← Back to DatasetsDataset

Data from: Globally, functional traits are weak predictors of juvenile tree growth, and we do not know why

Creators: Paine, C. E. Timothy, Amissah, Lucy, Auge, Harald, Baraloto, Christopher, Baruffol, Martin, Bourland, Nils, Bruelheide, Helge, Daïnou, Kasso, de Gouvenain, Roland C., Doucet, Jean-Louis, Doust, Susan, Fine, Paul V. A., Fortunel, Claire, Haase, Josephine, Holl, Karen D., Jactel, Hervé, li, Xuefei, Kitajima, Kaoru, Koricheva, Julia, Martínez-Garza, Cristina, Messier, Christian, Paquette, Alain, Philipson, Christopher, Piotto, Daniel, Poorter, Lourens, Posada, Juan M., Potvin, Catherine, Rainio, Kalle, Russo, Sabrina E., Ruiz-Jaen, Mariacarmen, Scherer-Lorenzen, Michael, Webb, Campbell O., Wright, S. Joseph, Zahawi, Rakan A., Hector, Andy
Year: 2015
DOI: 10.5061/dryad.h9083
License: CC0 (Public Domain)
Location: Global
Publisher: Dryad
Tags: Anacardium excelsum, Shorea beccariana, Pouteria grandiflora, Current-day, Inga punctata, Quercus rubra, Pentaspadon motleyi, Pachira flaviflora, Bernoullia flammea, Mansonia altissima, Swartzia simplex, Vitex pinnata, functional ecology, Shorea xanthophylla, Albizia saman, Inga auristellae, Licania macrophylla, Terminalia amazonia, Inga lopadadenia, Albizia adinocephala, Eschweilera sagotiana, Inga pezizifera, Protium unifoliolatum, Schizolobium amazonicum, Goupia glabra, Calophyllum longifolium, Quercus ilex, Acer campestre, Simarouba amara, Shorea laxa, Betula papyrifera, Luehea seemannii, Inga sinacae, FunDivEUROPE, Hieronyma alchorneoides, Sextonia rubra, Tocoyena pittieri, Beilschmiedia pendula, Nephelium lappaceum, Ocotea cymosa, Cedrela odorata, Qualea rosea, Xylosma spiculifera, Anisoptera grossivenia, Castanospora alphandii, Castanea henryi, Shorea leprosula, Dipterocarpus palembanicus, Shorea ovalis, Dipteryx oleifera, Schizolobium parahyba, Diospyros kaki, Cojoba arborea, Picea glauca, Larix decidua, Fraxinus excelsior, Sorbus aucuparia, Guarea guidonia, Lansium domesticum, Dicorynia guianensis, Jacaranda copaia, Enterolobium cyclocarpum, Randia armata, Pinus strobus, Lithocarpus glaber, Prunus avium, Swartzia grandifolia, Vatairea lundellii, Eschweilera grandiflora, Licania heteromorpha, Quercus myrsinifolia, Eriotheca globosa, Heliocarpus appendiculatus, Stephanostegia capuronii, Sclerolobium densiflorum, Virola surinamensis, Populus tremula, Larix sibirica, Castanopsis sclerophylla, Coussarea curvigemma, Protium sagotianum, Handroanthus guayacan, Colubrina glandulosa, Maquira guianensis, Cordia megalantha, Swartzia panacoco, Toxicodendron succedaneum, Alphitonia petriei, Phyllanthus salviifolius, Acer platanoides, Sorbus torminalis, Albizia zygia, Amburana cearensis, Lafoensia punicifolia, Artocarpus heterophyllus, Eugenia nesiotica, Swartzia polyphylla, Faramea occidentalis, Tilia cordata, Calycophyllum candidissimum, Eschweilera chartaceifolia_aff, Rinorea sylvatica, Spondias mombin, Eschweilera coriacea, Pachira aquatica, rgr, Picea abies, Terminalia oblonga, Protium opacum, Ochroma pyramidale, Phoebe microphylla, Parashorea malaanonan, Prunus buxifolia, Quercus robur, Lonchocarpus sericeus, Ficus pleurocarpa, Dipterocarpus acutangulus, Lophira alata, Poulsenia armata, Shorea faguetiana, Artocarpus integer, Cordia alliodora, Erythrina poeppigiana, Eperua grandiflora, Thuja occidentalis, Protium gallicum, Shorea gibbosa, Vatica nitens, Cardwellia sublimis, Protium meridionale, Gliricidia sepium, Albizia tomentosa, Posoqueria latifolia, Swartzia benthamiana, Terminalia ivorensis, Artocarpus incisus, Aspidosperma spruceanum, Diospyros cathayensis, Quercus pyrenaica, Swietenia macrophylla, Inga edulis, Virola koschnyi, Milicia excelsa, Fagus sylvatica, Khaya ivorensis, Baillonella toxisperma, Ceiba pentandra, Pinus resinosa, Pericopsis elata, Pachira brevipes, Parashorea tomentella, Aegiphila bogotensis, Guapira myrtiflora, Tarrietia utilis, Hopea dryobalanoides, Dalbergia retusa, Inga stipularis, Eperua falcata, Recordoxylon speciosum, Acer saccharum, Diphysa americana, Trichilia tuberculata, Sterculia apetala, Calophyllum brasiliense, Shorea macroptera, Quercus glauca, Paraserianthes falcataria, Picea rubens, Pinus massoniana, Quercus petraea, Platymiscium parviflorum, Aspidosperma megalocarpon, Garcinia intermedia, Dipterocarpus conformis, Harungana madagascariensis, Lacistema aggregatum, Larix laricina, Inga cayennensis, Aralia chinensis, Astronium lecointei, Castilla elastica, Tetragastris panamensis, Lindera limprichtii, Pachira sessilis, Shorea parvifolia, Carpinus betulus, Protium carnosum, Platypodium elegans, Durio zibethinus, Pinus pinaster, Sapindus mukorossi, Gustavia superba, Dysoxylum mollissimum, Pachira insignis, Albizia guachapele, Eriotheca longitubulosa, Garcinia macrophylla, Pouteria reticulata, Genipa americana, Protium aracouchini, Uapaca ferruginea, size-standardized growth rate, Shorea macrophylla, Lindera communis, Erythrina fusca, Brosimum alicastrum, Dipterocarpus globosus, Hura crepitans, Protium heptaphyllum, Cunninghamia lanceolata, Stemmadenia donnell-smithii, Acer pseudoplatanus, Stryphnodendron microstachyum, Heisteria concinna, Homalanthus novoguineensis, Micropholis egensis, Tabebuia rosea, Cecropia ficifolia, Vochysia ferruginea, Ficus yoponensis, Dryobalanops sumatrensis, Tapirira guianensis, Camellia oleifera, Sloanea obtusifolia, Protium decandrum, Tachigali versicolor, Shorea argentifolia, Pseudotsuga menziesii, Virola michelii, Bursera simaruba, Pentadesma butyracea, Hopea beccariana, Betula pendula, Baccaurea motleyana, Inga cf_coruscans, Intsia palembanica, Copaifera lucens, Mangifera indica, Alnus glutinosa, Cecropia obtusifolia, Astronium graveolens, Parkia speciosa, Pachira quinata, Tabernaemontana arborea, Vochysia guatemalensis, Micropholis guyanensis, Ulmus glabra, Licania platypus, Alangium chinense, Ormosia macrocalyx, Dryobalanops lanceolata, Guazuma ulmifolia, Pouteria sapota, Inga thibaudiana, Archidendron jiringa, Hymenaea courbaril, Pinus sylvestris, Hopea sangal, Acer rubrum, Hopea ferruginea, Chrysophyllum cainito, Amphitecna tuxtlensis, Cryptomeria japonica, Swartzia cf_laevicarpa, Dalbergia hupeana, Shorea johorensis, Virola sebifera, Balizia elegans, Dussia mexicana, Peronema canescens, Podocarpus neriifolius, Protium subserratum, Cedrela montana, Abies balsamea, Theobroma speciosum, Eugenia oerstediana, Cecropia sciadophylla, TreeDivNet, Micropholis venulosa, Betula alleghaniensis, Symphonia globulifera, Phoebe zhennan, Rollinia mucosa, Platymiscium pinnatum, Plant Biology, Geochemistry & Isotopes, Weather & Atmospheric Science

Description

1. Plant functional traits, in particular specific leaf area (SLA), wood density and seed mass, are often good predictors of individual tree growth rates within communities. Individuals and species with high SLA, low wood density and small seeds tend to have faster growth rates. 2. If community-level relationships between traits and growth have general predictive value, then similar relationships should also be observed in analyses that integrate across taxa, biogeographic regions and environments. Such global consistency would imply that traits could serve as valuable proxies for the complex suite of factors that determine growth rate, and, therefore, could underpin a new generation of robust dynamic vegetation models. Alternatively, growth rates may depend more strongly on the local environment or growth–trait relationships may vary along environmental gradients. 3. We tested these alternative hypotheses using data on 27 352 juvenile trees, representing 278 species from 27 sites on all forested continents, and extensive functional trait data, 38% of which were obtained at the same sites at which growth was assessed. Data on potential evapotranspiration (PET), which summarizes the joint ecological effects of temperature and precipitation, were obtained from a global data base. 4. We estimated size-standardized relative height growth rates (SGR) for all species, then related them to functional traits and PET using mixed-effect models for the fastest growing species and for all species together. 5. Both the mean and 95th percentile SGR were more strongly associated with functional traits than with PET. PET was unrelated to SGR at the global scale. SGR increased with increasing SLA and decreased with increasing wood density and seed mass, but these traits explained only 3.1% of the variation in SGR. SGR–trait relationships were consistently weak across families and biogeographic zones, and over a range of tree statures. Thus, the most widely studied functional traits in plant ecology were poor predictors of tree growth over large scales. 6. Synthesis. We conclude that these functional traits alone may be unsuitable for predicting growth of trees over broad scales. Determining the functional traits that predict vital rates under specific environmental conditions may generate more insight than a monolithic global relationship can offer.

Download DataView in CatalogView DOI Record

Local Knowledge Graph (14 entities)

Loading graph...

Related Works

Items connected by shared entities, co-authorship, citations, or semantic similarity.

Dataset

Data from: Size-related scaling of tree form and function in a mixed-age forest

201672% similar
Dataset

Data from: Are leaf functional traits “invariant” with plant size, and what is “invariance” anyway?

201572% similar
Article

Which is a better predictor of plant traits: temperature or precipitation?

2014Journal of Vegetation Science5 shared entities
Dataset

Data from: Seed size predicts community composition and carbon storage potential of tree communities in rainforest fragments in India’s Western Ghats

20194 shared entities
Article

TRY plant trait database - enhanced coverage and open access

2020Global Change Biology6 shared entities
Article

Scaling from traits to ecosystems: Developing a general trait driver theory via integrating trait-based and metabolic scaling theories

2015Advances in Ecological Research5 shared entities1 shared author
Document

Record of Decision Amendment of the Land and Resource Management Plan and Final Supplement to the Environmental Impact Statement

5 shared entities
Document

Key to the Genera and Species of Trees

52% similar
Document

Moist Forests

50% similar

Cited By (1 times, 1 in Knowledge Hub)

Article

Spatial patterns and climate relationships of major plant traits in the New World differ between woody and herbaceous species

2018