← Back to DatasetsDataset

Data from: Radial changes in wood specific gravity of tropical trees: inter- and intra-specific variation during secondary succession

Creators: Plourde, Benjamin T., Boukili, Vanessa, Chazdon, Robin, Boukili, Vanessa K., Chazdon, Robin L.
Year: 2015
DOI: 10.5061/dryad.sv181
License: CC0 (Public Domain)
Location: Costa Rica
Publisher: Dryad
Tags: Ocotea laetevirens, Apeiba membranacea, Qualea polychroma, Persea americana, Licaria misantlae, Lacunaria panamensis, second-growth, Cordia dwyeri, Lecythis ampla, Protium pittieri, Miconia affinis, Inga alba, Cecropia insignis, Calophyllum brasiliense, Guarea rhopalocarpa, Pourouma bicolor, Miconia multispicata, Protium confusum, Croton schiedeanus, Nectandra umbrosa, Zanthoxylum ekmanii, Inga pezizifera, Inga venusta, Pourouma minor, Quararibea ochrocalyx, Tetragastris panamensis, Miconia elata, Simarouba amara, Naucleopsis naga, Virola multiflora, Hirtella media, Vitex cooperi, Brosimum lactescens, Dipteryx panamensis, Hernandia didymantha, Aspidosperma desmanthum, Cespedesia spathulata, Goethalsia meiantha, biomass estimate, Stryphnodendron microstachyum, Annona papilionella, Guarea guidonia, Xylopia sericophylla, Carapa nicaraguensis, Richeria obouata, Jacaranda copaia, Humiriastrum diguense, Wood density, Quararibea bracteolosa, Vismia macrophylla, Vochysia ferruginea, Byrsonima crassifolia, Alchornea costaricensis, Brosimum guianensis, Tapirira guianensis, Lacmellea panamensis, Handroanthus chrysanthus, Dendropanax arboreus, Pera arborea, Guarea bullata, Inga spectabilis, Casearia arborea, Byrsonima arthropoda, radial gradients, Inga cocleensis, Unonopsis pittieri, Pseudolmedia spuria, Rauvolfia purpurascens, Vochysia guatemalensis, Pentaclethra macroloba, Maranthes panamensis, Trichilia septentrionalis, Inga leiocalycina, Cordia bicolor, Inga thiboudiana, Alchornea latifolia, Cordia alliodora, Borojoa panamensis, Laetia procera, Pouteria durlandii, Ampelocera macrocarpa, Virola sebifera, Balizia elegans, Ocotea sp1, allocation, Alchorneopsis floribunda, Minquartia guianensis, Protium ravenii, Protium panamense, Zanthoxylum panamense, Conceveiba pleiostemona, Hampea appendiculata, Cupania glabra, Virola koschnyi, Croton smithianus, Pouteria calistophylla, forest regeneration, Forest Ecology, Plant Biology, Invasive Species & Disturbance

Description

Variation in wood specific gravity (WSG) within and across species of tropical trees is poorly studied in relation to vegetation change during tropical forest succession. We investigated WSG of 91 species in eight long-term plots along a successional chronosequence in northeastern Costa Rica. Radial changes in WSG were described by the rate of change (slope) along the stem radius. Significant radial changes were found in 42 of 74 species, with 37 species exhibiting increases from inner to outer wood, and 5 exhibiting decreases. Radial increases were commonly observed in species with inner WSG below 0.5, whereas radial decreases were observed in species with inner WSG above 0.7. Wood specific gravity weighted by cross-sectional area (wWSG) varied four-fold among species. Species classified as second-growth specialists had lower wWSG, lower inner and outer WSG, and higher slopes than old-growth specialists; successional generalists showed intermediate trait values. Among 18 species sampled in both second- and old-growth forests, 4 species (22%) showed significant variation in wWSG between forest types. Of 33 widely sampled species, seven species (21%) showed a significant effect of stem diameter on wWSG. Second-growth plots had lower stand-level wWSG and more pronounced radial increases than old-growth plots. Individual tree biomass for species with radial increases and low WSG was substantially underestimated when based on unweighted WSG compared to wWSG. Wood specific gravity varied with successional stage at multiple levels: within species, among successional specialist groups, and across plots of varying ages. Radial increases in WSG are common among trees in early and intermediate stages of tropical forest succession. This trait may confer growth advantages early in succession and increased resistance to physical or biotic damage during later successional stages.

Download DataView in CatalogView DOI Record

Local Knowledge Graph (9 entities)

Loading graph...

Related Works

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

Dataset

Data from: Interspecific functional convergence and divergence and intraspecific negative density dependence underlie the seed-to-seedling transition in tropical trees

201563% similar
Dataset

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

201662% similar
Dataset

Data from: Tropical trees in a wind-exposed island ecosystem: height-diameter allometry and size at onset of maturity

201562% similar
Article

Dead wood biomass and turnover time, measured by radiocarbon, along a subalpine elevation gradient

2004Oecologia58% similar
Article

Plant succession on fallen logs in a virgin sprucefir forest

1948Ecology57% similar
Article

Using tree rings to predict the response of tree growth to climate change in the continental United States during the twenty-first century

2010Earth Interactions57% similar
Document

Key to the Genera and Species of Trees

49% similar
Document

Moist Forests

48% similar
Document

Trees for Conservation: A Buyers Guide

45% 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