly in water-limited regions, increased vegetation reduces regional water availability but has a positive effect downwind. Increased vegetation reduces both regional and downwind water availability for 8% of the land surface, in regions such as western Canada, the southern Tibetan Plateau, and the northern Congo basin.

With widespread afforestation expected to play a key role in climate mitigation strategies, the authors argue it is important to understand how vegetation changes can impact the water cycle particularly in regions downwind, and inform future afforestation strategies.

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Journal/
conference: Nature Geoscience

Research:Paper

Organisation/s: Peking University, China

Funder: This study was supported by the Second Tibetan Plateau Scientific Expedition and Research (STEP) programme (grant no. 2019QZKK0208), the National Natural Science Foundation of China (41988101) and the VESRI LEMONTREE project (P-1-00381). C.H. was supported by the NERC National Capability Fund to UKCEH.

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