Forest structure and succession in Wolong Nature Reserve is influenced by the understory dwarf bamboo population. However, less is known about how the forest succession affects the dwarf bamboo population. To examine ...Forest structure and succession in Wolong Nature Reserve is influenced by the understory dwarf bamboo population. However, less is known about how the forest succession affects the dwarf bamboo population. To examine the bamboo ramet population growth of Fargesla nitida (Mltford) Keng f. et Yi and to determine how ramet population structure varies along the succession of coniferous forest, we sampled ramet populations of F. nitida from the following three successional stages: (i) a deciduous broad-leaved (BL) stand; (ii) a mixed broad-leaved coniferous (MI) stand; and (ill) a coniferous (CF) stand. We investigated the population structure, biomass allocation, and morphological characteristics of the bamboo ramet among the three stand types. Clonal ramets, constituting the bamboo population, tended to become short and small with succession. The ramet changed towards having a greater mass investment in leaves, branches and underground roots and rhizomes rather than in the culm. With respect to leaf traits, individual leaf mass and area in the BL stand were markedly bigger than those In both the MI and CF stands, except for no significant difference in specific leaf area. The age distribution showed that the bamboo population approached an older age with succession. The results demonstrate that the ramet population structure of F. nitida is unstable and its growth performance is inhibited by succession.展开更多
In order to use science to manage human-nature interactions,we need much more nuanced,and when possible,quantitative,analyses of the interplay among ecosystem services(ES),human well-being(HWB),and drivers of both eco...In order to use science to manage human-nature interactions,we need much more nuanced,and when possible,quantitative,analyses of the interplay among ecosystem services(ES),human well-being(HWB),and drivers of both ecosystem structure and function,as well as HWB.Despite a growing interest and extensive efforts in ES research in the past decade,systematic and quantitative work on the linkages between ES and HWB is rare in existing literature,largely due to the lack of use of quantitative indicators and integrated models.Here,we integrated indicators of human dependence on ES,of HWB,and of direct and indirect drivers of both using data from household surveys carried out atWolong Nature Reserve,China.We examined how human dependence on ES and HWB might be affected by direct drivers,such as a natural disaster,and how human dependence on ES and direct and indirect drivers might affect HWB.Our results show that the direct driver(i.e.,Wenchuan Earthquake)significantly affected both households’dependence on ES and their well-being.Such impacts differed across various dimensions of ES and well-being as indicated by subindices.Those disadvantaged households with lower access to multiple forms of capital,more property damages,or larger revenue reductions also experienced greater losses in HWB.Diversifying human dependence on ES helps to mitigate disaster impacts on HWB.Our findings offer strong empirical evidence that the construction of quantitative indicators for ES and HWB,especially integrated models using them,is a viable approach for advancing the understanding of linkages between ES and HWB.展开更多
The aim of this study is to explore the effects of canopy conditions on clump and culm numbers,and the morphological plasticity and biomass distribution patterns of the dwarf bamboo species Fargesia nitida.Specificall...The aim of this study is to explore the effects of canopy conditions on clump and culm numbers,and the morphological plasticity and biomass distribution patterns of the dwarf bamboo species Fargesia nitida.Specifically,we investigated the effects of canopy conditions on the growth and morphological characteristics of F.nitida,and the adaptive responses of F.nitida to different canopy conditions and its ecological senses.The results indicate that forest canopy had a significant effect on the genet density and culm number per clump,while it did not affect the ramet density.Clumps tended to be few and large in gaps and forest edge plots,and small under forest understory plots.The ramets showed an even distribution under the closed canopy,and cluster distribution under gaps and forest edge plots.The forest canopy had a significant effect on both the ramets’biomass and biomass allocation.Favourable light conditions promoted ramet growth and biomass accumulation.Greater amounts of biomass in gaps and forest edge plots were shown by the higher number of culms per clump and the diameter of these culms.Under closed canopy,the bamboos increased their branching angle,leaf biomass allocation,specific leaf area and leaf area ratio to exploit more favourable light conditions in these locations.The spacer length,specific spacer length and spacer branching angles all showed significant differences between gaps and closed canopy conditions.The larger specific spacer length and spacer branching angle were beneficial for bamboo growth,scattering the ramets and exploiting more favourable light conditions.In summary,this study shows that to varying degrees,F.nitida exhibits both a wide ecological amplitude and high degree of morphological plasticity in response to differing forest canopy conditions.Moreover,the changes in plasticity enable the plants to optimize their light usage efficiency to promote growth and increase access to resources available in heterogeneous light environments.展开更多
基金Supported by the State Key Basic Research and Development Plan of China (2002CB111505) and the National Nature Science Foundation of China (30300047, 30500388). Acknowledgements The authors thank Hans Cornelissen (Vrije Universiteit, Amsterdam, The Netherlands) and Ken Chart (University of the Sunshine Coast, 0ueensland, Australia) for their valuable comments on our earlier manuscript. Thanks are also due to the students from Nanjing Forestry University and Sichuan Agricultural University and the staff of Wolong Subalpine Dark Coniferous Forest Ecosystem Ecological Station, Sichuan Academy of Forestry, who helped with the field work.
文摘Forest structure and succession in Wolong Nature Reserve is influenced by the understory dwarf bamboo population. However, less is known about how the forest succession affects the dwarf bamboo population. To examine the bamboo ramet population growth of Fargesla nitida (Mltford) Keng f. et Yi and to determine how ramet population structure varies along the succession of coniferous forest, we sampled ramet populations of F. nitida from the following three successional stages: (i) a deciduous broad-leaved (BL) stand; (ii) a mixed broad-leaved coniferous (MI) stand; and (ill) a coniferous (CF) stand. We investigated the population structure, biomass allocation, and morphological characteristics of the bamboo ramet among the three stand types. Clonal ramets, constituting the bamboo population, tended to become short and small with succession. The ramet changed towards having a greater mass investment in leaves, branches and underground roots and rhizomes rather than in the culm. With respect to leaf traits, individual leaf mass and area in the BL stand were markedly bigger than those In both the MI and CF stands, except for no significant difference in specific leaf area. The age distribution showed that the bamboo population approached an older age with succession. The results demonstrate that the ramet population structure of F. nitida is unstable and its growth performance is inhibited by succession.
基金financial support from the National Science Foundation,the National Aeronautics and Space Administration,Michigan State University AgBioResearch,and fellowships from Envi-ronmental Science and Policy Program,Graduate Office,and the College of Agriculture and Natural Resources at Michigan State University
文摘In order to use science to manage human-nature interactions,we need much more nuanced,and when possible,quantitative,analyses of the interplay among ecosystem services(ES),human well-being(HWB),and drivers of both ecosystem structure and function,as well as HWB.Despite a growing interest and extensive efforts in ES research in the past decade,systematic and quantitative work on the linkages between ES and HWB is rare in existing literature,largely due to the lack of use of quantitative indicators and integrated models.Here,we integrated indicators of human dependence on ES,of HWB,and of direct and indirect drivers of both using data from household surveys carried out atWolong Nature Reserve,China.We examined how human dependence on ES and HWB might be affected by direct drivers,such as a natural disaster,and how human dependence on ES and direct and indirect drivers might affect HWB.Our results show that the direct driver(i.e.,Wenchuan Earthquake)significantly affected both households’dependence on ES and their well-being.Such impacts differed across various dimensions of ES and well-being as indicated by subindices.Those disadvantaged households with lower access to multiple forms of capital,more property damages,or larger revenue reductions also experienced greater losses in HWB.Diversifying human dependence on ES helps to mitigate disaster impacts on HWB.Our findings offer strong empirical evidence that the construction of quantitative indicators for ES and HWB,especially integrated models using them,is a viable approach for advancing the understanding of linkages between ES and HWB.
基金The study was supported by the National Basic Research Program of China(No.2002CB111505)The National Natural Science Foundation of China(Grant Nos.30500388,30300047).
文摘The aim of this study is to explore the effects of canopy conditions on clump and culm numbers,and the morphological plasticity and biomass distribution patterns of the dwarf bamboo species Fargesia nitida.Specifically,we investigated the effects of canopy conditions on the growth and morphological characteristics of F.nitida,and the adaptive responses of F.nitida to different canopy conditions and its ecological senses.The results indicate that forest canopy had a significant effect on the genet density and culm number per clump,while it did not affect the ramet density.Clumps tended to be few and large in gaps and forest edge plots,and small under forest understory plots.The ramets showed an even distribution under the closed canopy,and cluster distribution under gaps and forest edge plots.The forest canopy had a significant effect on both the ramets’biomass and biomass allocation.Favourable light conditions promoted ramet growth and biomass accumulation.Greater amounts of biomass in gaps and forest edge plots were shown by the higher number of culms per clump and the diameter of these culms.Under closed canopy,the bamboos increased their branching angle,leaf biomass allocation,specific leaf area and leaf area ratio to exploit more favourable light conditions in these locations.The spacer length,specific spacer length and spacer branching angles all showed significant differences between gaps and closed canopy conditions.The larger specific spacer length and spacer branching angle were beneficial for bamboo growth,scattering the ramets and exploiting more favourable light conditions.In summary,this study shows that to varying degrees,F.nitida exhibits both a wide ecological amplitude and high degree of morphological plasticity in response to differing forest canopy conditions.Moreover,the changes in plasticity enable the plants to optimize their light usage efficiency to promote growth and increase access to resources available in heterogeneous light environments.
