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W4220793837 endingPage "108819" @default.
W4220793837 startingPage "108819" @default.
W4220793837 abstract "Natural tropical landscapes have been continuously altered by land use change and other climate factors. Forest management practices have transformed massive tropical forests into rubber plantations throughout mainland Southeast Asia and Southwest China. However, the effect of the forest-to-plantation conversion on ecosystem functions associated with plant litter is limited. Here, we compare litterfall production, decomposition, nutrient return and nutrient use efficiency between a tropical natural forest (TNF) and a monoculture rubber plantation (MRP) in Xishuangbanna (China) over three years. Annual mean litterfall production was significantly higher in TNF (10.92 Mg ha−1 yr−1) than in MRP (5.23 Mg ha−1 yr−1). Production of leaf litter was positively correlated to that of total litterfall, suggesting that leaf litter could be reliably estimated from total litterfall. Temperature and solar radiation are dominant drivers of seasonal variation of litterfall production. The litterfall production was more sensitive to climate variables in MRP. The average stand litter and the decomposition quotient were 1.8 and 1.2 times greater in TNF than in MRP, respectively. The total nutrient return to the forest floor was 2.1 times higher in TNF (5.66 Mg ha−1 yr−1) than in MRP (2.76 Mg ha−1 yr−1); the return of each mineral element was significantly lower in MRP relative to TNF. The nutrient return preferentially occurred during the cold and dry seasons, which was consistent with the trend of litterfall. Relatively high N, P, Ca, and Mg use efficiencies were observed in MRP in line with their deficiency in the present tropical soils, indicating that rubber trees likely possess an efficient nutrient uptake mechanism to facilitate their adaption to oligotrophic habitats. Our results suggest that the large scale transformation of tropical forests to rubber plantations could alter the biogeochemical cycles related to litterfall, and thus possibly affect the resilience of ecosystems to climate variation. An increasing organic matter input in rubber monoculture may favor the sustainable development of rubber cultivation." @default.
W4220793837 created "2022-04-03" @default.
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W4220793837 date "2022-05-01" @default.
W4220793837 modified "2023-10-18" @default.
W4220793837 title "Reduced litterfall and decomposition alters nutrient cycling following conversion of tropical natural forests to rubber plantations" @default.
W4220793837 cites W1214056855 @default.
W4220793837 cites W1569464019 @default.
W4220793837 cites W1869857967 @default.
W4220793837 cites W1923314171 @default.
W4220793837 cites W1942798541 @default.
W4220793837 cites W1946277022 @default.
W4220793837 cites W1951371090 @default.
W4220793837 cites W1967908223 @default.
W4220793837 cites W1975554084 @default.
W4220793837 cites W1990229888 @default.
W4220793837 cites W1990606191 @default.
W4220793837 cites W1996359250 @default.
W4220793837 cites W2005306137 @default.
W4220793837 cites W2006184023 @default.
W4220793837 cites W2011408403 @default.
W4220793837 cites W2015849870 @default.
W4220793837 cites W2017783600 @default.
W4220793837 cites W2026428945 @default.
W4220793837 cites W2040721927 @default.
W4220793837 cites W2045134881 @default.
W4220793837 cites W2046040569 @default.
W4220793837 cites W2052723604 @default.
W4220793837 cites W2054963837 @default.
W4220793837 cites W2058122427 @default.
W4220793837 cites W2064672358 @default.
W4220793837 cites W2068810057 @default.
W4220793837 cites W2069903502 @default.
W4220793837 cites W2070243619 @default.
W4220793837 cites W2072509357 @default.
W4220793837 cites W2076949481 @default.
W4220793837 cites W2081658083 @default.
W4220793837 cites W2089282462 @default.
W4220793837 cites W2103824722 @default.
W4220793837 cites W2106216867 @default.
W4220793837 cites W2114622872 @default.
W4220793837 cites W2117774786 @default.
W4220793837 cites W2120013349 @default.
W4220793837 cites W2123165253 @default.
W4220793837 cites W2133359558 @default.
W4220793837 cites W2137270765 @default.
W4220793837 cites W2151698321 @default.
W4220793837 cites W2170272599 @default.
W4220793837 cites W2224243430 @default.
W4220793837 cites W2343738386 @default.
W4220793837 cites W2528131959 @default.
W4220793837 cites W2557073674 @default.
W4220793837 cites W2752555662 @default.
W4220793837 cites W2809069269 @default.
W4220793837 cites W2888516183 @default.
W4220793837 cites W2898373237 @default.
W4220793837 cites W2901726746 @default.
W4220793837 cites W2909579719 @default.
W4220793837 cites W2914024341 @default.
W4220793837 cites W2939873735 @default.
W4220793837 cites W2939941216 @default.
W4220793837 cites W2946066187 @default.
W4220793837 cites W2951666179 @default.
W4220793837 cites W2966165192 @default.
W4220793837 cites W2969662362 @default.
W4220793837 cites W3012281243 @default.
W4220793837 cites W3029946125 @default.
W4220793837 cites W3047180064 @default.
W4220793837 cites W3090257982 @default.
W4220793837 cites W3100250071 @default.
W4220793837 cites W3127968127 @default.
W4220793837 cites W3182539311 @default.
W4220793837 cites W3212623277 @default.
W4220793837 cites W4214886151 @default.
W4220793837 cites W656488075 @default.
W4220793837 doi "https://doi.org/10.1016/j.ecolind.2022.108819" @default.
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