Your search keyword '"Osazuwa-Peters, Oyomoare L."' showing total 2 results

1. RADIAL VARIATION IN WOOD SPECIFIC GRAVITY OF TROPICAL TREE SPECIES DIFFERING IN GROWTH-MORTALITY STRATEGIES.

Author

Osazuwa‐Peters, Oyomoare L., Wright, S. Joseph, and Zanne, Amy E.

Subjects

*WOOD, *PLANT biomass, *FORESTS & forestry, *PLANT mortality, *PLANT growth

Abstract

* Premise of the study: Wood specific gravity (WSG) mediates an interspecific trade-off between growth and mortality and is a key measure for estimating carbon stocks. Most studies use species mean values to represent WSG, despite variation at different levels of biological organization. We examined sources of variation in WSG across four nested scales (segments within cores, cores within trees, trees within species, and species), compared the pattern of radial variation in WSG among species differing in growth strategies, and investigated the effect of WSG radial variation on aboveground biomass estimates. * Methods: We took two perpendicular cores from six individuals each of 20 tropical tree species representing a broad range of mean WSGs and growth-mortality strategies in a lowland tropical moist forest in Panama. Cores were divided into 1-cm segments, and WSG was determined for each segment. * Key results: The bulk of the total variance in WSG was dominated by interspecies variation (88%), whereas variation due to measurement error, segments within cores, and cores within trees (8%) was minimal. Radial variation in WSG, defined as change in WSG with increasing distance from the pith, was significant in 17 of the 20 species and included significant monotonie increases in 6 species and nonmonotonic patterns in 11 species. Radial variation in WSG resulted in a small but significant bias in aboveground biomass estimates. * Conclusions: Radial variation in WSG is related to a species' growth strategy and, though minimal compared with interspecific variation in WSG, can cause a downward bias when not incorporated into aboveground biomass estimates. [ABSTRACT FROM AUTHOR]

Published

2014

2. Linking wood traits to vital rates in tropical rainforest trees: Insights from comparing sapling and adult wood.

Author

Osazuwa-Peters OL, Wright SJ, and Zanne AE

Subjects

Panama, Phenotype, Rainforest, Seedlings anatomy & histology, Seedlings growth & development, Trees anatomy & histology, Wood anatomy & histology, Trees growth & development, Wood growth & development

Abstract

Premise of the Study: Wood density is the top predictor of growth and mortality rates (vital rates) but with modest explanatory power at best. Stronger links to vital rates are expected if wood density is decomposed into its anatomical properties at sapling and adult stages, since saplings and adults differ in wood traits and vital rates. We examined whether anatomical determinants of wood density and strength of the relationship between wood traits and vital rates shift between saplings and adults., Methods: Using wood segments from near pith (sapling) and near bark (adult) for 20 tree species (three adults each) from Barro Colorado Island, Panama, we quantified wood traits. Vital rates for saplings and adults were obtained from an earlier study., Key Results: Anatomical predictors of wood density were similar for sapling and adult wood, with wood density variation largely explained by fiber lumen area and fiber wall fraction. In sapling wood only, growth rates decreased with fiber wall fraction and increased with fiber lumen area, while mortality rates increased with vessel area but decreased with fiber wall fraction and vessel density., Conclusions: Wood traits of sapling trees provide functional insight into the growth-mortality tradeoff. Sapling wood with relatively large fiber lumen area and wide vessels, enabling faster hydraulic transport but less mechanical strength, is associated with fast growth and high mortality. Sapling wood with relatively more fiber wall and many narrow vessels, enabling greater mechanical strength but slower hydraulic transport, is associated with slow growth and low mortality., (© 2017 Botanical Society of America.)

Published

2017