Does thinning affect litterfall, litter decomposition, and associated nutrient release in<i>Acacia mangium</i>stands of Kerala in peninsular India?

Litter plays a vital role in the nutrient cycling of plantations and agroforests. Silvicultural interventions can alter litter production and decay rates, thereby varying nutrient fluxes. We evaluated the effect of various thinning densities on litter dynamics of 9-year-old Acacia mangium Willd. stands. To quantify litterfall, we placed traps at four random grid points in 24 plots in which none, one-third, one-half, or two-thirds of stems had been removed. In each plot, 48 litterbags were also placed to evaluate litter decay. Annual litterfall ranged from 5.73 (two-thirds thinning) to 11.18 Mg·ha −1 (unthinned) and showed a significant linear relationship to basal area (p &lt; 0.0001). Nitrogen (N), phosphorus (P), and potassium (K) concentrations were highest during the wet season, when litterfall production was low, implying an inverse relationship between litterfall quality and quantity. The highest annual N, P, and K additions (82.9, 3.3, and 71.9 kg·ha −1 , respectively) occurred in the unthinned stands. High thinning intensities resulted in accelerated decay rates, which we attribute to changes in microenvironment. Soil N concentrations were highest in the one-half thinning treatment, followed by the two-thirds treatment, signifying a trade-off between litterfall production and decay. The highest soil organic C concentrations were in the unthinned stands, reflecting the potential of high stand densities for promoting C sequestration.

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