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Global Ecology and Biogeography(2)
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Comparing tropical forest tree size distributions with the pbkp_redictions of metabolic ecology and equilibrium models
ArticleAbstract: Tropical forests vary substantially in the densities of trees of different sizes and thus in above-gPalabras claves:demographic rates, forest structure, Large-scale disturbance, Metabolic theory of ecology, Old-growth forests, Tree diameter distributionsAutores:Ashton P.S., Bunyavejchewin S., Chuyong G.B., Co L.L., Condit R.S., Consuelo Hernández, Dattaraja H.S., Davies S.J., Esufali S., Foster R.B., Gunatilleke N., Gunatilleke S., Hall P., Harms K.E., Hart T.B., He F., Hubbell S.P., Itoh A., Kassim A.R., Kenfack D., Kiratiprayoon S., laFrankie J.V., Lagunzad D., Lee H.S., Losos E.C., Makana J.R., Marks C.O., Muller-Landau H.C., Muñoz G.V., Nur Supardi M.N., Ohkubo T., Renato Valencia, Samper C., Sukumar R., Sun I.F., Suresh H.S., Tan S., Thomas D.W., Thomas S.C., Thompson J., Vallejo M.I., Wills C., Yamakura T., Zimmerman J.K.Fuentes:googlescopusCTFS-ForestGEO: A worldwide network monitoring forests in an era of global change
ArticleAbstract: Global change is impacting forests worldwide, threatening biodiversity and ecosystem services includPalabras claves:Biodiversity, Center for Tropical Forest Science (CTFS), Climate Change, Demography, Forest dynamics plot, Forest Global Earth Observatory (ForestGEO), Long-term monitoring, Spatial AnalysisAutores:Abu Salim K., Almeyda Zambrano A., Alonso A., Anderson-Teixeira K.J., Baltzer J.L., Basset Y., Bennett A.C., Bourg N.A., Broadbent E.N., Brockelman W.Y., Bunyavejchewin S., Burslem D.F.R.P., Butt N., Cao M., Cárdenas López D., Chuyong G.B., Clay K., Cordell S., Dattaraja H.S., Davies S.J., den Ouden J., Deng X., Detto M., Du X., Duque Montoya A.J., Erikson D.L., Ewango C.E.N., Fischer G.A., Fletcher C.D., Foster R.B., Giardina C.P., Gilbert G.S., Gonzalez-Akre E.B., Gunatilleke N., Gunatilleke S., Hao Z., Hargrove W.W., Hart T.B., Hau B.C.H., He F., Hoffman F.M., Howe R.W., Hubbell S.P., Inman-Narahari F.M., Jansen P.A., Jiang M., Johnson D.J., Kanzaki M., Kassim A.R., Kenfack D., Kibet S., Kinnaird M.F., Korte L., Kral K., Kumar J., Larson A.J., Li X., Li Y.D., Liu S., Lum S.K.Y., Lutz J.A., Ma K., Maddalena D.M., Makana J.R., Malhi Y., Marthews T.R., Mat Serudin R., Mcmahon S.M., McShea W.J., Memiaghe H.R., Mi X., Mizuno T., Morecroft M.D., Muller-Landau H.C., Myers J.A., Novotny V., Oliveira A.A., Ong P.S., Orwig D.A., Ostertag R., Parker G.G., Phillips R.P., Renato Valencia, Sack L., Sainge M.N., Sang W., Sri-ngernyuang K., Sukumar R., Sun I.F., Sungpalee W., Suresh H.S., Tan S., Thomas D.W., Thomas S.C., Thompson J., Turner B.L., Uriarte M., Vallejo M.I., Vicentini A., Wright S.J.Fuentes:googlescopusGlobal importance of large-diameter trees
ArticleAbstract: Aim: To examine the contribution of large-diameter trees to biomass, stand structure, and species riPalabras claves:forest biomass, forest structure, large-diameter trees, latitudinal gradient, resource inequality, Smithsonian ForestGEOAutores:Allen D., Alonso A., Anderson-Teixeira K.J., Andrade A.S., Baltzer J.L., Becker K.M.L., Blomdahl E.M., Bourg N.A., Bunyavejchewin S., Burslem D.F.R.P., Cansler C.A., Cao K., Cao M., Cárdenas López D., Chang L.W., Chao K.J., Chao W.C., Chiang J.M., Chu C., Chuyong G.B., Clay K., Condit R.S., Cordell S., Dattaraja H.S., Davies S.J., Duque A., Ewango C.E.N., Fischer G.A., Fletcher C.D., Freund J.A., Furniss T.J., Germain S.J., Giardina C.P., Gilbert G.S., Hao Z., Hart T.B., Hau B.C.H., He F., Hector A., Howe R.W., Hsieh C.F., Hu Y.H., Hubbell S.P., Inman-Narahari F.M., Itoh A., Janík D., Johnson D.J., Kassim A.R., Kenfack D., Korte L., Kral K., Larson A.J., Li Y.D., Lin Y.C., Liu S., Lum S.K.Y., Lutz J.A., Ma K., Makana J.R., Malhi Y., Mcmahon S.M., McShea W.J., Memiaghe H.R., Mi X., Morecroft M.D., Musili P.M., Myers J.A., Novotny V., Oliveira A.A., Ong P.S., Orwig D.A., Ostertag R., Parker G.G., Patankar R., Phillips R.P., Renato Valencia, Reynolds G., Sack L., Song G.Z.M., Su S.H., Sukumar R., Sun I.F., Suresh H.S., Swanson M.E., Tan S., Thomas D.W., Thompson J., Uriarte M., Vicentini A., Vrška T., Wang X., Weiblen G.D., Wolf A.T., Wu S.H., Xu H., Yamakura T., Yap S.L., Zimmerman J.K.Fuentes:scopusForestGEO: Understanding forest diversity and dynamics through a global observatory network
ArticleAbstract: ForestGEO is a network of scientists and long-term forest dynamics plots (FDPs) spanning the Earth'sPalabras claves:Capacity strengthening, Demography, forest plots, Network science, species diversity, Tree growth and mortality, Tropical forestsAutores:Abiem I., Abu Salim K., Aguilar S., Allen D., Alonso A., Anderson-Teixeira K.J., Andrade A.S., Ashton P.S., Baker M.E., Baker P.J., Baltzer J.L., Basset Y., Bissiengou P., Bohlman S.A., Bourg N.A., Brockelman W.Y., Bunyavejchewin S., Burslem D.F.R.P., Cao M., Cárdenas López D., Chang L.W., Chang-Yang C.H., Chao K.J., Chao W.C., Chapman H., Chen Y.Y., Chisholm R.A., Chu C., Chuyong G.B., Clay K., Comita L.S., Condit R.S., Cordell S., Dattaraja H.S., Davies S.J., den Ouden J., Detto M., Dick C.W., Du X., Duque A., Ediriweera S., Ellis E.C., Esufali S., Ewango C.E.N., Fernando E.S., Filip J., Fischer G.A., Foster R.B., Gabriel Arellano, Giambelluca T.W., Giardina C.P., Gilbert G.S., Gonzalez-Akre E.B., Gunatilleke C.V.S., Gunatilleke I.A.U.N., Hao Z., Hau B.C.H., He F., Howe R.W., Hubbell S.P., Huth A., Inman-Narahari F.M., Itoh A., Janík D., Jansen P.A., Jiang M., Johnson D.J., Jones F.A., Kanzaki M., Kenfack D., Kiratiprayoon S., Kral K., Krizel L., Lao S., Larson A.J., Li X., Li Y.D., Litton C.M., Liu S., Liu Y., Lum S.K.Y., Luskin M.S., Lutz J.A., Luu H.T., Ma K., Makana J.R., Malhi Y., Martin A., McCarthy C., Mcmahon S.M., McShea W.J., Memiaghe H.R., Mi X., Mitre D., Mohamad M.B., Monks L., Muller-Landau H.C., Ni H., Obiang N.L.E., Oliveira A.A., Renato ValenciaFuentes:scopusPatterns of nitrogen-fixing tree abundance in forests across Asia and America
ArticleAbstract: Symbiotic nitrogen (N)-fixing trees can provide large quantities of new N to ecosystems, but only ifPalabras claves:Forest, Legume, Nitrogen fixation, nutrient limitation, Smithsonian ForestGEO, symbiosisAutores:Abu Salim K., Allen D., Alvarez M., Bourg N.A., Brockelman W.Y., Bunyavejchewin S., Butt N., Cao M., Chanthorn W., Chao W.C., Chisholm R.A., Clay K., Condit R.S., Cordell S., da Silva J.B., Dattaraja H.S., Davies S.J., de Andrade A.S., den Ouden J., Drescher M., Fletcher C.D., Fung T., Giardina C.P., Gunatilleke I.A.U.N., Hau B.C.H., He F., Howe R.W., Hsieh C.F., Hubbell S.P., Inman-Narahari F.M., Jansen P.A., Johnson D.J., Kassim A.R., Kong L.S., Kral K., Ku C.C., Lai J., Larson A.J., Li X., Li Y.D., Lin L., Lin Y.C., Liu S., Lum S.K.Y., Lutz J.A., Ma K., Malhi Y., Mcmahon S.M., McShea W.J., Menge D.N.L., Mi X., Morecroft M.D., Myers J.A., Nathalang A., Novotny V., Oliveira A.A., Ong P.S., Orwig D.A., Ostertag R., Parker G.G., Phillips R.P., Renato Valencia, Sack L., Sang W., Savitri Gunatilleke C.V., Shen G., Shringi A., Shue J., Su S.H., Sukumar R., Sun I.F., Suresh H.S., Tan S., Thomas S.C., Toko P.S., Vallejo M.I., Vicentini A., Vrška T., Wang B., Wang X., Weiblen G.D., Wolf A.T., Xu H., Yap S.L., Zhu L.Fuentes:googlescopusResponse to comment on “plant diversity increases with the strength of negative density dependence at the global scale”
ReviewAbstract: Chisholm and Fung claim that our method of estimating conspecific negative density dependence (CNDD)Palabras claves:Autores:Alonso A., Bourg N.A., Brockelman W.Y., Bunyavejchewin S., Chang L.W., Chiang J.M., Chuyong G.B., Clay K., Cordell S., Davies S.J., Furniss T.J., Giardina C.P., He F., Howe R.W., Hsieh C.F., Hubbell S.P., Inman-Narahari F.M., J. Sebastián Tello, Janík D., Johnson D.J., Kenfack D., Korte L., Kral K., LaManna J.A., Larson A.J., Lutz J.A., Mangan S.A., Mcmahon S.M., McShea W.J., Memiaghe H.R., Myers J.A., Nathalang A., Nimal Gunatilleke I.A.U., Novotny V., Ong P.S., Orwig D.A., Ostertag R., Parker G.G., Phillips R.P., Sack L., Savitri Gunatilleke C.V., Sun I.F., Thomas D.W., Turner B.L., Vela Díaz D.M., Vrška T., Weiblen G.D., Wolf A.T., Yap S.L.Fuentes:scopusPlant diversity increases with the strength of negative density dependence at the global scale
ArticleAbstract: Theory pbkp_redicts that higher biodiversity in the tropics is maintained by specialized interactionPalabras claves:Autores:Alonso A., Bourg N.A., Brockelman W.Y., Bunyavejchewin S., Chang L.W., Chiang J.M., Chuyong G.B., Clay K., Condit R.S., Cordell S., Davies S.J., Furniss T.J., Giardina C.P., Gunatilleke C.V.S., Gunatilleke I.A.U.N., He F., Howe R.W., Hsieh C.F., Hubbell S.P., Inman-Narahari F.M., J. Sebastián Tello, Janík D., Johnson D.J., Kenfack D., Korte L., Kral K., LaManna J.A., Larson A.J., Lutz J.A., Mangan S.A., Mcmahon S.M., McShea W.J., Memiaghe H.R., Myers J.A., Nathalang A., Novotny V., Ong P.S., Orwig D.A., Ostertag R., Parker G.G., Phillips R.P., Sack L., Sun I.F., Thomas D.W., Turner B.L., Vela Díaz D.M., Vrška T., Weiblen G.D., Wolf A.T., Yap S.L.Fuentes:scopusThe variation of tree beta diversity across a global network of forest plots
ArticleAbstract: Aims With the aim of understanding why some of the world's forests exhibit higher tree beta diversitPalabras claves:Beta diversity, community composition, latitudinal gradient, Spatial variation, Stem-mapping forest plots, Tree species richness, variation partitioningAutores:Cao M., Chang L.W., Chuyong G.B., Condit R.S., De Cáceres M., Hao Z., He F., Hsieh C.F., Hubbell S.P., Kassim A.R., Kenfack D., Legendre P., Ma K., Mi X., Ren H., Renato Valencia, Su S.H., Sun I.F., Supardi Noor M.N., Thomas D.W., Ye W.Fuentes:googlescopus