Individual traits modify environmental effects on interaction, connectivity, and productivity of macrophyte community

[1]  Dan Yu,et al.  The effect of trait‐based diversity on productivity results mainly from intraspecific trait variability in the macrophyte community , 2022, Freshwater Biology.

[2]  K. Niu,et al.  Nitrogen enrichment and warming shift community functional composition via distinct mechanisms: the role of intraspecific trait variability and species turnover , 2022, Functional Ecology.

[3]  F. Bongers,et al.  Functional diversity effects on productivity increase with age in a forest biodiversity experiment , 2021, Nature Ecology & Evolution.

[4]  B. Shapiro,et al.  Conserving intraspecific variation for nature’s contributions to people , 2021, Nature Ecology & Evolution.

[5]  S. Mammola,et al.  Concepts and applications in functional diversity , 2020, Functional Ecology.

[6]  E. Jeppesen,et al.  Trait-based community assembly of submersed macrophytes subjected to nutrient enrichment in freshwater lakes: Do traits at the individual level matter? , 2020 .

[7]  J. Lepš,et al.  Trait Probability Density (TPD): measuring functional diversity across scales based on trait probability density with R. , 2019, Ecology.

[8]  Dongsheng Zou,et al.  Environmental effects on community productivity of aquatic macrophytes are mediated by species and functional composition , 2019, Ecohydrology.

[9]  E. Jeppesen,et al.  Local and regional drivers of turnover and nestedness components of species and functional beta diversity in lake macrophyte communities in China. , 2019, The Science of the total environment.

[10]  M. Ordano,et al.  Does accounting for within-individual trait variation matter for measuring functional diversity? , 2019, Ecological Indicators.

[11]  S. Blanchet,et al.  The community and ecosystem consequences of intraspecific diversity: a meta-analysis , 2018, bioRxiv.

[12]  C. Violle,et al.  Multiple facets of diversity effects on plant productivity: Species richness, functional diversity, species identity and intraspecific competition , 2019, Functional Ecology.

[13]  M. V. D. van der Heijden,et al.  Agricultural intensification reduces microbial network complexity and the abundance of keystone taxa in roots , 2018, The ISME Journal.

[14]  B. Blonder Hypervolume concepts in niche‐ and trait‐based ecology , 2018 .

[15]  Dongsheng Zou,et al.  Hydrological gradients and functional diversity of plants drive ecosystem processes in Poyang Lake wetland , 2018 .

[16]  Jun Xu,et al.  Functional traits mediated cascading effects of water depth and light availability on temporal stability of a macrophyte species , 2018, Ecological Indicators.

[17]  B. Wilsey,et al.  Variability in community productivity—mediating effects of vegetation attributes , 2018 .

[18]  M. Westoby,et al.  Habitat filtering determines the functional niche occupancy of plant communities worldwide , 2018 .

[19]  Jun Xu,et al.  Scale-dependent changes in the functional diversity of macrophytes in subtropical freshwater lakes in south China , 2017, Scientific Reports.

[20]  M. Cadotte,et al.  Functional traits explain ecosystem function through opposing mechanisms. , 2017, Ecology letters.

[21]  K. McMahon,et al.  Cohesion: a method for quantifying the connectivity of microbial communities , 2017, The ISME Journal.

[22]  J. A. Bennett,et al.  The reciprocal relationship between competition and intraspecific trait variation , 2016 .

[23]  Jan Lepš,et al.  Traits Without Borders: Integrating Functional Diversity Across Scales. , 2016, Trends in ecology & evolution.

[24]  M. Cadotte,et al.  Predicting communities from functional traits. , 2015, Trends in ecology & evolution.

[25]  C. Lortie,et al.  Competition, facilitation and environmental severity shape the relationship between local and regional species richness in plant communities , 2015 .

[26]  Jun Xu,et al.  Trait-based community assembly of aquatic macrophytes along a water depth gradient in a freshwater lake , 2014 .

[27]  Min Cao,et al.  Functional and phylogenetic assembly in a Chinese tropical tree community across size classes, spatial scales and habitats , 2014 .

[28]  P. Xie,et al.  Functional traits composition predict macrophytes community productivity along a water depth gradient in a freshwater lake , 2014, Ecology and evolution.

[29]  C. Violle,et al.  Intraspecific trait variability mediates the response of subalpine grassland communities to extreme drought events , 2014 .

[30]  Jiayou Zhong,et al.  A functional-trait approach reveals community diversity and assembly processes responses to flood disturbance in a subtropical wetland , 2014, Ecological Research.

[31]  Bill Shipley,et al.  The AIC model selection method applied to path analytic models compared using a d-separation test. , 2013, Ecology.

[32]  Eric Garnier,et al.  Community assembly along a soil depth gradient: contrasting patterns of plant trait convergence and divergence in a Mediterranean rangeland , 2012 .

[33]  A. Siefert Incorporating intraspecific variation in tests of trait-based community assembly , 2012, Oecologia.

[34]  Cyrille Violle,et al.  The return of the variance: intraspecific variability in community ecology. , 2012, Trends in ecology & evolution.

[35]  S. Lavorel,et al.  On the importance of intraspecific variability for the quantification of functional diversity , 2012 .

[36]  Lucien Hoffmann,et al.  Intraspecific variability and trait‐based community assembly , 2010 .

[37]  David D. Ackerly,et al.  Functional trait and phylogenetic tests of community assembly across spatial scales in an Amazonian forest , 2010 .

[38]  Kaoru Kitajima,et al.  Tissue-level leaf toughness, but not lamina thickness, predicts sapling leaf lifespan and shade tolerance of tropical tree species. , 2010, The New phytologist.

[39]  Frans Bongers,et al.  Functional traits and environmental filtering drive community assembly in a species-rich tropical system. , 2010, Ecology.

[40]  C. Violle,et al.  Intraspecific seed trait variations and competition: passive or adaptive response? , 2009 .

[41]  G. Bell,et al.  The relationship between environmental complexity, species diversity and productivity in a natural reconstructed yeast community , 2009 .

[42]  Bill Shipley,et al.  Confirmatory path analysis in a generalized multilevel context. , 2009, Ecology.

[43]  Shikai Wu,et al.  TN : TP ratio and planktivorous fish do not affect nutrient‐chlorophyll relationships in shallow lakes , 2008 .

[44]  S. Lavorel,et al.  Incorporating plant functional diversity effects in ecosystem service assessments , 2007, Proceedings of the National Academy of Sciences.

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

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

[47]  B. Worm,et al.  Biodiversity, productivity and stability in real food webs , 2003 .

[48]  M. Westoby,et al.  ECOLOGICAL STRATEGIES : Some Leading Dimensions of Variation Between Species , 2002 .

[49]  J. Simonoff Multivariate Density Estimation , 1996 .

[50]  Louis W. Glorfeld An Improvement on Horn's Parallel Analysis Methodology for Selecting the Correct Number of Factors to Retain , 1995 .