Litcius/Paper detail

Balancing Water Yield and Water Use Efficiency Between Planted and Natural Forests: A Global Analysis

Shulan Sun, Wenhua Xiang, Shuai Ouyang, Yanting Hu, Changhui Peng

2024Global Change Biology38 citationsDOIOpen Access PDF

Abstract

ABSTRACT Climate warming is projected to affect hydrological cycle in forest ecosystems and makes the forest–water relationship more controversial. Currently, planted forests are gaining more public attention due to their role in carbon sequestration and wood production relative to natural forests. However, little is known about how the global patterns and drivers of water yield and water‐use efficiency (WUE) differ between planted and natural forests. Here, we conduct a global analysis to compare water yield and WUE in planted and natural forests using 946 observations from 112 published studies. The results showed that global average water yield coefficient was 0.29 for planted forests and 0.34 for natural forests. Planted forests exhibited lower water yield coefficient ( p < 0.05) in three climatic regions (arid, dry subhumid, and humid regions), but higher ( p < 0.01) WUE only in arid region, compared with natural forests. Both water yield coefficient and WUE in planted forests were significantly lower ( p < 0.05) than that in natural forests for stand characteristic groups (stand density, average tree height, leaf area index [LAI], and basal area). Additionally, stand density within the ranging between 1000 to 2000 stem ha −1 can maximize the water yield and WUE in planted and natural forests. Water yield coefficient in planted forests was primarily controlled by the factors related to tree growth (i.e., tree height, DBH), while that of natural forest mainly affected by stand structure (i.e., LAI, stand density, DBH). WUE in planted forest was more sensitive to climate than in natural forests. This work highlights the critical role of natural forests in water supply and the importance of tree species selection and stand management (e.g., stand density adjustment) in plantations in future forest restoration policies and climate change mitigation.

Topics & Concepts

Water-use efficiencyEnvironmental scienceBasal areaAridAgroforestryLeaf area indexAgronomyWater useYield (engineering)ForestryGeographyEcologyBiologyIrrigationMaterials scienceMetallurgyPlant Water Relations and Carbon DynamicsHydrology and Watershed Management StudiesSoil erosion and sediment transport
Balancing Water Yield and Water Use Efficiency Between Planted and Natural Forests: A Global Analysis | Litcius