28 results on '"Wright, S. Joseph"'
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2. Forest tree neighborhoods are structured more by negative conspecific density dependence than by interactions among closely related species.
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Chen, Lei, Comita, Liza S., Wright, S. Joseph, Swenson, Nathan G., Zimmerman, Jess K., Mi, Xiangcheng, Hao, Zhanqing, Ye, Wanhui, Hubbell, Stephen P., Kress, W. John, Uriarte, Maria, Thompson, Jill, Nytch, Christopher J., Wang, Xugao, Lian, Juyu, and Ma, Keping
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DENSITY dependence in plants ,DENSITY dependence (Ecology) ,COMPETITION (Biology) ,BIOLOGICAL divergence ,PLANT genetics ,PLANT phylogeny ,FORESTS & forestry - Abstract
Interactions among neighbors influence the structure of communities of sessile organisms. Closely related species tend to share habitat and resource requirements and to interact with the same mutualists and natural enemies so that the strength of interspecific interactions tends to decrease with evolutionary divergence time. Nevertheless, the degree to which such phylogenetically related ecological interactions structure plant communities remains unclear. Using data from five large mapped forest plots combined with a DNA barcode mega‐phylogeny, we employed an individual‐based approach to assess the collective effects of focal tree size on neighborhood phylogenetic relatedness. Abundance‐weighted average divergence time for all neighbors (ADT_all) and for heterospecific neighbors only (ADT_hetero) were calculated for each individual of canopy tree species. Within local neighborhoods, we found phylogenetic composition changed with focal tree size. Specifically, significant increases in ADT_all with focal tree size were evident at all sites. In contrast, there was no significant change in ADT_hetero with tree size in four of the five sites for both sapling‐sized and all neighbors, even at the smallest neighbourhood scale (0–5 m), suggesting a limited role for phylogeny‐dependent interactions. However, there were inverse relationships between focal tree size and the proportion of heterospecific neighbors belonging to closely related species at some sites, providing evidence for negative phylogenetic density dependence. Overall, our results indicate that negative interaction with conspecifics had a much greater impact on neighborhood assemblages than interactions among closely related species and could contribute to community structure and diversity maintenance in different forest communities. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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3. Inter‐annual variability of fruit timing and quantity at Nouragues (French Guiana): insights from hierarchical Bayesian analyses.
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Mendoza, Irene, Condit, Richard S., Wright, S. Joseph, Caubère, Adeline, Châtelet, Patrick, Hardy, Isabelle, and Forget, Pierre‐Michel
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FRUIT development ,FORESTS & forestry ,PLANT communities ,RAIN forests ,HIERARCHICAL Bayes model - Abstract
Copyright of Biotropica is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2018
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- View/download PDF
4. Solar irradiance as the proximate cue for flowering in a tropical moist forest.
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Wright, S. Joseph and Calderón, Osvaldo
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FORESTS & forestry ,EFFECT of solar radiation on plants ,FLOWERING time ,RAINFALL - Abstract
Copyright of Biotropica is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2018
- Full Text
- View/download PDF
5. Cross-boundary subsidy cascades from oil palm degrade distant tropical forests.
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Luskin, Matthew Scott, Brashares, Justin S., Ickes, Kalan, I-Fang Sun, Fletcher, Christine, Wright, S. Joseph, and Potts, Matthew D.
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SPECIES ,FORAGE ,ECOSYSTEMS ,OIL palm ,WILD boar ,FORESTS & forestry ,MARINE ecology - Abstract
Native species that forage in farmland may increase their local abundances thereby affecting adjacent ecosystems within their landscape. We used two decades of ecological data from a protected primary rainforest in Malaysia to illutrate how subsidies from neighboring oil palm plantations triggered powerful secondary 'cascading' effects on natural habitats located >1.3 km away. We found (i) oil palm fruit drove 100-fold increases in crop-raiding native wild boar (Sus scrofa), (ii) wild boar used thousands of understory plants to construct birthing nests in the pristine forest interior, and (iii) nest building caused a 62% decline in forest tree sapling density over the 24-year study period. The long-term, landscape-scale indirect effects from agriculture suggest its full ecological footprint may be larger in extent than is currently recognized. Cross-boundary subsidy cascades may be widespread in both terrestrial and marine ecosystems and present significant conservation challenges. [ABSTRACT FROM AUTHOR]
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- 2017
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6. RADIAL VARIATION IN WOOD SPECIFIC GRAVITY OF TROPICAL TREE SPECIES DIFFERING IN GROWTH-MORTALITY STRATEGIES.
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Osazuwa‐Peters, Oyomoare L., Wright, S. Joseph, and Zanne, Amy E.
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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]
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- 2014
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7. Species-specific responses of foliar nutrients to long-term nitrogen and phosphorus additions in a lowland tropical forest.
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Mayor, Jordan R., Wright, S. Joseph, Turner, Benjamin L., and Austin, Amy
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PLANT nutrients , *COMPOSITION of leaves , *FORESTS & forestry , *TREES , *PLANT ecology - Abstract
The concentration, stoichiometry and resorption of nitrogen ( N) and phosphorus ( P) in plant leaves are often used as proxies of the availability of these growth-limiting nutrients, but the responses of these metrics to changes in nutrient availability remain largely untested for tropical forest trees., We evaluated changes in N and P concentrations, N/ P ratios and resorption for four common tree species after 13 years of factorial N and P additions in a lowland tropical forest in Panama., Chronic P addition increased foliar P concentrations, decreased P resorption proficiency and decreased N/ P ratios in three locally common eudicot tree species ( Alseis blackiana, Heisteria concinna, Tetragastris panamensis). The increase in foliar P involved similar proportional increases in organic and inorganic P in two species and a disproportionately large increase in inorganic P in A. blackiana., Nitrogen addition did not alter foliar N concentrations in any species, but did decrease N resorption proficiency in H. concinna., A fourth species, the palm Oenocarpus mapora, demonstrated remarkably static foliar nutrient concentrations, responding only with a marginal decrease in P resorption proficiency under N plus P co-addition., Synthesis. Collectively, these results suggest that adjustment of N/ P ratios can be expected in eudicots exposed to elevated P, but foliar N appears to already be at optimal levels in these lowland rain forest tree species. The complexity of species-specific responses to altered nutrient availability highlights the difficulty in predicting future responses of tropical forest trees to a changing world. [ABSTRACT FROM AUTHOR]
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- 2014
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8. Tropical forest responses to increasing atmospheric CO2: current knowledge and opportunities for future research.
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Cernusak, Lucas A., Winter, Klaus, Dalling, James W., Holtum, Joseph A. M., Jaramillo, Carlos, Körner, Christian, Leakey, Andrew D. B., Norby, Richard J., Poulter, Benjamin, Turner, Benjamin L., and Wright, S. Joseph
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PHYSIOLOGICAL effects of atmospheric carbon dioxide ,FORESTS & forestry ,FOREST ecology ,PHOTOSYNTHESIS ,PLANT photorespiration ,PLANT roots ,SOIL moisture ,PLANT nutrients - Abstract
Elevated atmospheric CO
2 concentrations (ca ) will undoubtedly affect the metabolism of tropical forests worldwide; however, critical aspects of how tropical forests will respond remain largely unknown. Here, we review the current state of knowledge about physiological and ecological responses, with the aim of providing a framework that can help to guide future experimental research. Modelling studies have indicated that elevated ca can potentially stimulate photosynthesis more in the tropics than at higher latitudes, because suppression of photorespiration by elevated ca increases with temperature. However, canopy leaves in tropical forests could also potentially reach a high temperature threshold under elevated ca that will moderate the rise in photosynthesis. Belowground responses, including fine root production, nutrient foraging and soil organic matter processing, will be especially important to the integrated ecosystem response to elevated ca . Water use efficiency will increase as ca rises, potentially impacting upon soil moisture status and nutrient availability. Recruitment may be differentially altered for some functional groups, potentially decreasing ecosystem carbon storage. Whole-forest CO2 enrichment experiments are urgently needed to test predictions of tropical forest functioning under elevated ca . Smaller scale experiments in the understorey and in gaps would also be informative, and could provide stepping stones towards stand-scale manipulations. [ABSTRACT FROM AUTHOR]- Published
- 2013
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9. Phylogenetic and functional alpha and beta diversity in temperate and tropical tree communities.
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Swenson, Nathan G., Erickson, David L., Xiangcheng Mi, Bourg, Norman A., Forero-Montaña, Jimena, Xuejun Ge, Howe, Robert, Lake, Jeffrey K., Xiaojuan Liu, Keping Ma, Nancai Pei, Thompson, Jill, Uriarte, María, Wolf, Amy, Wright, S. Joseph, Wanhui Ye, Jinlong Zhang, Zimmerman, Jess K., and Kress, W. John
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BIODIVERSITY ,PHYLOGENY ,TREES ,SPECIES diversity ,ADAPTIVE radiation ,NUMBERS of species ,FORESTS & forestry - Abstract
The study of biodiversity has tended to focus primarily on relatively information-poor measures of species diversity. Recently, many studies of local diversity (alpha diversity) have begun to use measures of functional and phylogenetic alpha diversity. Investigations into the phylogenetic and functional dissimilarity (beta diversity) of communities have been far less numerous, but these dissimilarity measures have the potential to infer the mechanisms underlying community assembly and dynamics. Here, we relate levels of phylogenetic and functional alpha diversity to levels of phylogenetic and functional beta diversity to infer the mechanism or mechanisms responsible for the assembly of tree communities in six forests located in tropical and temperate latitudes. The results show that abiotic filtering plays a role in structuring local assemblages and governing spatial turnover in community composition and that phylogenetic measures of alpha and beta diversity are not strong predictors of functional alpha and beta diversity in the forests studied. [ABSTRACT FROM AUTHOR]
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- 2012
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10. Temporal turnover in the composition of tropical tree communities: functional determinism and phylogenetic stochasticity.
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Swenson, Nathan G., Stegen, James C., Davies, Stuart J., Erickson, David L., Forero-Montaña, Jimena, Hurlbert, Allen H., Kress, W. John, Thompson, Jill, Uriarte, María, Wright, S. Joseph, and Zimmerman, Jess K.
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BIOTIC communities ,ECOLOGY ,FORESTS & forestry ,NULL models (Ecology) ,ENVIRONMENTAL sciences - Abstract
The degree to which turnover in biological communities is structured by deterministic or stochastic factors and the identities of influential deterministic factors are fundamental, yet unresolved, questions in ecology. Answers to these questions are particularly important for projecting the fate of forests with diverse disturbance histories worldwide. To uncover the processes governing turnover we use species-level molecular phylogenies and functional trait data sets for two long-term tropical forest plots with contrasting disturbance histories: one forest is older-growth, and one was recently disturbed. Having both phylogenetic and functional information further allows us to parse out the deterministic influences of different ecological filters. With the use of null models we find that compositional turnover was random with respect to phylogeny on average, but highly nonrandom with respect to measured functional traits. Furthermore, as predicted by a deterministic assembly process, the older-growth and disturbed forests were characterized by less than and greater than expected functional turnover, respectively. These results suggest that the abiotic environment, which changes due to succession in the disturbed forest, strongly governs the temporal dynamics of disturbed and undisturbed tropical forests. Predicting future changes in the composition of disturbed and undisturbed forests may therefore be tractable when using a functional-trait-based approach. [ABSTRACT FROM AUTHOR]
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- 2012
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11. Interspecific variation in primary seed dispersal in a tropical forest.
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Muller-Landau, Helene C., Wright, S. Joseph, Calderón, Osvaldo, Condit, Richard, and Hubbell, Stephen P.
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BIOLOGICAL variation , *SEED dispersal , *SEED pods , *HABITATS , *SEED industry , *PLANT species , *PLANT ecology , *FORESTS & forestry , *BOTANICAL research - Abstract
1. We investigated the relationships of seed size, dispersal mode and other species characteristics to interspecific variation in mean primary seed dispersal distances, mean annual seed production per unit basal area, and clumping of seed deposition among 41 tropical tree species on Barro Colorado Island, Panama. 2. A hierarchical Bayesian model incorporating interannual variation in seed production was used to estimate seed dispersal, seed production, and clumping of seed rain for each species from 19 years of data for 188 seed traps on a 50-ha plot in which all adult trees were censused every 5 years. 3. Seed dispersal was modelled as a two-dimensional Student's T distribution with the degrees of freedom parameter fixed at 3, interannual variation in seed production per basal area was modelled as a lognormal, and the clumping of seed rain around its expected value was modelled as a negative binomial distribution. 4. There was wide variation in seed dispersal distances among species sharing the same mode of seed dispersal. Seed dispersal mode did not explain significant variation in seed dispersal distances, but did explain significant variation in clumping: animal-dispersed species showed higher clumping of seed deposition. 5. Among nine wind-dispersed species, the combination of diaspore terminal velocity, tree height and wind speed in the season of peak dispersal explained 40% of variation in dispersal distances. Among 31 animal-dispersed species, 20% of interspecific variation in dispersal distances was explained by seed mass (a negative effect) and tree height (a positive effect). 6. Among all species, seed mass, tree height and dispersal syndrome explained 28% of the variation in mean dispersal distance and seed mass alone explained 45% of the variation in estimated seed production per basal area. 7. Synthesis. There is wide variation in patterns of primary seed rain among tropical tree species. Substantial proportions of interspecific variation in seed production, seed dispersal distances, and clumping of seed deposition are explained by relatively easily measured plant traits, especially dispersal mode, seed mass, and tree height. This provides hope for trait-based generalization and modelling of seed dispersal in tropical forests. [ABSTRACT FROM AUTHOR]
- Published
- 2008
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12. Large-scale spatial variation in palm fruit abundance across a tropical moist forest estimated from high-resolution aerial photographs.
- Author
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Jansen, Patrick A., Bohlman, Stephanie A., Garzon-Lopez, Carol X., Olff, Han, Muller-Landau, Helene C., and Wright, S. Joseph
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FRUIT ,PALMS ,FORESTS & forestry ,AERIAL photographs ,PHOTOGRAPHS ,AERIAL photography ,ECOLOGY - Abstract
Fruit abundance is a critical factor in ecological studies of tropical forest animals and plants, but difficult to measure at large spatial scales. We tried to estimate spatial variation in fruit abundance on a relatively large spatial scale using low altitude, high-resolution aerial photography. We measured fruit production for all 555 individuals of the arborescent palm Astrocaryum standleyanum across 25 ha of mapped tropical moist forest on Barro Colorado Island, Panama, by visually counting fruits from the ground. Simultaneously, we used high-resolution aerial photographs to map sun-exposed crowns of the palm across the same area, which were then linked to ground-mapped stems. First, we verified that the fruit crop size of individual trees was positively associated with both crown presence on aerial photos and crown area visible on aerial photos. Then, we determined how well spatial variation in Astrocaryum fruit density across the study area was predicted by spatial densities of photo-detected crowns and crown area compared to spatial densities of ground-mapped stems and stem diameters. We found a positive association of fruit crop size with crown visibility on aerial photographs. Although representing just one third of all individuals in the study area, photo-detected crowns represented 57% of all fruits produced. The spatial pattern of photo-detected crowns was strongly correlated with the spatial pattern of fruit abundance based on direct fruit counts, and correctly showed the areas with the highest and lowest fruit abundances. The spatial density of photo-detected crowns predicted spatial variation in fruit abundance equally well as did the spatial density of ground-mapped stems. Photo-detected crown area did not yield a better prediction. Our study indicates that remote sensing of crowns can be a reliable and cost-effective method for estimating spatial variation in fruit abundance across large areas for highly distinctive canopy species. Our study is also among the few to provide empirical evidence for a positive relationship between crown exposure of forest trees and fruit production. [ABSTRACT FROM AUTHOR]
- Published
- 2008
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13. Colonization Strategies of Two Liana Species in a Tropical Dry Forest Canopy.
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Avalos, Gerardo, Mulkey, Stephen S., Kitajima, Kaoru, and Wright, S. Joseph
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FOREST canopies ,LEAVES ,FORESTS & forestry ,CRANES (Machinery) ,PHOTODIODES ,NITROGEN - Abstract
Copyright of Biotropica is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2007
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14. The Future of Tropical Forest Species.
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Wright, S. Joseph and Muller-Landau, Helene C.
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FORESTS & forestry ,DEFORESTATION ,BIOLOGICAL extinction ,EXTINCTION of plants ,ENVIRONMENTAL protection - Abstract
Copyright of Biotropica is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2006
- Full Text
- View/download PDF
15. Diverse Optical and Photosynthetic Properties in a Neotropical Dry Forest during the Dry Season: Implications for Remote Estimation of Photosynthesis.
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Gamon, John A., Kitajima, Kaoru, Mulkey, Stephen S., Serrano, Lydia, and Wright, S. Joseph
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FORESTS & forestry ,SEASONS ,PHOTOSYNTHESIS ,BIODIVERSITY ,PLANT canopies ,VEGETATION management - Abstract
Copyright of Biotropica is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2005
- Full Text
- View/download PDF
16. Variation in Crown Light Utilization Characteristics among Tropical Canopy Trees.
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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]
- Published
- 2005
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17. Coordinated changes in photosynthesis, water relations and leaf nutritional traits of canopy trees along a precipitation gradient in lowland tropical forest.
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Santiago, Louis S., Kitajima, Kaoru, Wright, S. Joseph, and Mulkey, Stephen S.
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PLANT canopies ,FORESTS & forestry ,CLIMATOLOGY ,NITROGEN isotopes ,RAINFALL - Abstract
We investigated leaf physiological traits of dominant canopy trees in four lowland Panamanian forests with contrasting mean annual precipitation (1,800, 2,300, 3,100 and 3,500 mm). There was near complete turn-over of dominant canopy tree species among sites, resulting in greater dominance of evergreen species with long-lived leaves as precipitation increased. Mean structural and physiological traits changed along this gradient as predicted by cost–benefit theories of leaf life span. Nitrogen content per unit mass (N
mass ) and light- and CO2 -saturated photosynthetic rates per unit mass (Pmass ) of upper canopy leaves decreased with annual precipitation, and these changes were partially explained by increasing leaf thickness and decreasing specific leaf area (SLA). Comparison of 1,800 mm and 3,100 mm sites, where canopy access was available through the use of construction cranes, revealed an association among extended leaf longevity, greater structural defense, higher midday leaf water potential, and lower Pmass , Nmass , and SLA at wetter sites. Shorter leaf life spans and more enriched foliar δ15 N values in drier sites suggest greater resorption and re-metabolism of leaf N in drier forest. Greater dominance of short-lived leaves with relatively high Pmass in drier sites reflects a strategy to maximize photosynthesis when water is available and to minimize water loss and respiration costs during rainless periods. Overall, our study links coordinated change in leaf functional traits that affect productivity and nutrient cycling to seasonality in lowland tropical forests. [ABSTRACT FROM AUTHOR]- Published
- 2004
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18. Seasonal drought and dry-season irrigation influence leaf-litter nutrients and soil enzymes in a moist, lowland forest in Panama.
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Yavitt, Joseph B., Wright, S. Joseph, and Wieder, R. Kelman
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PLANT nutrients , *SOIL enzymology , *FORESTS & forestry , *FOREST irrigation , *CLIMATOLOGY , *SOIL biochemistry - Abstract
Climatic conditions should not hinder nutrient release from decomposing leaf-litter (mineralization) in the humid tropics, even though many tropical forests experience drought lasting from several weeks to months. We used a dry-season irrigation experiment to examine the effect of seasonal drought on nutrient concentrations in leaf-fall and in decomposing leaf-litter. In the experiment, soil in two 2.25-ha plots of old-growth lowland moist forest on Barro Colorado Island, Republic of Panama, was watered to maintain soil water potential at or above field capacity throughout the 4-month dry season. Wet-season leaf-fall had greater concentrations of nitrogen (N, 13.5 mg g−1) and calcium (Ca, 15.6 mg g−1) and lower concentrations of sulfur (S, 2.51 mg g−1) and potassium (K, 3.03 mg g−1) than dry-season leaf-fall (N = 11.6 mg g−1, Ca = 13.6 mg g−1, S = 2.98 mg g−1, K = 5.70 mg g−1). Irrigation did not affect nutrient concentrations or nutrient return from forest trees to the forest floor annually (N = 18 g m−2, phosphorus (P) = 1.06 g m−2, S = 3.5 g m−2, Ca = 18.9 g m−2, magnesium = 6.5 g m−2, K = 5.7 g m−2). Nutrient mineralization rates were much greater during the wet season than the dry season, except for K, which did not vary seasonally. Nutrient residence times in forest-floor material were longer in control plots than in irrigated plots, with values approximately equal to that for organic matter (210 in control plots vs 160 in irrigated plots). Calcium had the longest residence time. Forest-floor material collected at the transition between seasons and incubated with or without leaching in the laboratory did not display large pulses in nutrient availability. Rather, microorganisms immobilized nutrients primarily during the wet season, unlike observations in tropical forests with longer dry seasons. Large amounts of P moved among different pools in forest-floor material, apparently mediated by microorganisms. Arylsulfatase and phosphatase enzymes, which mineralize organically bound nutrients, had high activity throughout the dry season. Low soil moisture levels do not hinder nutrient cycling in this moist lowland forest. [ABSTRACT FROM AUTHOR]
- Published
- 2004
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19. A functional analysis of the crown architecture of tropical forest Psychotria species: do species vary in light capture efficiency and consequently in carbon gain and growth?
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Pearcy, Robert W., Valladares, Fernando, Wright, S. Joseph, and De Paulis, Eloisa Lasso
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FORESTS & forestry ,PSYCHOTRIA ,CARBON ,PHOTOSYNTHESIS ,FOREST canopy gaps - Abstract
The crown architectures of 11 Psychotria species native to Barro Colorado Island, Panama were reconstructed from field measurements of leaf and branch geometry with the three-dimensional simulation model Y-plant. The objective was to assess the role of species differences in architecture in light capture and carbon gain in their natural understory environment. When species were grouped according to their putative light environment preference, the shade tolerant species were found to have a small but significantly higher efficiency of light capture for both diffuse and direct light as compared to the light demanding species. Within each grouping, however, there were few significant differences in light capture efficiency among species. The lower efficiencies of light demanding species was due to slightly higher self-shading and slightly lower angular efficiencies. Simulations of whole plant assimilation showed that light demanding species had greater daily assimilation in both direct and diffuse light due to the significantly greater light availability in the sites where light demanding species were found, as compared to those where shade tolerant species occurred. Among light demanding species, the above ground relative growth rate measured over a 1-year period by applying allometric equations for mass versus linear dimensions, was positively correlated with diffuse PFD and with mean daily assimilation estimated from Y-plant. For the shade tolerant plants, there was no significant correlation between RGR and mean daily assimilation or with any measure of light availability, probably because they occurred over a much narrower range of light environments. Overall, the results reveal a strong convergence in light capture efficiencies among the Psychotria species at lower values than previously observed in understory plants using similar approaches. Constraints imposed by other crown functions such as hydraulics and biomechanical support may place upper limits on light capture efficiency. [ABSTRACT FROM AUTHOR]
- Published
- 2004
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20. ARE LIANAS INCREASING IN IMPORTANCE IN TROPICAL FORESTS? A 17-YEAR RECORD FROM PANAMA.
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Wright, S. Joseph, Calderón, Osvaldo, Hernandéz, Andrés, and Paton, Steven
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FOREST litter , *SEEDLINGS , *BOTANY , *FORESTS & forestry , *SEEDS , *PLANT embryology , *CLIMBING plants - Abstract
The relative importance of large lianas (woody vines) increased by 100% for stem enumerations conducted during the 1980s and 1990s in widely scattered Neotropical forests. We use three independent types of data to evaluate the hypothesis that lianas have increased in importance in old growth forests on Barro Colorado Island, Panama. Liana leaf lifter production and the proportion of forest-wide leaf litter composed of lianas increased between 1986 and 2002. In contrast, liana seed production and liana seedling densities were much more variable through time with particularly high levels during and immediately after El Niño years. Longer time series will be required to detect shifts in life- form composition for highly dynamic seed and seedling communities. The Barro Colorado Island leaf production data are, however, consistent with the hypothesis that lianas are increasing in importance in Neotropical forests. [ABSTRACT FROM AUTHOR]
- Published
- 2004
- Full Text
- View/download PDF
21. The myriad consequences of hunting for vertebrates and plants in tropical forests
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Wright, S. Joseph
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HUNTING , *VERTEBRATES , *PLANT species , *FORESTS & forestry - Abstract
Abstract: Humans hunt forest vertebrates throughout the tropics. Many preferred game species consume flowers, fruit, seeds and/or leaves, and these interactions will cause their harvest to ramify through forests. Three related issues will determine how severely the harvest of forest vertebrates influences the plant community. First, the types of species selected by hunters and the intensity of the harvest will determine which vertebrates are removed and which remain. Second, the possible presence of ecologically similar, non-game species able to expand their activities to fulfill the ecological role of heavily exploited species will determine how severely the harvest disrupts ecological relationships between the community of forest vertebrates and the community of forest plants. Finally, hunters will alter plant species composition if the harvest of vertebrates differentially affects mutualists or pests of particular plant species. Hunters will also alter plant diversity if the harvest of vertebrates disrupts ecological mechanisms that permit plant species to coexist. I examine hunter selectivity, the intensity of the hunt, possible compensation by non-game species, and the types and strengths of interactions among game species and plants for tropical forests to determine when and where these outcomes occur. [Copyright &y& Elsevier]
- Published
- 2003
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22. Plant diversity in tropical forests: a review of mechanisms of species coexistence.
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Wright, S. Joseph
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PLANTS ,BIODIVERSITY ,BIOLOGY ,ECOLOGICAL heterogeneity ,FORESTS & forestry - Abstract
Evidence concerning mechanisms hypothesized to explain species coexistence in hyper-diverse communities is reviewed for tropical forest plants. Three hypotheses receive strong support. Niche differences are evident from non-random spatial distributions along micro-topographic gradients and from a survivorship-growth tradeoff during regeneration. Host-specific pests reduce recruitment near reproductive adults (the Janzen-Connell effect), and, negative density dependence occurs over larger spatial scales among the more abundant species and may regulate their populations. A fourth hypothesis, that suppressed understory plants rarely come into competition with one another, has not been considered before and has profound implications for species coexistence. These hypotheses are mutually compatible. Infrequent competition among suppressed understory plants, niche differences, and Janzen-Connell effects may facilitate the coexistence of the many rare plant species found in tropical forests while negative density dependence regulates the few most successful and abundant species. [ABSTRACT FROM AUTHOR]
- Published
- 2002
- Full Text
- View/download PDF
23. The Uncertain Future of Tropical Forest Species.
- Author
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Wright, S. Joseph and Muller-Landau, Helene C.
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BIOLOGICAL extinction ,HABITATS ,POPULATION density ,FORESTS & forestry ,RAIN forests ,TREES - Abstract
This article replies to comments made by Brook et al. published in 2006 raising objection to a study by the authors dealing with deforestration rates, human population projection and species extinction. There is wide anticipation that habitat loss will cause a mass extinction of tropical forest species. The basis for this anticipation is a simple projection of future net tropical forest loss from United Nations projections of human population growth and present day relationships between human population density and the percentage of original forest cover remaining for 45 countries that support around 90 percent of extant, humid forest. It is suggested by the authors, based on these projections, that large areas of tropical forest cover will remain in 2030 and beyond, and therefore habit loss will threaten extinction for a smaller proportion of tropical forest species than previously predicted.
- Published
- 2006
- Full Text
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24. Plant responses to nutrient addition experiments conducted in tropical forests.
- Author
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Wright, S. Joseph
- Subjects
- *
PLANT nutrients , *MOUNTAIN forests , *FORESTS & forestry , *MANGROVE forests , *FACTORIAL experiment designs , *TROPICAL plants , *TROPICAL forests , *PLANT-soil relationships - Abstract
I present a meta‐analysis of plant responses to 48 nutrient addition experiments conducted with native species in naturally growing tropical forests, exclusive of mangrove forests. The added nutrients include nitrogen (N) in 36 experiments, phosphorus (P) in 33 experiments, calcium and potassium in one experiment each, and various mixtures of essential nutrients in the remaining experiments. I evaluate the hypotheses that nutrients limit tropical forest plants, nutrient limitation is stronger in successional than in old‐growth forests, P but not N is limiting in lowland forests, and N is limiting in montane forests. Responses to the most complete nutrient mix used in each experiment were strong for plant functions that contribute to aboveground production (Hedges' g averages 0.87) and nonsignificant for fine root biomass. Responses to N addition and to P addition were strong for tissue concentrations of the added element (Hedges' g averages 0.75 and 1.4, respectively), moderate for fine litter production (0.64 and 0.65, respectively), moderate to weak for plant growth (0.46 and 0.37, respectively) and nonsignificant for fine root biomass. Growth responses were stronger in successional than in old‐growth forests. All responses were unrelated to elevation. The 48 experiments included 30 factorial nitrogen‐phosphorus experiments that enable additional direct tests of the widely cited hypotheses that P limitation is stronger than N limitation in lowland forests and vice versa in montane forests. Both hypotheses were rejected. The N × P interaction effect was nonsignificant across the factorial experiments. In conclusion, nutrients clearly limit tropical forest plants. Limitation by N is widespread in both lowland and montane forests, and the same is true for P. Single experiments identify limitation by calcium and potassium, and correlative studies suggest limitation by calcium, potassium, and magnesium. The available evidence is consistent with the possibility that most macronutrients limit tropical forest plants; however, experiments focus almost exclusively on N and P. The way forward will include taking fuller advantage of existing nutrient addition experiments, siting new experiments strategically, and developing cost‐effective methods to assay responses to all of the essential nutrients soils supply to plants. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
25. Pervasive density-dependent recruitment enhances seedling diversity in a tropical forest.
- Author
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Harms, Kyle E. and Wright, S. Joseph
- Subjects
- *
SEEDS , *SEEDLINGS , *FORESTS & forestry - Abstract
Reports on the results of observations in a lowland, moist forest in the Republic of Panama in which the species identities of seeds that arrived at seed traps were compared with the species identities of seedlings that recruited into adjacent plots over a four-year period. Differences in average recruitment success; Diversity from seeds to seedling recruits.
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- 2000
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26. Soil nutrient dynamics in response to irrigation of a Panamanian tropical moist forest
- Author
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Wright, S. Joseph, Wieder, R. Kelman, and Yavitt, Joseph B.
- Subjects
- *
SOIL chemistry , *FORESTS & forestry , *FOREST irrigation - Published
- 1992
27. Ecological interpretation of leaf carbon isotope ratios: influence of respired carbon dioxide
- Author
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Mulkey, Stephen S., Wright, S. Joseph Joseph Wright, and Sternberg, Leonel da Silveira Lobo
- Subjects
PLANTS ,FORESTS & forestry ,CARBON dioxide - Published
- 1989
28. THE PHENOLOGY OF TROPICAL FORESTS: Adaptive Significance and Consequences for Primary Consumers.
- Author
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van Schaik, Carel P., Terborgh, John W., and Wright, S. Joseph
- Subjects
- *
PHENOLOGY , *FORESTS & forestry , *FRUIT development , *FLOWERING of plants - Abstract
Most tropical woody plants produce new leaves and flowers in bursts rather than continuously, and most tropical forest communities display seasonal variation in the presence of new leaves, flowers, and fruits. This patterning suggests that phonological changes represent adaptations to either biotic or abiotic factors. Biotic factors may select for either a staggering or a clustering of the phenological activity of individual plant species. We review the evidence for several hypotheses. The idea that plant species can reduce predation by synchronizing their phonological activity has the best support. However, because biotic factors are often arbitrary wit respect to the timing of these peaks, it is essential also to consider abiotic influences. A review of published studies demonstrates a major role for climate. Peaks in irradiance are accompanied by peaks in flushing and flowering except where water stress makes this impossible. Thus, in seasonally dry forests, many plants concentrate leafing and flowering around the start of the rainy season; they also tend to fruit at the same time, probably to minimize seedling mortality during the subsequent dry season. Phenological variation at the level of the forest community affects primary consumers who respond by dietary switching, seasonal breeding, changes in range use, or migration. During periods of scarcity, certain plant products, keystone resources, act as mainstays of the primary consumer community. [ABSTRACT FROM AUTHOR]
- Published
- 1993
- Full Text
- View/download PDF
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