Water availability is the central limiting factor for vegetation carbon allocation in semi-arid forests. However, the sensitivity of this relationship likely varies as a function of total tree cover and tree diversity. In the present study, a set of re-measured semiarid forest plots in India were analysed to test how sensitive biomass, productivity and soil organic carbon (SOC) accumulation were to variability in precipitation from plot-level and remote sensing solarinduced fluorescence (SIF) measurements. Variability in mean precipitation at zones I and II impacted tree density, recorded as 150 and 400 trees ha–1 respectively. Results show that low tree cover plots had lower woody biomass NPP (NPPwood) and lower SIF sensitivity to inter-annual variation of precipitation. Increment in NPPwood over a five-year period was significantly smaller (P < 0.05) in zone I (0.21 Mg ha–1 year–1, CI95, 0.14–0.28) than at zone II (2.44 Mg ha–1 year–1, CI95, 1.43–3.45). Mean annual SOC increment at 0–5 cm depth varied between 0.13 and 0.75 Mg ha–1 year–1 across the study area. Results highlight the importance of tree cover diversity in modulating the response of semi-arid forests to carbon storage across a precipitation gradient.
Keywords
Annual Rainfall, Carbon Storage, Precipitation Variability, Semi-arid Forest, Tree Cover And Diversity.
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