SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3109395862> ?p ?o ?g. }

Showing items 1 to 100 of ±135 with 100 items per page.

W3109395862 endingPage "125807" @default.
W3109395862 startingPage "125807" @default.
W3109395862 abstract "Forests play an important role in the water cycle and in the control of soil erosion. The canopy, as the first active surface of the forest, directly affects soil erosion by redistributing rainfall. However, the effects of the plant morphological characteristics of different tree species on rainfall interception and kinetic energy reduction have not been determined. We determined 116 globally important woody tree species and classified them based on the differences of plant life-forms, leaf textures and trichomes on leaves in the Guizhou karstic regions of China. The water adsorbed on the branches and leaves of these species was measured to explain rainfall interception. We further selected four representative species among the 116 species and measured rainfall interception, stemflow and throughfall, as well as the corresponding indices of plant morphological characteristics, under simulated rainfall. Results indicated that the adsorbed water showed considerable differences between tree species with different plant morphological characteristics. Tree species with trichomes on their leaves had the largest amount of adsorbed water compared to those with papery or leathery leaves and those without trichomes. Rainfall interception was significantly dependent on leaf area index (LAI), mean leaf area (MLA) and leaf shape factor (LSF), but stemflow and throughfall were dependent on diffuse non-interceptance (DIFN) under tree canopies. Tree canopies increased the numbers, volumes and kinetic energy of large raindrops. LAI, mean foliage tilt angle (MTA), MLA and LSF had differently significant impacts on drop size distribution (DSD), and the kinetic energy of rainfall under canopies, but DIFN did not any impacts on them. The results presented in this study quantitatively clarify the impacts of the morphological characteristics of different plants on adsorbed water of branches and leaves, linking rainfall interception of canopies and the redistribution and kinetic energy of rainfall." @default.
W3109395862 created "2020-12-07" @default.
W3109395862 creator A5005593842 @default.
W3109395862 creator A5049055894 @default.
W3109395862 creator A5068624588 @default.
W3109395862 creator A5072211626 @default.
W3109395862 creator A5082723910 @default.
W3109395862 date "2021-01-01" @default.
W3109395862 modified "2023-10-18" @default.
W3109395862 title "Effects of the morphological characteristics of plants on rainfall interception and kinetic energy" @default.
W3109395862 cites W1419187535 @default.
W3109395862 cites W1491065629 @default.
W3109395862 cites W1492294218 @default.
W3109395862 cites W1493740479 @default.
W3109395862 cites W1610894837 @default.
W3109395862 cites W1666591240 @default.
W3109395862 cites W1965564065 @default.
W3109395862 cites W1969833062 @default.
W3109395862 cites W1982959243 @default.
W3109395862 cites W1987121781 @default.
W3109395862 cites W1989454139 @default.
W3109395862 cites W1993997093 @default.
W3109395862 cites W1996882631 @default.
W3109395862 cites W2001107916 @default.
W3109395862 cites W2008432370 @default.
W3109395862 cites W2010078634 @default.
W3109395862 cites W2010504756 @default.
W3109395862 cites W2015267292 @default.
W3109395862 cites W2025229062 @default.
W3109395862 cites W2039845302 @default.
W3109395862 cites W2042118303 @default.
W3109395862 cites W2044493711 @default.
W3109395862 cites W2057404902 @default.
W3109395862 cites W2062865444 @default.
W3109395862 cites W2068860027 @default.
W3109395862 cites W2069693699 @default.
W3109395862 cites W2070560991 @default.
W3109395862 cites W2075168230 @default.
W3109395862 cites W2081036841 @default.
W3109395862 cites W2082591294 @default.
W3109395862 cites W2084308138 @default.
W3109395862 cites W2085174340 @default.
W3109395862 cites W2094952451 @default.
W3109395862 cites W2109917398 @default.
W3109395862 cites W2116258379 @default.
W3109395862 cites W2119788488 @default.
W3109395862 cites W2136064794 @default.
W3109395862 cites W2147218933 @default.
W3109395862 cites W2148989614 @default.
W3109395862 cites W2154209249 @default.
W3109395862 cites W2162848293 @default.
W3109395862 cites W2164030462 @default.
W3109395862 cites W2175333372 @default.
W3109395862 cites W2208247983 @default.
W3109395862 cites W2208544358 @default.
W3109395862 cites W2215694428 @default.
W3109395862 cites W2287830199 @default.
W3109395862 cites W2294125739 @default.
W3109395862 cites W2476803552 @default.
W3109395862 cites W2515421390 @default.
W3109395862 cites W2521764939 @default.
W3109395862 cites W2523452345 @default.
W3109395862 cites W2554201506 @default.
W3109395862 cites W2612672195 @default.
W3109395862 cites W2772614670 @default.
W3109395862 cites W2894562091 @default.
W3109395862 cites W2921862778 @default.
W3109395862 cites W2949749559 @default.
W3109395862 cites W3112534022 @default.
W3109395862 cites W4232799253 @default.
W3109395862 doi "https://doi.org/10.1016/j.jhydrol.2020.125807" @default.
W3109395862 hasPublicationYear "2021" @default.
W3109395862 type Work @default.
W3109395862 sameAs 3109395862 @default.
W3109395862 citedByCount "32" @default.
W3109395862 countsByYear W31093958622021 @default.
W3109395862 countsByYear W31093958622022 @default.
W3109395862 countsByYear W31093958622023 @default.
W3109395862 crossrefType "journal-article" @default.
W3109395862 hasAuthorship W3109395862A5005593842 @default.
W3109395862 hasAuthorship W3109395862A5049055894 @default.
W3109395862 hasAuthorship W3109395862A5068624588 @default.
W3109395862 hasAuthorship W3109395862A5072211626 @default.
W3109395862 hasAuthorship W3109395862A5082723910 @default.
W3109395862 hasConcept C101000010 @default.
W3109395862 hasConcept C127313418 @default.
W3109395862 hasConcept C187320778 @default.
W3109395862 hasConcept C18903297 @default.
W3109395862 hasConcept C25989453 @default.
W3109395862 hasConcept C2776679863 @default.
W3109395862 hasConcept C2779705648 @default.
W3109395862 hasConcept C39432304 @default.
W3109395862 hasConcept C55157361 @default.
W3109395862 hasConcept C56221022 @default.
W3109395862 hasConcept C59822182 @default.
W3109395862 hasConcept C61270487 @default.
W3109395862 hasConcept C6557445 @default.
W3109395862 hasConcept C76886044 @default.