Trait interactions effects on tropical tree demography depend on the environmental context

[1]  M. A. Assis,et al.  Family legacy: contrasting diversity–elevation relationships on a coastal Atlantic Forest mountain system , 2022, Plant Ecology.

[2]  F. de Bello,et al.  Floral and reproductive traits are an independent dimension within the plant economic spectrum of temperate Central Europe. , 2022, The New phytologist.

[3]  P. Brancalion,et al.  Small and slow is safe: On the drought tolerance of tropical tree species , 2022, Global change biology.

[4]  A. Gazol,et al.  Compound climate events increase tree drought mortality across European forests. , 2021, The Science of the total environment.

[5]  F. Bongers,et al.  Demographic differentiation among pioneer tree species during secondary succession of a Neotropical rainforest , 2021, Journal of Ecology.

[6]  F. He,et al.  Trait hierarchies are stronger than trait dissimilarities in structuring spatial co‐occurrence patterns of common tree species in a subtropical forest , 2021, Ecology and evolution.

[7]  M. Pärtel,et al.  Erosion of global functional diversity across the tree of life , 2021, Science Advances.

[8]  A. M. Torres,et al.  Diverging functional strategies but high sensitivity to an extreme drought in tropical dry forests , 2020, Ecology letters.

[9]  N. Swenson,et al.  Alternative designs and tropical tree seedling growth performance landscapes. , 2020, Ecology.

[10]  M. Breugel,et al.  Functional traits that moderate tropical tree recruitment during post‐windstorm secondary succession , 2020, Journal of Ecology.

[11]  J. Linares,et al.  Low growth resilience to drought is related to future mortality risk in trees , 2020, Nature Communications.

[12]  S. Hubbell,et al.  Lightning is a major cause of large tree mortality in a lowland Neotropical forest. , 2019, The New phytologist.

[13]  Bruno H. P. Rosado,et al.  Alternative plant designs: consequences for community assembly and ecosystem functioning. , 2019, Annals of botany.

[14]  M. Uriarte,et al.  Effects of neighborhood trait composition on tree survival differ between drought and post-drought periods. , 2019, Ecology.

[15]  H. Qian,et al.  V.PhyloMaker: an R package that can generate very large phylogenies for vascular plants , 2019, Ecography.

[16]  Craig C. Brelsford,et al.  Changes in leaf functional traits of rainforest canopy trees associated with an El Niño event in Borneo , 2019, Environmental Research Letters.

[17]  Bruno H. P. Rosado,et al.  Multidimensional ecological analyses demonstrate how interactions between functional traits shape fitness and life history strategies , 2019, Journal of Ecology.

[18]  Lia Hemerik,et al.  Amazonian rainforest tree mortality driven by climate and functional traits , 2019, Nature Climate Change.

[19]  N. Swenson,et al.  Functional perspectives on tropical tree demography and forest dynamics , 2019, Ecological Processes.

[20]  Anne D. Bjorkman,et al.  Global trait–environment relationships of plant communities , 2018, Nature Ecology & Evolution.

[21]  T. Wiegand,et al.  Phylogeny contributes more than site characteristics and traits to the spatial distribution pattern of tropical tree populations , 2018 .

[22]  Yadvinder Malhi,et al.  Drivers and mechanisms of tree mortality in moist tropical forests. , 2018, The New phytologist.

[23]  C. Körner Concepts in empirical plant ecology , 2018, Plant Ecology & Diversity.

[24]  D. Purves,et al.  Beyond the fast-slow continuum: demographic dimensions structuring a tropical tree community. , 2018, Ecology letters.

[25]  O. Gimenez,et al.  Delivering the promises of trait‐based approaches to the needs of demographic approaches, and vice versa , 2018, Functional ecology.

[26]  N. Swenson,et al.  Why Functional Traits Do Not Predict Tree Demographic Rates. , 2018, Trends in ecology & evolution.

[27]  Stephen A. Smith,et al.  Constructing a broadly inclusive seed plant phylogeny. , 2018, American journal of botany.

[28]  P. Adler,et al.  Survival rates indicate that correlations between community-weighted mean traits and environments can be unreliable estimates of the adaptive value of traits. , 2018, Ecology letters.

[29]  Eric R. Dougherty,et al.  Going through the motions: incorporating movement analyses into disease research , 2018, bioRxiv.

[30]  A. Moles Being John Harper: Using evolutionary ideas to improve understanding of global patterns in plant traits , 2018 .

[31]  D. Sheil,et al.  Definition and estimation of vital rates from repeated censuses: Choices, comparisons and bias corrections focusing on trees , 2017 .

[32]  Brian J. McGill,et al.  The bien r package: A tool to access the Botanical Information and Ecology Network (BIEN) database , 2017 .

[33]  C. Joly,et al.  Tree diversity and elevational gradient: The case of Lauraceae in the Atlantic Rainforest , 2017 .

[34]  O. Ovaskainen,et al.  Atlantic frugivory: a plant-frugivore interaction data set for the Atlantic Forest. , 2017, Ecology.

[35]  D. Laughlin,et al.  Constraints on trait combinations explain climatic drivers of biodiversity: the importance of trait covariance in community assembly. , 2017, Ecology letters.

[36]  Alice Boit,et al.  Resilience of Amazon forests emerges from plant trait diversity , 2016 .

[37]  M. Galetti,et al.  Seed Dispersal by Primates and Implications for the Conservation of a Biodiversity Hotspot, the Atlantic Forest of South America , 2016, International Journal of Primatology.

[38]  L. Poorter,et al.  Conservative species drive biomass productivity in tropical dry forests , 2016 .

[39]  S. McMahon,et al.  Demography beyond the population , 2016 .

[40]  W. Morris,et al.  Advancing environmentally explicit structured population models of plants , 2016 .

[41]  A. Tozzi,et al.  Leguminosae in an altitudinal gradient in the Atlantic Forest of Serra do Mar State Park, São Paulo, Brazil , 2016 .

[42]  K. Sam,et al.  Evaluating Functional Diversity: Missing Trait Data and the Importance of Species Abundance Structure and Data Transformation , 2016, PloS one.

[43]  Carlos A. Nobre,et al.  Some Characteristics and Impacts of the Drought and Water Crisis in Southeastern Brazil during 2014 and 2015 , 2016 .

[44]  Helene C. Muller-Landau,et al.  Functional traits as predictors of vital rates across the life cycle of tropical trees , 2016 .

[45]  Robin L. Chazdon,et al.  A trait‐mediated, neighbourhood approach to quantify climate impacts on successional dynamics of tropical rainforests , 2016 .

[46]  Bill Shipley,et al.  Reinforcing loose foundation stones in trait-based plant ecology , 2016, Oecologia.

[47]  Francis K. C. Hui,et al.  Plant functional traits have globally consistent effects on competition , 2015, Nature.

[48]  C. A. Coelho,et al.  Precipitation diagnostics of an exceptionally dry event in São Paulo, Brazil , 2016, Theoretical and Applied Climatology.

[49]  Nadejda A. Soudzilovskaia,et al.  The global spectrum of plant form and function: enhanced species-level trait dataset , 2022, Scientific Data.

[50]  Y. Buckley,et al.  Fast–slow continuum and reproductive strategies structure plant life-history variation worldwide , 2015, Proceedings of the National Academy of Sciences.

[51]  R. Ladle,et al.  On the need for phylogenetic ‘corrections’ in functional trait-based approaches , 2015, Folia Geobotanica.

[52]  L. Martinelli,et al.  Soil texture and chemical characteristics along an elevation range in the coastal Atlantic Forest of Southeast Brazil , 2015 .

[53]  Julie Messier,et al.  Fitness of multidimensional phenotypes in dynamic adaptive landscapes. , 2015, Trends in ecology & evolution.

[54]  Campbell O. Webb,et al.  Globally, functional traits are weak predictors of juvenile tree growth, and we do not know why , 2015 .

[55]  D. Bates,et al.  Fitting Linear Mixed-Effects Models Using lme4 , 2014, 1406.5823.

[56]  P. Reich The world‐wide ‘fast–slow’ plant economics spectrum: a traits manifesto , 2014 .

[57]  Peter B. Adler,et al.  Functional traits explain variation in plant life history strategies , 2013, Proceedings of the National Academy of Sciences.

[58]  L. Poorter,et al.  Effects of ENSO and Temporal Rainfall Variation on the Dynamics of Successional Communities in Old-Field Succession of a Tropical Dry Forest , 2013, PloS one.

[59]  P. Reich,et al.  New handbook for standardised measurement of plant functional traits worldwide , 2013 .

[60]  Christian Wirth,et al.  Functional traits explain light and size response of growth rates in tropical tree species. , 2012, Ecology.

[61]  Maryland Sanchez Lacerda,et al.  Floristic and phytosociology in permanent plots of the Atlantic Rainforest along an altitudinal gradient in southeastern Brazil , 2012 .

[62]  S. Vieira,et al.  Stocks of carbon and nitrogen and partitioning between above- and belowground pools in the Brazilian coastal Atlantic Forest elevation range , 2011, Ecology and evolution.

[63]  S. Higgins,et al.  TRY – a global database of plant traits , 2011, Global Change Biology.

[64]  David L. Erickson,et al.  Trait similarity, shared ancestry and the structure of neighbourhood interactions in a subtropical wet forest: implications for community assembly. , 2010, Ecology letters.

[65]  Nathan J B Kraft,et al.  Functional traits and the growth-mortality trade-off in tropical trees. , 2010, Ecology.

[66]  John-Arvid Grytnes,et al.  Niche conservatism as an emerging principle in ecology and conservation biology. , 2010, Ecology letters.

[67]  S. Vieira,et al.  Forest structure and live aboveground biomass variation along an elevational gradient of tropical Atlantic moist forest (Brazil) , 2010 .

[68]  N. McDowell,et al.  A global overview of drought and heat-induced tree mortality reveals emerging climate change risks for forests , 2010 .

[69]  L. Salemi Balanço de água e de nitrogênio em uma microbacia coberta por pastagem no litoral norte do Estado de São Paulo , 2009 .

[70]  J. Chave,et al.  Towards a Worldwide Wood Economics Spectrum 2 . L E a D I N G D I M E N S I O N S I N W O O D F U N C T I O N , 2022 .

[71]  J Elith,et al.  A working guide to boosted regression trees. , 2008, The Journal of animal ecology.

[72]  Campbell O. Webb,et al.  Are functional traits good predictors of demographic rates? Evidence from five neotropical forests. , 2008, Ecology.

[73]  Anne-Béatrice Dufour,et al.  The ade4 Package: Implementing the Duality Diagram for Ecologists , 2007 .

[74]  C. Violle,et al.  Let the concept of trait be functional , 2007 .

[75]  G. De’ath Boosted trees for ecological modeling and prediction. , 2007, Ecology.

[76]  B. Enquist,et al.  Rebuilding community ecology from functional traits. , 2006, Trends in ecology & evolution.

[77]  B. Kendall,et al.  Correctly Estimating How Environmental Stochasticity Influences Fitness and Population Growth , 2005, The American Naturalist.

[78]  J. Slik El Niño droughts and their effects on tree species composition and diversity in tropical rain forests , 2004, Oecologia.

[79]  Sean C. Thomas,et al.  The worldwide leaf economics spectrum , 2004, Nature.

[80]  L. Poorter,et al.  Light environment and tree strategies in a Bolivian tropical moist forest: an evaluation of the light partitioning hypothesis , 2003, Plant Ecology.

[81]  Mark Westoby,et al.  A leaf-height-seed (LHS) plant ecology strategy scheme , 1998, Plant and Soil.

[82]  P. Reich,et al.  A handbook of protocols for standardised and easy measurement of plant functional traits worldwide , 2003 .

[83]  A. S. Evans,et al.  The Evolution of Plant Ecophysiological Traits: Recent Advances and Future Directions , 2000 .

[84]  H. Safford Brazilian Páramos. I. An introduction to the physical environment and vegetation of the campos de altitude , 1999 .

[85]  J. Diniz‐Filho,et al.  AN EIGENVECTOR METHOD FOR ESTIMATING PHYLOGENETIC INERTIA , 1998, Evolution; international journal of organic evolution.

[86]  M. Wanderley,et al.  Flora fanerogamica do estado de sao paulo , 1996 .

[87]  D. Burslem,et al.  The interpretation and misinterpretation of mortality rate measures , 1995 .