Deeper topsoils enhance ecosystem productivity and climate resilience in arid regions, but not in humid regions

Deeper topsoils enhance ecosystem productivity and climate resilience in arid regions, but not in humid regions

Understanding the controlling mechanisms of soil properties on ecosystem productivity is essential for sustaining productivity and increasing resilience under a changing climate. Here we investigate the control of topsoil depth (e.g., A horizons) on long‐term ecosystem productivity. We used nationwi...

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Veröffentlicht in:Global change biology 2023-12, Vol.29 (23), p.6794-6811
Hauptverfasser: Zhang, Yakun, Desai, Ankur R., Xiao, Jingfeng, Hartemink, Alfred E.
Format: Artikel
Sprache:eng
Schlagworte:
Agricultural land
Arid regions
Arid zones
Climate adaptation
Climate change
Climate change adaptation
climate extremes
Coefficients
Confidence intervals
Depth
Ecosystem resilience
Ecosystem services
Ecosystems
Grasslands
gross primary production
Pasture
Primary production
Productivity
Regions
Resilience
Shrublands
Soil depth
Soil improvement
Soil properties
Soil types
Soils
Statistical analysis
Structural equation modeling
Topsoil
Water availability
Water depth
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Zusammenfassung:Understanding the controlling mechanisms of soil properties on ecosystem productivity is essential for sustaining productivity and increasing resilience under a changing climate. Here we investigate the control of topsoil depth (e.g., A horizons) on long‐term ecosystem productivity. We used nationwide observations (n = 2401) of topsoil depth and multiple scaled datasets of gross primary productivity (GPP) for five ecosystems (cropland, forest, grassland, pasture, shrubland) over 36 years (1986–2021) across the conterminous USA. The relationship between topsoil depth and GPP is primarily associated with water availability, which is particularly significant in arid regions under grassland, shrubland, and cropland (r = .37, .32, .15, respectively, p 
ISSN:1354-1013
1365-2486
DOI:10.1111/gcb.16944