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W4321350925 startingPage "129299" @default.
W4321350925 abstract "Understanding the interaction between the hydrological cycle and vegetation management strategies, such as thinning, is essential to improve watershed management and support ecological services. However, it remains unclear how thinning affects the key components of hydrological cycle of dense shrublands in the semiarid regions. Thus, the purpose of this study was to analyze and evaluate the effect of thinning on rainfall partitioning and interception simulations in dense shrublands. In a 5-year field experiment, we compared rainfall partitioning in two re-vegetated shrublands (Caragana korshinskii and Salix psammophila) in the Chinese Loess Plateau under two thinning intensities (moderate thinning [MT] and heavy thinning [HT] refer to the removal of 25% and 50% of the branches, respectively) or no thinning (NT) (control). We modeled canopy interception losses (I) in the two thinning treatments and control treatment using the revised Gash model. The results showed that under MT and HT, the throughfall (TF) rate increased by about 12% and 20%, respectively, compared to NT. The stemflow (SF) and observed I rates decreased by about 26% and 33%, respectively, under MT, and the corresponding values for HT were about 50% and 52%, respectively. The observed I rate decreased proportional to the percentage of biomass removed from the C. korshinskii and S. psammophila plots. The results also revealed a significant linear correlation between the plant area index (PAI) value and the canopy water balance of the two shrub plantations (R2 > 0.83, P < 0.05). The performance of the revised Gash model (i.e., relative error [RE] < 20%) was satisfactory according to the Nash − Sutcliffe model efficiency (NSE) coefficient (0.34–0.71). Based on the RE values, the performance of the revised Gash model was better when applied to the plots subjected to MT and HT (RE ≤ 3%) than NT (RE = 9.3%) for S. psammophila. Changes in the canopy storage capacity and canopy evaporation rate strongly affected changes in simulated interception loss. The model can facilitate water management in semiarid shrub plantations by accurately simulating the effect of thinning on interception loss." @default.
W4321350925 created "2023-02-20" @default.
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W4321350925 date "2023-04-01" @default.
W4321350925 modified "2023-10-18" @default.
W4321350925 title "Changes of Rainfall Partitioning and Canopy Interception Modeling after Progressive Thinning in Two Shrub Plantations on the Chinese Loess Plateau" @default.
W4321350925 cites W1148243508 @default.
W4321350925 cites W1967814916 @default.
W4321350925 cites W1986979723 @default.
W4321350925 cites W1996762101 @default.
W4321350925 cites W1999499664 @default.
W4321350925 cites W1999622834 @default.
W4321350925 cites W2003617953 @default.
W4321350925 cites W2015295028 @default.
W4321350925 cites W2016372498 @default.
W4321350925 cites W2021985221 @default.
W4321350925 cites W2033904036 @default.
W4321350925 cites W2042118303 @default.
W4321350925 cites W2044467060 @default.
W4321350925 cites W2044524008 @default.
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W4321350925 cites W2067123747 @default.
W4321350925 cites W2074329032 @default.
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W4321350925 cites W2086190373 @default.
W4321350925 cites W2094952451 @default.
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W4321350925 cites W2148989614 @default.
W4321350925 cites W2152735068 @default.
W4321350925 cites W2162368697 @default.
W4321350925 cites W2162932353 @default.
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W4321350925 cites W2594245601 @default.
W4321350925 cites W2732815299 @default.
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W4321350925 cites W2778576106 @default.
W4321350925 cites W2803388929 @default.
W4321350925 cites W2842368259 @default.
W4321350925 cites W2900605433 @default.
W4321350925 cites W2901443008 @default.
W4321350925 cites W2913879123 @default.
W4321350925 cites W2914637223 @default.
W4321350925 cites W2940936738 @default.
W4321350925 cites W2947471000 @default.
W4321350925 cites W2952619300 @default.
W4321350925 cites W2979824455 @default.
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W4321350925 cites W4294597224 @default.
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W4321350925 doi "https://doi.org/10.1016/j.jhydrol.2023.129299" @default.
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