Because of the“foehn effect”,deeply incised gorges of major rivers in the Hengduan Mountains(commonly called dry valleys)have semiarid or arid climate.Harsh environment and difficult access have so far obstructed th...Because of the“foehn effect”,deeply incised gorges of major rivers in the Hengduan Mountains(commonly called dry valleys)have semiarid or arid climate.Harsh environment and difficult access have so far obstructed the systematic inventory and documentation of the flora of these dry valleys.This is particularly problematic for efforts towards the conservation of endemic and valuable plant species.Therefore,102 shrub-meadow community survey plots were set up along four dry valleys in Ganzi prefecture,located in the eastern Hengduan Mountains,China.The compositions,richness,diversity of these communities were calculated and assessed using sample plot survey and phytosociological approach.Overall,244 plant species were recorded,consisting of subtropical(48.77%)and temperate(38.83%)species,47.13%of which were endemic to southwest China.Obvious differences in species composition and structure along the altitude gradient were observed.The variations of richness,diversity,and evenness followed a bimodal-hump shaped pattern with increasing altitude,with peak occurring at mid-level altitude(3501–4000 m)and valley occurring at 2501–3000 m altitude.The regions at 2501–3000 m altitudes were more sensitive to global climate change and biological interference,and were found to have the highest protection value.The impacts of altitude gradients and climatic parameters on the features of this shrubmeadow community were also evaluated using principal component and multiple linear stepwise regression analysis methods.Altitude and temperature-related variables were the most important drivers of both species richness and cover.Speciesα-diversity here only depended on the precipitation frequency.This founding could help to understand the impact of the very harsh environment and altitude gradient on plant-plant interactions in a variety of natural systems.展开更多
In order to understand the structure of shrub communities and vegetation landscape in the Kongtong Mountain in different habitats,by using the line transect method,shrub communities and composition in the Kongtong Mou...In order to understand the structure of shrub communities and vegetation landscape in the Kongtong Mountain in different habitats,by using the line transect method,shrub communities and composition in the Kongtong Mountain were fully investigated,and the relationship between shrub communities and ecological environment,the community composition,structure,and vegetation landscape and succession of shrub communities in various habitats were systematically analyzed. The results showed that there were 142 species of shrubs,sub-shrubs and woody vines in the Kongtong Mountain,belonging to 75 genera,39 families. Except only two species of plants belonging to one genus,one family were gymnosperms,other species were angiosperms. Various shrub species had some spatial distribution characteristics,and their vertical distribution had certain hierarchy with the change of altitude. In the four conditions of slope direction,shrub community composition was different. There were 12 tree species in shrub communities on sunny slopes,and the constitutive species was S. davidii( Franch.) Skeels. There were 14 tree species in shrub communities on semi-sunny slopes,and the constitutive species was H. rhamnoides Linn. There were 12 and 15 tree species in shrub communities on semi-shady and shady slopes,and the constitutive species was O. davidiana Decaisne. In the absence of external disturbances,the succession of shrub communities in the Kongtong Mountain began in bare wasteland and experienced natural grassland,mixed shrubs and grass,shrub community and sub-shrub community( single dominant communities) during the period. Finally,shrub communities evolved into arbor communities.展开更多
Biodiversity distribution patterns are a basic and long-standing but crucial aspect of ecology research.These patterns form the primary source of data used to develop biodiversity protection practices,especially in mo...Biodiversity distribution patterns are a basic and long-standing but crucial aspect of ecology research.These patterns form the primary source of data used to develop biodiversity protection practices,especially in mountain ecosystems.Shrubs comprise one of the main types of vegetation on the Qinghai–Tibetan Plateau,where they serve vital ecological functions.In this study,we used a community phylogenetic approach to examine the distribution patterns of shrub communities along the longitudinal and latitudinal gradients on the northeastern Qinghai–Tibetan Plateau.We observed significant latitudinal trends in both the phylogenetic diversity(PD)and net relatedness index(NRI)values of shrub communities,such that the former decreased and the latter increased with increasing latitude.However,no significant PD,NRI and nearest taxon index(NTI)distribution patterns were observed along a longitudinal gradient.A further analysis revealed that the combination of temperature-related and precipitation-related climate variables most strongly affected the PD,NRI and NTI values of shrub communities,indicating that the latitudinal patterns in the PD,NRI and NTI of a shrub community may be determined mainly by interactions with these climate factors.展开更多
基金funded by the Natural Science Foundation of China(Grants No.31971716,52178059)the 13th five-year plan of Social Sciences in Sichuan Province(Grants No.SC19B138)the Scientific and technological project in Chengdu(Grant No.2021-YF05-00033-SN)。
文摘Because of the“foehn effect”,deeply incised gorges of major rivers in the Hengduan Mountains(commonly called dry valleys)have semiarid or arid climate.Harsh environment and difficult access have so far obstructed the systematic inventory and documentation of the flora of these dry valleys.This is particularly problematic for efforts towards the conservation of endemic and valuable plant species.Therefore,102 shrub-meadow community survey plots were set up along four dry valleys in Ganzi prefecture,located in the eastern Hengduan Mountains,China.The compositions,richness,diversity of these communities were calculated and assessed using sample plot survey and phytosociological approach.Overall,244 plant species were recorded,consisting of subtropical(48.77%)and temperate(38.83%)species,47.13%of which were endemic to southwest China.Obvious differences in species composition and structure along the altitude gradient were observed.The variations of richness,diversity,and evenness followed a bimodal-hump shaped pattern with increasing altitude,with peak occurring at mid-level altitude(3501–4000 m)and valley occurring at 2501–3000 m altitude.The regions at 2501–3000 m altitudes were more sensitive to global climate change and biological interference,and were found to have the highest protection value.The impacts of altitude gradients and climatic parameters on the features of this shrubmeadow community were also evaluated using principal component and multiple linear stepwise regression analysis methods.Altitude and temperature-related variables were the most important drivers of both species richness and cover.Speciesα-diversity here only depended on the precipitation frequency.This founding could help to understand the impact of the very harsh environment and altitude gradient on plant-plant interactions in a variety of natural systems.
基金Supported by Water Conservancy Research and Promotion Plan Project of Gansu Province(GSKF[2008]114)
文摘In order to understand the structure of shrub communities and vegetation landscape in the Kongtong Mountain in different habitats,by using the line transect method,shrub communities and composition in the Kongtong Mountain were fully investigated,and the relationship between shrub communities and ecological environment,the community composition,structure,and vegetation landscape and succession of shrub communities in various habitats were systematically analyzed. The results showed that there were 142 species of shrubs,sub-shrubs and woody vines in the Kongtong Mountain,belonging to 75 genera,39 families. Except only two species of plants belonging to one genus,one family were gymnosperms,other species were angiosperms. Various shrub species had some spatial distribution characteristics,and their vertical distribution had certain hierarchy with the change of altitude. In the four conditions of slope direction,shrub community composition was different. There were 12 tree species in shrub communities on sunny slopes,and the constitutive species was S. davidii( Franch.) Skeels. There were 14 tree species in shrub communities on semi-sunny slopes,and the constitutive species was H. rhamnoides Linn. There were 12 and 15 tree species in shrub communities on semi-shady and shady slopes,and the constitutive species was O. davidiana Decaisne. In the absence of external disturbances,the succession of shrub communities in the Kongtong Mountain began in bare wasteland and experienced natural grassland,mixed shrubs and grass,shrub community and sub-shrub community( single dominant communities) during the period. Finally,shrub communities evolved into arbor communities.
基金funded jointly by the Natural Science Foundation of Qinghai Province(2019-ZJ-910)the International Communication and Cooperation Project of Qinghai Province(2019-HZ-807)+1 种基金the National Program on Basic Work Project of China(2015FY11030001)the Qinghai Province High-level Innovative Talents Program
文摘Biodiversity distribution patterns are a basic and long-standing but crucial aspect of ecology research.These patterns form the primary source of data used to develop biodiversity protection practices,especially in mountain ecosystems.Shrubs comprise one of the main types of vegetation on the Qinghai–Tibetan Plateau,where they serve vital ecological functions.In this study,we used a community phylogenetic approach to examine the distribution patterns of shrub communities along the longitudinal and latitudinal gradients on the northeastern Qinghai–Tibetan Plateau.We observed significant latitudinal trends in both the phylogenetic diversity(PD)and net relatedness index(NRI)values of shrub communities,such that the former decreased and the latter increased with increasing latitude.However,no significant PD,NRI and nearest taxon index(NTI)distribution patterns were observed along a longitudinal gradient.A further analysis revealed that the combination of temperature-related and precipitation-related climate variables most strongly affected the PD,NRI and NTI values of shrub communities,indicating that the latitudinal patterns in the PD,NRI and NTI of a shrub community may be determined mainly by interactions with these climate factors.
