8 results on '"Wright, S. Joseph"'
Search Results
2. Leaf life span spectrum of tropical woody seedlings: effects of light and ontogeny and consequences for survival.
- Author
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Kitajima, Kaoru, Cordero, Roberto A., and Wright, S. Joseph
- Subjects
LEAF aging ,SEEDLINGS ,EFFECT of light on plants ,ONTOGENY ,PLANT mortality ,BOTANICAL databases - Abstract
Background and Aims Leaf life span is widely recognized as a key life history trait associated with herbivory resistance, but rigorous comparative data are rare for seedlings. The goal of this study was to examine how light environment affects leaf life span, and how ontogenetic development during the first year may influence leaf fracture toughness, lamina density and stem density that are relevant for herbivory resistance, leaf life span and seedling survival. Methods Data from three experiments encompassing 104 neotropical woody species were combined. Leaf life span, lamina and vein fracture toughness, leaf and stem tissue density and seedling survival were quantified for the first-year seedlings at standardized ontogenetic stages in shade houses and common gardens established in gaps and shaded understorey in a moist tropical forest in Panama. Mortality of naturally recruited seedlings till 1 year later was quantified in 800 1-m2 plots from 1994 to 2011. Key Results Median leaf life span ranged widely among species, always greater in shade (ranging from 151 to >1790 d in the understorey and shade houses) than in gaps (115–867 d), but with strong correlation between gaps and shade. Leaf and stem tissue density increased with seedling age, whereas leaf fracture toughness showed only a weak increase. All these traits were positively correlated with leaf life span. Leaf life span and stem density were negatively correlated with seedling mortality in shade, while gap mortality showed no correlation with these traits. Conclusions The wide spectrum of leaf life span and associated functional traits reflects variation in shade tolerance of first-year seedlings among coexisting trees, shrubs and lianas in this neotropical forest. High leaf tissue density is important in enhancing leaf toughness, a known physical defence, and leaf life span. Both seedling leaf life span and stem density should be considered as key functional traits that contribute to seedling survival in tropical forest understoreys. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
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3. Demographic consequences of chromatic leaf defence in tropical tree communities: do red young leaves increase growth and survival?
- Author
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Queenborough, Simon A., Metz, Margaret R., Valencia, Renato, and Wright, S. Joseph
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DEMOGRAPHIC characteristics ,PLANT defenses ,LEAF color ,LEAF aging ,PLANT growth ,PLANT mortality ,PLANT species - Abstract
Background Many tropical forest tree species delay greening their leaves until full expansion. This strategy is thought to provide newly flushing leaves with protection against damage by herbivores by keeping young leaves devoid of nutritive value. Because young leaves suffer the greatest predation from invertebrate herbivores, delayed greening could prevent costly tissue loss. Many species that delay greening also produce anthocyanin pigments in their new leaves, giving them a reddish tint. These anthocyanins may be fungicidal, protect leaves against UV damage or make leaves cryptic to herbivores blind to the red part of the spectrum. Methods A comprehensive survey was undertaken of seedlings, saplings and mature trees in two diverse tropical forests: a rain forest in western Amazonia (Yasuní National Park, Ecuador) and a deciduous forest in Central America (Barro Colorado Island, Panamá). A test was made of whether individuals and species with delayed greening or red-coloured young leaves showed lower mortality or higher relative growth rates than species that did not. Key results At both Yasuní and Barro Colorado Island, species with delayed greening or red young leaves comprised significant proportions of the seedling and tree communities. At both sites, significantly lower mortality was found in seedlings and trees with delayed greening and red-coloured young leaves. While there was little effect of leaf colour on the production of new leaves of seedlings, diameter relative growth rates of small trees were lower in species with delayed greening and red-coloured young leaves than in species with regular green leaves, and this effect remained when the trade-off between mortality and growth was accounted for. Conclusions Herbivores exert strong selection pressure on seedlings for the expression of defence traits. A delayed greening or red-coloured young leaf strategy in seedlings appears to be associated with higher survival for a given growth rate, and may thus influence the species composition of later life stages. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
4. Foliar respiration and its temperature sensitivity in trees and lianas: in situ measurements in the upper canopy of a tropical forest.
- Author
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Slot, Martijn, Wright, S. Joseph, and Kitajima, Kaoru
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FOLIAR feeding , *RESPIRATION in plants , *TEMPERATURE , *FORESTRY research , *HYPOTHESIS - Abstract
Leaf dark respiration (R) and its temperature sensitivity are essential for efforts to model carbon fluxes in tropical forests under current and future temperature regimes, but insufficient data exist to generalize patterns of R in species-rich tropical forests. Here, we tested the hypothesis that R and its temperature sensitivity (expressed as Q10, the proportional increase in R with a 10 °C rise in temperature) vary in relation to leaf functional traits, and among plant functional types (PFTs). We conducted in situ measurements of R of 461 leaves of 26 species of tree and liana in the upper canopy of a tropical forest in Panama. A construction crane allowed repeated non-destructive access to measure leaves kept in the dark since the previous night and equilibrated to the ambient temperature of 23–31 °C in the morning. R at 25 °C (R25) varied among species (mean 1.11 μmol m−2 s−1; range 0.72–1.79 μmol m−2 s−1) but did not differ significantly among PFTs. R25 correlated positively with photosynthetic capacity, leaf mass per unit area, concentrations of nitrogen and phosphorus, and negatively with leaf lifespan. Q10 estimated for each species was on average higher than the 2.0 often assumed in coupled climate–vegetation models (mean 2.19; range 1.24–3.66). Early-successional tree species had higher Q10 values than other functional types, but interspecific variation in Q10 values was not correlated with other leaf traits. Similarity in respiration characteristics across PFTs, and relatively strong correlations of R with other leaf functional traits offer potential for trait-based vegetation modeling in species-rich tropical forests. [ABSTRACT FROM PUBLISHER]
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- 2013
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5. Reproductive ecology of 21 coexisting Psychotria species (Rubiaceae): when is heterostyly lost?
- Author
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SAKAI, SHOKO and WRIGHT, S. JOSEPH
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PSYCHOTRIA , *RUBIACEAE , *HETEROSTYLISM , *PLANT reproduction , *GENETIC polymorphisms , *ECOLOGY - Abstract
Heterostyly is a genetic polymorphism in which plant populations are composed of two or more morphs that differ in stigma and anther heights. The polymorphism promotes intermorph pollen transfer, thus outcrossing. Heterostyly has been reported in 28 angiosperm families and is frequently lost in heterostylous lineages. To assess ecological factors related to shifts from heterostyly to monomorphy, we examined the reproductive ecology of heterostylous tropical shrubs of Psychotria. Among 21 species at Barro Colorado Island and the nearby Parque Nacional Soberania, Panama, 14 species were heterostylous while seven were monomorphic. A molecular phylogeny and the existence elsewhere of heterostylous populations indicated that the breakdown of heterostyly had occurred independently. Heterostylous and monomorphic species were visited by the same bee species, although visit frequencies were lower in monomorphic species. Monomorphic species had significantly lower population density and greater fruit set than did heterostylous species. Autonomous autogamy made a large contribution to fruit set in monomorphic species and was only rarely observed in heterostylous species. The results indicate monomorphic and heterostylous species produce more seeds through selfing and outcrossing, respectively. The limitation of outcrossing as a result of low population density may be related to the breakdown of heterostyly and the evolution of selfing. © 2008 The Linnean Society of London, Biological Journal of the Linnean Society, 2008, 93, 125–134. [ABSTRACT FROM AUTHOR]
- Published
- 2008
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6. Variation in Crown Light Utilization Characteristics among Tropical Canopy Trees.
- Author
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KITAJIMA, KAORU, MULKEY, STEPHEN S., and WRIGHT, S. JOSEPH
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PLANT canopies ,FORESTS & forestry ,LEAVES ,PHOTOSYNTHESIS ,ANACARDIUM ,CECROPIA ,BIOLOGICAL extinction - Abstract
• Background and Aims Light extinction through crowns of canopy trees determines light availability at lower levels within forests. The goal of this paper is the exploration of foliage distribution and light extinction in crowns of five canopy tree species in relation to their shoot architecture, leaf traits (mean leaf angle, life span, photosynthetic characteristics) and successional status (from pioneers to persistent). [ABSTRACT FROM PUBLISHER]
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- 2005
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7. Mechanics and chemistry of rain forest leaves: canopy and understorey compared*.
- Author
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Dominy, Nathaniel J., Lucas, Peter W., and Wright, S. Joseph
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RAIN forests ,RESOURCE availability (Ecology) ,TREES ,AROMATIC compounds - Abstract
Despite the potential for changes during transit or preservation, the physicochemical properties of leaves are typically measured in a laboratory setting. A suite of laboratory methods adapted for use in the field is described here. The equipment is portable and operable in remote environments. Each technique has been validated against laboratory standards and has been tested throughout the tropics in a variety of ecological contexts. The properties of canopy and understorey leaves from Central Panama are reported here. The results show clear differences between leaves growing in different light regimes. Canopy leaves are tougher and possess greater concentrations of protein, phenols, and tannins. The implication of these results to the resource availability hypothesis, which proposes trade‐offs between physiology and defences against herbivory, is discussed. [ABSTRACT FROM PUBLISHER]
- Published
- 2003
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8. The Status of the Panama Canal Watershed and Its Biodiversity at the Beginning of the 21st Century.
- Author
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Condit, Richard, Robinson, W. Douglas, Ibanez, Roberto, Aguilar, Salomon, Sanjur,, Amelia, Martinez, Raul, Stallard, Robert F., Garcia, Tomas, Angehr, George R., Petit, Lisa, Wright, S. Joseph, Robinson, Tara R., and Heckadon, Stanley
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PANAMA Canal (Panama) ,WATERSHED ecology ,BIODIVERSITY ,ECOLOGY - Abstract
Examines the ecosystem integrity of the Panama Canal, and challenges for conservation in a biologically diverse watershed area adjacent to canal. Description of watershed area; Determination of how much land remains forested in an area; Tree species diversity; Identification of bird species in an area; Activity which affects the area, including hunting, human population, canal's water supply, and greenhouse gases.
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- 2001
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