Data from: Convergent effects of elevation on functional leaf traits within and among species ...

1.Spatial variation in filters imposed by the abiotic environment causes variation in functional traits within and among plant species. This is abundantly clear for plant species along elevational gradients, where parallel abiotic selection pressures give rise to predictable variation in leaf phenot...

Full description

Bibliographic Details
Main Authors: Read, Quentin D., Moorhead, Leigh C., Swenson, Nathan G., Bailey, Joseph K., Sanders, Nathan J.
Format: Dataset
Language:English
Published: Dryad 2013
Subjects:
Pinus flexilis
Vaccinium myrtillus
Aster tataricus
leaf nitrogen
Polygonum cuspidatum
Aquilegia
Nardus stricta
Quercus guyavifolia
Hippophae rhamnoides
Populus angustifolia
Pinus cembra
Nothofagus antarctica
Quercus aquifolioides
Betula ermanii
Abies faxoniana
Quercus petraea
Pinus canariensus
LMA
Leontopodium leontopodioides
Spiraea prunifolia
Darlingtonia californica
Populus fremontii
Spartocytisus supranubius
Miscanthus
Erysimum scoparium
Metrosideros polymorpha
Picea crassifolia
Quercus liaotungensis
Sorbus commixta
Primula glaucescens
Nothofagus pumilio
Community structure
Geum wilfordii
Picea abies
Fagus sylvatica
Antarc*
Antarctica
Online Access:https://dx.doi.org/10.5061/dryad.4q2f3
https://datadryad.org/stash/dataset/doi:10.5061/dryad.4q2f3
Description
Summary:1.Spatial variation in filters imposed by the abiotic environment causes variation in functional traits within and among plant species. This is abundantly clear for plant species along elevational gradients, where parallel abiotic selection pressures give rise to predictable variation in leaf phenotypes among ecosystems. Understanding the factors responsible for such patterns may provide insight into the current and future drivers of biodiversity, local community structure, and ecosystem function. 2.In order to explore patterns in trait variation along elevational gradients, we conducted a meta-analysis of published observational studies that measured three key leaf functional traits that are associated with axes of variation in both resource competition and stress tolerance: leaf mass:area ratio (LMA), leaf nitrogen content per unit mass (Nmass), and N content per unit area (Narea). To examine whether there may be evidence for a genetic basis underlying the trait variation, we conducted a review of ... : Summary data for leaf N studies in meta-analysisThis file contains summary information and calculated effect sizes extracted from studies that measured leaf Nmass and/or Narea along an elevational gradient. Column titles: study, author and year published, see online appendix S1; r, untransformed correlation coefficient (effect size); n. sites, number of sites sampled; indiv.per.site, number of plants sampled per site; n. indiv., total number of plants sampled; n. reg., n used for the regression where r was estimated; by.mass.or.area, which of Nmass or Narea was measured; within.or.among, whether interspecific or intraspecific variation was sampled; pft, plant functional type; biome, which of temperate/tropical/boreal; grad.min, minimum elevation; grad.max, maximum elevation; lat.mean, mean latitude; species, 1 or more species measured; details, notes if necessary.leafn3.csvSummary data for LMA studies in meta-analysisThis file contains summary information and calculated effect sizes extracted from studies ...

Similar Items