36 results on '"Wright, S. Joseph"'
Search Results
2. The Relative Roles of Environment, History and Local Dispersal in Controlling the Distributions of Common Tree and Shrub Species in a Tropical Forest Landscape, Panama
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Svenning, Jens-Christian, Kursar, Thomas A., Stallard, Robert F., and Wright, S. Joseph
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- 2006
3. Reproductive Size Thresholds in Tropical Trees: Variation among Individuals, Species and Forests
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Wright, S. Joseph, Jaramillo, M. Alejandra, Condit, Richard, Hubbell, Stephen P., and Foster, Robin B.
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- 2005
4. Annual and Spatial Variation in Seedfall and Seedling Recruitment in a Neotropical Forest
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Wright, S. Joseph, Muller-Landau, Helene C., Calderóon, Osvaldo, and Hernandéz, Andrés
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- 2005
5. 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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- 2004
6. Poachers and Forest Fragmentation Alter Seed Dispersal, Seed Survival, and Seedling Recruitment in the Palm Attalea butyraceae, with Implications for Tropical Tree Diversity
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Wright, S. Joseph and Duber, Herbert C.
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- 2001
7. Functional traits of young seedlings predict trade‐offs in seedling performance in three neotropical forests.
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Metz, Margaret R., Wright, S. Joseph, Zimmerman, Jess K., Hernandéz, Andrés, Smith, Samuel M., Swenson, Nathan G., Umaña, M. Natalia, Valencia, L. Renato, Waring‐Enriquez, Ina, Wordell, Mason, Zambrano, Milton, and Garwood, Nancy C.
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COEXISTENCE of species , *LIFE history theory , *TROPICAL forests , *OLDER people , *SEEDLINGS , *COTYLEDONS , *DEATH rate - Abstract
Understanding the mechanisms that promote the coexistence of hundreds of species over small areas in tropical forest remains a challenge. Many tropical tree species are presumed to be functionally equivalent shade tolerant species but exist on a continuum of performance trade‐offs between survival in shade and the ability to quickly grow in sunlight. These trade‐offs can promote coexistence by reducing fitness differences.Variation in plant functional traits related to resource acquisition is thought to predict variation in performance among species, perhaps explaining community assembly across habitats with gradients in resource availability. Many studies have found low predictive power, however, when linking trait measurements to species demographic rates.Seedlings face different challenges recruiting on the forest floor and may exhibit different traits and/or performance trade‐offs than older individuals face in the eventual adult niche. Seed mass is the typical proxy for seedling success, but species also differ in cotyledon strategy (reserve vs. photosynthetic) or other leaf, stem and root traits. These can cause species with the same average seed mass to have divergent performance in the same habitat.We combined long‐term studies of seedling dynamics with functional trait data collected at a standard life‐history stage in three diverse neotropical forests to ask whether variation in coordinated suites of traits predicts variation among species in demographic performance.Across hundreds of species in Ecuador, Panama and Puerto Rico, we found seedlings displayed correlated suites of leaf, stem, and root traits, which strongly correlated with seed mass and cotyledon strategy. Variation among species in seedling functional traits, seed mass, and cotyledon strategy were strong predictors of trade‐offs in seedling growth and survival. These results underscore the importance of matching the ontogenetic stage of the trait measurement to the stage of demographic dynamics.Our findings highlight the importance of cotyledon strategy in addition to seed mass as a key component of seed and seedling biology in tropical forests because of the contribution of carbon reserves in storage cotyledons to reducing mortality rates and explaining the growth‐survival trade‐off among species.Synthesis: With strikingly consistent patterns across three tropical forests, we find strong evidence for the promise of functional traits to provide mechanistic links between seedling form and demographic performance. [ABSTRACT FROM AUTHOR]
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- 2023
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8. Temporal and Spatial Variability in Seedling Dynamics: A Cross-Site Comparison in Four Lowland Tropical Forests
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Metz, Margaret R., Comita, Liza S., Chen, Yu-Yun, Norden, Natalia, Condit, Richard, Hubbell, Stephen P., Sun, I-Fang, Noor, Nur Supardi bin Md., and Wright, S. Joseph
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- 2008
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9. The Bushmeat Harvest Alters Seedling Banks by Favoring Lianas, Large Seeds, and Seeds Dispersed by Bats, Birds, and Wind
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Wright, S. Joseph, Hernandéz, Andrés, and Condit, Richard
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- 2007
10. Seasonal Drought and the Phenology of Understory Shrubs in a Tropical Moist Forest
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Wright, S. Joseph
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- 1991
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11. Seasonal Drought and Leaf Fall in a Tropical Forest
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Wright, S. Joseph and Cornejo, Fernando H.
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- 1990
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12. Phylogenetic Patterns among Tropical Flowering Phenologies
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Wright, S. Joseph and Calderon, Osvaldo
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- 1995
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13. Temporal patterns of soil nutrients in a Panamanian moist forest revealed by ion-exchange resin and experimental irrigation
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Yavitt, Joseph B. and Wright, S. Joseph
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- 1996
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14. Allometric constraints and competition enable the simulation of size structure and carbon fluxes in a dynamic vegetation model of tropical forests (LM3PPA‐TV).
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Martínez Cano, Isabel, Shevliakova, Elena, Malyshev, Sergey, Wright, S. Joseph, Detto, Matteo, Pacala, Stephen W., and Muller‐Landau, Helene C.
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TROPICAL forests ,CARBON sequestration in forests ,FOREST biomass ,TREE growth ,CLIMATE change models ,DYNAMIC models ,FOREST dynamics - Abstract
Tropical forests are a key determinant of the functioning of the Earth system, but remain a major source of uncertainty in carbon cycle models and climate change projections. In this study, we present an updated land model (LM3PPA‐TV) to improve the representation of tropical forest structure and dynamics in Earth system models (ESMs). The development and parameterization of LM3PPA‐TV drew on extensive datasets on tropical tree traits and long‐term field censuses from Barro Colorado Island (BCI), Panama. The model defines a new plant functional type (PFT) based on the characteristics of shade‐tolerant, tropical tree species, implements a new growth allocation scheme based on realistic tree allometries, incorporates hydraulic constraints on biomass accumulation, and features a new compartment for tree branches and branch fall dynamics. Simulation experiments reproduced observed diurnal and seasonal patterns in stand‐level carbon and water fluxes, as well as mean canopy and understory tree growth rates, tree size distributions, and stand‐level biomass on BCI. Simulations at multiple sites captured considerable variation in biomass and size structure across the tropical forest biome, including observed responses to precipitation and temperature. Model experiments suggested a major role of water limitation in controlling geographic variation forest biomass and structure. However, the failure to simulate tropical forests under extreme conditions and the systematic underestimation of forest biomass in Paleotropical locations highlighted the need to incorporate variation in hydraulic traits and multiple PFTs that capture the distinct floristic composition across tropical domains. The continued pressure on tropical forests from global change demands models which are able to simulate alternative successional pathways and their pace to recovery. LM3PPA‐TV provides a tool to investigate geographic variation in tropical forests and a benchmark to continue improving the representation of tropical forests dynamics and their carbon storage potential in ESMs. [ABSTRACT FROM AUTHOR]
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- 2020
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15. A highly resolved food web for insect seed predators in a species‐rich tropical forest.
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Gripenberg, Sofia, Basset, Yves, Lewis, Owen T., Terry, J. Christopher D., Wright, S. Joseph, Simón, Indira, Fernández, D. Catalina, Cedeño‐Sanchez, Marjorie, Rivera, Marleny, Barrios, Héctor, Brown, John W., Calderón, Osvaldo, Cognato, Anthony I., Kim, Jorma, Miller, Scott E., Morse, Geoffrey E., Pinzón‐Navarro, Sara, Quicke, Donald L. J., Robbins, Robert K., and Salminen, Juha‐Pekka
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GRANIVORES ,TROPICAL forests ,INSECT food ,PLANT diversity ,PLANT species - Abstract
The top‐down and indirect effects of insects on plant communities depend on patterns of host use, which are often poorly documented, particularly in species‐rich tropical forests. At Barro Colorado Island, Panama, we compiled the first food web quantifying trophic interactions between the majority of co‐occurring woody plant species and their internally feeding insect seed predators. Our study is based on more than 200 000 fruits representing 478 plant species, associated with 369 insect species. Insect host‐specificity was remarkably high: only 20% of seed predator species were associated with more than one plant species, while each tree species experienced seed predation from a median of two insect species. Phylogeny, but not plant traits, explained patterns of seed predator attack. These data suggest that seed predators are unlikely to mediate indirect interactions such as apparent competition between plant species, but are consistent with their proposed contribution to maintaining plant diversity via the Janzen–Connell mechanism. [ABSTRACT FROM AUTHOR]
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- 2019
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16. Growth responses to soil water potential indirectly shape local species distributions of tropical forest seedlings.
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Kupers, Stefan J., Engelbrecht, Bettina M. J., Hernández, Andrés, Wright, S. Joseph, Wirth, Christian, Rüger, Nadja, and Norden, Natalia
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SOIL moisture potential ,TREE growth ,TREE seedlings ,TROPICAL forests - Abstract
Local tree species distributions in tropical forests correlate strongly with soil water availability. However, it is unclear how species distributions are shaped by demographic responses to soil water availability. Specifically, it remains unknown how growth affects species distributions along water availability gradients relative to mortality.We quantified spatial variation in dry season soil water potential (SWP) in the moist tropical forest on Barro Colorado Island, Panama, and used a hierarchical Bayesian approach to evaluate relationships between demographic responses of naturally regenerating seedlings to SWP (RGRs and first‐year mortality) and species distributions along the SWP gradient for 62 species. We also tested whether species that were more abundant at the wet or dry end of the gradient performed better (a) at their "home end" of the gradient ("best at home" hypothesis) and (b) "at home" compared to co‐occurring species ("home advantage" hypothesis).Four and five species responded significantly to SWP in terms of growth or mortality respectively. Growth (but not mortality) responses were positively related to species distributions along the SWP gradient; species with a more positive (negative) growth response to SWP were more abundant at higher (lower) SWP, that is, at wetter (drier) sites. In addition, wet distributed species grew faster on the wet end of the SWP gradient than on the dry end ("best at home") and grew faster on the wet end than dry distributed species ("home advantage"). Mortality rates declined with seedling size for all species. Thus, seedling growth responses to SWP indirectly shaped local species distributions by influencing seedling size and thereby mortality risk.Synthesis. By demonstrating how growth responses to spatial variation in soil water availability affect species distributions, we identified a demographic process underlying niche differentiation on hydrological gradients in tropical forests. Recognizing the role of these growth responses in shaping species distributions should improve the understanding of tropical forest composition and diversity along rainfall gradients and with climate change. This study shows that growth responses to soil moisture play an important role in shaping the distribution of tree seedlings along a local soil moisture gradient. Species that grew well on the wet end of the gradient were more abundant there because they became taller more quickly, reducing their mortality risk, and because they grew faster than dry distributed species. [ABSTRACT FROM AUTHOR]
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- 2019
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17. A phenology model for tropical species that flower multiple times each year.
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Wright, S. Joseph, Calderón, Osvaldo, and Muller‐Landau, Helene C.
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TROPICAL plants , *FLOWERING of plants , *PLANT phenology , *SPECIES - Abstract
Phenology models developed for temperate and boreal plants predict a single, population‐level first flowering date for each year. These models cannot accommodate species that flower multiple times each year in humid tropical forests nor flowering data with census‐interval rather than daily temporal resolution. Here, we present a new model framework able to predict the timing of multiple annual flowering events from census data. We extend a recent model, which predicted tropical flowering probabilities as discrete events occurring on census dates, by integrating predicted flowering probabilities over all dates between censuses. We evaluate our model against 29 years of daily climate and weekly flowering records for Hybanthus prunifolius (Violaceae) and Handroanthus guayacan (Bignoniaceae) from Barro Colorado Island, Panama. Previous experiments demonstrate that both species flower shortly after a heavy, dry‐season rain interrupts an extended dry period. Our model captures this sequence of rainfall events. Best‐fit model parameters are consistent with previous experimental results. This match suggests the new model framework will provide novel insights for other humid tropical forest species. We present a new model framework to evaluate hypotheses concerning environmental cues for phenology using observational records. We validate the approach using 29 years of daily climate records and weekly flowering observations for two tropical tree species whose flowering cues are known from prior experiments. The new model framework successfully identified the experimentally determined flowering cues promising new insights for the vast majority of species whose phenology has not been manipulated experimentally. [ABSTRACT FROM AUTHOR]
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- 2019
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18. Comparative foliar metabolomics of a tropical and a temperate forest community.
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Sedio, Brian E., Parker, John D., McMahon, Sean M., and Wright, S. Joseph
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FOLIAR feeding ,METABOLOMICS ,METABOLITES ,PLANT species ,PLANT phylogeny ,FOREST management - Abstract
Plant enemies that attack chemically similar host species are thought to mediate competitive exclusion of chemically similar plants and select for chemical divergence among closely related species. This hypothesis predicts that plant defenses should diverge rapidly, minimizing phylogenetic signal. To evaluate this prediction, we quantified metabolomic similarity for 203 tree species that represent >89% of all individuals in large forest plots in Maryland and Panama. We constructed molecular networks based on mass spectrometry of all 203 species, quantified metabolomic similarity for all pairwise combinations of species, and used phylogenetically independent contrasts to evaluate how pairwise metabolomic similarity varies phylogenetically. Leaf metabolomes exhibited clear phylogenetic signal for the temperate plot, which is inconsistent with the prediction. In contrast, leaf metabolomes lacked phylogenetic signal for the tropical plot, with particularly low metabolomic similarity among congeners. In addition, community‐wide variation in metabolomes was much greater for the tropical community, with single tropical genera supporting greater metabolomic variation than the entire temperate community. Our results are consistent with the hypothesis that stronger plant‐enemy interactions lead to more rapid divergence and greater metabolomic variation in tropical than temperate plants. Additional community‐level foliar metabolomes will be required from tropical and temperate forests to evaluate this hypothesis. [ABSTRACT FROM AUTHOR]
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- 2018
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19. 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.)
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- 2018
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20. Tree species vary widely in their tolerance for liana infestation: A case study of differential host response to generalist parasites.
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Visser, Marco D., Schnitzer, Stefan A., Muller‐Landau, Helene C., Jongejans, Eelke, de Kroon, Hans, Comita, Liza S., Hubbell, Stephen P., and Wright, S. Joseph
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LIANAS ,TREE growth ,TREE populations ,PARASITES ,TROPICAL forests - Abstract
Abstract: Lianas are structural parasites of trees and reduce individual host tree growth, survival and fecundity. Thus, liana infestation is expected to affect tree population growth rates, with potentially different effects in different species depending on the frequency of liana infestation and the impact of liana infestation on population growth rates. Previous studies have documented the myriad negative effects of lianas on trees and variation in liana infestation among tree species; however, no study has quantified the impact of liana infestation on individual tree species population growth rates. Lianas are increasing in abundance in multiple Neotropical sites, which may have profound consequences for tree species composition if lianas differentially affect host tree species population growth. Here, we use long‐term data to evaluate the effects of liana infestation on the reproduction, growth, survival and ultimately population growth rates of dozens of tree species from Barro Colorado Island, Panama. We then test whether liana infestation affects tree species differentially with respect to two axes of life‐history variation: adult stature and position along the fast–slow axis, a measure of shade tolerance. Liana infestation decreased tree growth, survival and reproduction, with the strongest effects on survival in fast‐growing, light‐demanding species and on reproduction in large‐statured species. In combination, these effects reduced tree population growth rates such that liana‐infested populations declined by an average of 1.4% annually relative to conspecific liana‐free populations. The reduction in population growth rates was greatest among fast‐growing species and smaller in slow‐growing species. Synthesis. Our results demonstrate that liana infestation has strong negative effects on tree population growth rates, which vary systematically among tree species with tree life history. The finding that liana infestation is more harmful to fast‐growing tree species appears to be at odds with the general expectations in the literature. We propose that this is likely due to survivorship bias, as infestation greatly decreases survival in fast‐growing species such that the observable sample is biased towards those that survived and liana‐free. In combination with data on how tree species vary in liana infestation rates, these results provide a basis for predicting the impacts of changes in liana abundance on tree species composition. [ABSTRACT FROM AUTHOR]
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- 2018
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21. Functional traits of tropical trees and lianas explain spatial structure across multiple scales.
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Clark, Adam Thomas, Detto, Matteo, Muller‐Landau, Helene C., Schnitzer, Stefan A., Wright, S. Joseph, Condit, Richard, and Hubbell, Stephen P.
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SEED dispersal by animals ,PLANT populations ,TROPICAL forests ,FOREST canopies - Abstract
Abstract: Dispersal and density dependence are major determinants of spatial structure, population dynamics and coexistence for tropical forest plants. However, because these two processes can jointly influence spatial structure at similar scales, analysing spatial patterns to separate and quantify them is often difficult. Species functional traits can be useful indicators of dispersal and density dependence. However, few methods exist for linking functional traits to quantitative estimates of these processes that can be compared across multiple species. We analysed static spatial patterns of woody plant populations in the 50 ha Forest Dynamics Plot on Barro Colorado Island, Panama with methods that distinguished scale‐specific differences in species aggregation. We then tested how these differences related to seven functional traits: growth form, dispersal syndrome, tree canopy layer, adult stature, seed mass, wood density and shade tolerance. Next, we fit analytically tractable spatial moment models to the observed spatial structure of species characterized by similar trait values, which allowed us to estimate relationships of functional traits with the spatial scale of dispersal, and the spatial scale and intensity of negative density dependence. Our results confirm that lianas are more aggregated than trees, and exhibit increased aggregation within canopy gaps. For trees, increased seed mass, wood density and shade tolerance were associated with less intense negative density dependence, while higher canopy layers and increased stature were associated with decreased aggregation and better dispersal. Spatial structure for trees was also strongly determined by dispersal syndrome. Averaged across all spatial scales, zoochory was more effective than wind dispersal, which was more effective than explosive dispersal. However, at intermediate scales, zoochory was associated with more aggregation than wind dispersal, potentially because of differences in short‐distance dispersal and the intensity of negative density dependence.
Synthesis . We develop new tools for identifying significant associations between functional traits and spatial structure, and for linking these associations to quantitative estimates of dispersal scale and the strength and scale of density dependence. Our results help clarify how these processes influence woody plant species on Barro Colorado, and demonstrate how these tools can be applied to other sites and systems. [ABSTRACT FROM AUTHOR]- Published
- 2018
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22. Seed polyphenols in a diverse tropical plant community.
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Gripenberg, Sofia, Rota, Jadranka, Kim, Jorma, Wright, S. Joseph, Garwood, Nancy C., Fricke, Evan C., Zalamea, Paul‐Camilo, and Salminen, Juha‐Pekka
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PLANT polyphenols ,PLANT populations ,MACROEVOLUTION ,PLANT diversity ,TROPICAL plants - Abstract
Polyphenols are one of the most common groups of secondary metabolites in plants and thought to play a key role in enhancing plant fitness by protecting plants against enemies. Although enemy-inflicted mortality at the seed stage can be an important regulator of plant populations and a key determinant of community structure, few studies have assessed community-level patterns of polyphenol content in seeds., We describe the distribution of the main seed polyphenol groups across 196 tree and liana species on Barro Colorado Island (Panama) and community-level patterns in two aspects of their biological activity (protein precipitation and oxidative capacity). Taking advantage of substantial variation in morphological and ecological traits in the studied plant community, we test for correlations and trade-offs between seed polyphenols and nonchemical plant traits hypothesised to make plant species more or less likely to invest in polyphenol production., The majority of species have polyphenols in their seeds. The incidence and concentrations of polyphenols were related to a set of nonchemical plant traits. Polyphenols were most likely to be present (and where present, to be expressed in high concentrations) in species with large seeds, short seed dormancy times, low investment in mechanical seed defences, high wood density, high leaf mass per area, tough leaves and slow growth rates., Synthesis. Our study reveals a potential trade-off between chemical and mechanical seed defences and shows that plant species that invest in physical defences at later life stages (high wood density and tough leaves) tend not to invest in physical defences of seeds but instead produce secondary metabolites likely to act as seed defences. Overall, our results conform to predictions from the resource availability hypothesis, which states that species in resource-limited environments (such as slow-growing shade-tolerant tree species) will invest more in defences than fast-growing pioneer species. [ABSTRACT FROM AUTHOR]
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- 2018
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23. Tri-trophic interactions affect density dependence of seed fate in a tropical forest palm
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Visser, Marco D., Muller-Landau, Helene C., Wright, S. Joseph, Rutten, Gemma, and Jansen, Patrick A.
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tropical forest ,PLANT DIVERSITY ,NEOTROPICAL TREE ,PREDATION ,species diversity ,species coexistence ,fungi ,SPECIES-DIVERSITY ,food and beverages ,RAIN-FOREST ,PARENT PALM ,BRUCHID BEETLES ,JANZEN-CONNELL MODEL ,trophic cascade ,specialization ,enemies hypothesis ,seed predation ,negative density dependence ,DISPERSAL ,Attalea butyracea ,BARRO-COLORADO ISLAND ,Barro Colorado Island - Abstract
Natural enemies, especially host-specific enemies, are hypothesised to facilitate the coexistence of plant species by disproportionately inflicting more damage at increasing host abundance. However, few studies have assessed such Janzen-Connell mechanisms on a scale relevant for coexistence and no study has evaluated potential top-down influences on the specialized pests. We quantified seed predation by specialist invertebrates and generalist vertebrates, as well as larval predation on these invertebrates, for the Neotropical palm Attalea butyracea across ten 4-ha plots spanning 20-fold variation in palm density. As palm density increased, seed attack by bruchid beetles increased, whereas seed predation by rodents held constant. But because rodent predation on bruchid larvae increased disproportionately with increasing palm density, bruchid emergence rates and total seed predation by rodents and bruchids combined were both density-independent. Our results demonstrate that top-down effects can limit the potential of host-specific insects to induce negative-density dependence in plant populations.
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- 2011
24. Quantifying the role of wood density in explaining interspecific variation in growth of tropical trees.
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Francis, Emily J., Muller‐Landau, Helene C., Wright, S. Joseph, Visser, Marco D., Iida, Yoshiko, Fletcher, Christine, Hubbell, Stephen P., Kassim, Abd. Rahman, and Kerkhoff, Andrew
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WOOD density ,TREE growth ,TROPICAL forests ,FOREST biomass ,CARBON sequestration in forests ,PASOH Forest Reserve (Negeri Sembilan, Malaysia) - Abstract
Aim To evaluate how wood density relates to tree growth rates in simple models and two tropical forests. Location Barro Colorado Island, Panama; and Pasoh Forest Reserve, Malaysia. Time Period 1986-2010. Major Taxa Studied Trees. Methods We derived expected relationships of wood density with diameter growth at a given diameter under a null hypothesis that aboveground biomass growth is independent of wood density, and an alternative hypothesis that biomass growth scales with crown area, which itself increases with wood density. We tested these assumptions and predictions through analyses of interspecific relationships of wood density with height, crown area and diameter growth at constant diameter in two tropical forests. Results Height was unrelated to wood density, whereas crown areas showed a slightly positive relationship to wood density. Thus, the expected exponent of diameter growth with wood density was equal to minus one under the null hypothesis, and equal to the exponent of crown area with wood density minus one under the alternative hypothesis. Empirical relationships of diameter growth and biomass growth with wood density were broadly consistent with the null hypothesis that biomass growth is unrelated to wood density at both sites, except in trees < 13 cm in diameter at Barro Colorado Island, which showed more negative relationships. Main conclusions Although most previous analyses of growth with wood density have examined linear relationships, simple models suggest that both tree diameter growth and tree biomass growth are power functions of wood density. Analyses in two tropical forests showed that aboveground biomass growth was approximately constant with wood density, and thus, that diameter growth was inversely proportional to wood density, for most tree sizes, although confidence intervals on the scaling exponents were broad. More negative relationships of growth with wood density at small sizes might reflect differential environmental filtering, in which higher wood density trees are found in less favourable understorey environments. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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25. Contrasting outcomes of species- and community-level analyses of the temporal consistency of functional composition.
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Katabuchi, Masatoshi, Wright, S. Joseph, Swenson, Nathan G., Feeley, Kenneth J., Condit, Richard, Hubbell, Stephen P., and Davies, Stuart J.
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EFFECT of human beings on climate change , *DROUGHTS & the environment , *TROPICAL forests , *ISLAND ecology ,WOOD density - Abstract
Multiple anthropogenic drivers affect every natural community, and there is broad interest in using functional traits to understand and predict the consequences for future biodiversity. There is, however, no consensus regarding the choice of analytical methods. We contrast species- and community-level analyses of change in the functional composition for four traits related to drought tolerance using three decades of repeat censuses of trees in the 50-ha Forest Dynamics Plot on Barro Colorado Island, Panama. Community trait distributions shifted significantly through time, which may indicate a shift toward more drought tolerant species. However, at the species level, changes in abundance were unrelated to trait values. To reconcile these seemingly contrasting results, we evaluated species-specific contributions to the directional shifts observed at the community level. Abundance changes of just one to six of 312 species were responsible for the community-level shifts observed for each trait. Our results demonstrate that directional changes in community-level functional composition can result from idiosyncratic change in a few species rather than widespread community-wide changes associated with functional traits. Future analyses of directional change in natural communities should combine community-, species-, and possibly individual-level analyses to uncover relationships with function that can improve understanding and enable prediction. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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26. No evidence that boron influences tree species distributions in lowland tropical forests of Panama.
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Turner, Benjamin L., Zalamea, Paul‐Camilo, Condit, Richard, Winter, Klaus, Wright, S. Joseph, and Dalling, James W.
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BORON content of plants ,CHEMICAL composition of plants ,TROPICAL forests ,NUTRIENT cycles ,BIOGEOCHEMICAL cycles - Abstract
It was recently proposed that boron might be the most important nutrient structuring tree species distributions in tropical forests. Here we combine observational and experimental studies to test this hypothesis for lowland tropical forests of Panama., Plant-available boron is uniformly low in tropical forest soils of Panama and is not significantly associated with any of the > 500 species in a regional network of forest dynamics plots. Experimental manipulation of boron supply to seedlings of three tropical tree species revealed no evidence of boron deficiency or toxicity at concentrations likely to occur in tropical forest soils. Foliar boron did not correlate with soil boron along a local scale gradient of boron availability., Fifteen years of boron addition to a tropical forest increased plant-available boron by 70% but did not significantly change tree productivity or boron concentrations in live leaves, wood or leaf litter. The annual input of boron in rainfall accounts for a considerable proportion of the boron in annual litterfall and is similar to the pool of plant-available boron in the soil, and is therefore sufficient to preclude boron deficiency., We conclude that boron does not influence tree species distributions in Panama and presumably elsewhere in the lowland tropics. [ABSTRACT FROM AUTHOR]
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- 2017
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27. Interspecific associations in seed arrival and seedling recruitment in a Neotropical forest.
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Wright, S. Joseph, Calderón, Osvaldo, Hernandéz, Andrés, Detto, Matteo, and Jansen, Patrick A.
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SEED dispersal by animals , *SEEDLINGS , *TROPICAL forests , *SPECIES , *COMPETITION (Biology) - Abstract
Contagious seed dispersal refers to the tendency for some sites to receive many dispersed seeds while other sites receive few dispersed seeds. Contagious dispersal can lead to interspecific associations in seed arrival, and this in turn might lead to interspecific associations in seedling recruitment. We evaluate the extent of spatially contagious seed arrival, the frequency of positive interspecific associations in seed arrival, and their consequences for seedling recruitment at the community level in a tropical moist forest. We quantified seed arrival to 200 passive seed traps for 28 yr of weekly censuses and seedling recruitment to 600 1-m2 quadrats for 21 yr of annual censuses on Barro Colorado Island, Panama. We assessed whether spatially contagious seed dispersal was more important among zoochorous species than among anemochorous species, increased in importance with similarity in fruiting times, and led to interspecific associations in seed arrival and seedling recruitment. We controlled adult seed source associations statistically to evaluate predicted relationships. We found that spatially contagious seed arrival was widespread among zoochorous species, but also occurred among anemochorous species when the strong, consistent trade winds were present. Significant interspecific associations in seed arrival were more likely for pairs of species with zoochorous seeds and similar fruiting times and persisted through seedling recruitment. Thus, interspecifically contagious seed dispersal affects local species composition and alters the mixture of interspecific interactions through the seed, germination, and early seedling stages in this forest. Future investigations should consider the implications of interspecific association at the regeneration stages documented here for later life stages and species coexistence. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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28. Seed arrival in tropical forest tree fall gaps.
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Puerta-Piñero, Carolina, Muller-Landau, Helene C., Calderón, Osvaldo, and Wright, S. Joseph
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SEED ecology ,FOREST canopy gaps ,DISPERSAL (Ecology) ,SPECIES diversity ,UNDERSTORY plants - Abstract
Tree deaths open gaps in closed-canopy forests, which allow light to reach the forest floor and promote seed germination and seedling establishment. Gap dependence of regeneration is an important axis of life history variation among forest plant species, and many studies have evaluated how plant species differ in seedling and sapling performance in gaps. However, relatively little is known about how seed arrival in gaps compares with seed arrival in the understory, even though seed dispersal by wind and animals is expected to be altered in gaps. We documented seed arrival for the first seven years after gap formation in the moist tropical forests of Barro Colorado Island (BCI), Panama, and evaluated how the amount and functional composition of arriving seeds compared with understory sites. On average, in the first three years after gap formation, 72% fewer seeds arrived in gaps than in the understory (207 vs. 740 seeds-m
-2 yr-1 ). The reduction in number of arriving seeds fell disproportionately on animal-dispersed species, which suffered an 86% reduction in total seed number, while wind-dispersed species experienced only a 47% reduction, and explosively dispersed species showed increased seed numbers arriving. The increase in explosively dispersed seeds consisted entirely of the seeds of several shrub species, a result consistent with greater in situ seed production by explosively dispersed shrubs that survived gap formation or recruited immediately thereafter. Lianas did relatively better in seed arrival into gaps than did trees, suffering less of a reduction in seed arrival compared with understory sites. This result could in large part be explained by the greater predominance of wind dispersal among lianas: there were no significant differences between lianas and trees when controlling for dispersal syndromes. Our results show that seed arrival in gaps is very different from seed arrival in the understory in both total seeds arriving and functional composition. Differential seed arrival in gaps will help to maintain wind-dispersed, explosively dispersed, and possibly other understory species in the community of plants that regenerate in gaps. [ABSTRACT FROM AUTHOR]- Published
- 2013
- Full Text
- View/download PDF
29. Functional traits explain light and size response of growth rates in tropical tree species.
- Author
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RÜGER, NADJA, WIRTH, CHRISTIAN, WRIGHT, S. JOSEPH, and CONDIT, RICHARD
- Subjects
TROPICAL plants ,PLANT growth ,PLANT size ,PLANT species ,PLANT life spans - Abstract
Relationship s between functional traits and average or potential demographic rates have provided insight into the functional constraints and trade-offs underlying life-history strategies of tropical tree species. We have extended this framework by decomposing growth rates of -- 130 000 trees of 171 Neotropical tree species into intrinsic growth and the response of growth to light and size. We related these growth characteristics to multiple functional traits (wood density, adult stature, seed mass, leaf traits) in a hierarchical Bayesian model that accounted for measurement error and intraspecific variability of functional traits. Wood density was the most important trait determining all three growth characteristics. Intrinsic growth rates were additionally strongly related to adult stature, while all traits contributed to light response. Our analysis yielded a predictive model that allows estimation of growth characteristics for rare species on the basis of a few easily measurable morphological traits. [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
- View/download PDF
30. Trait evolution and the coexistence of a species swarm in the tropical forest understorey.
- Author
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Sedio, Brian E., Wright, S. Joseph, and Dick, Christopher W.
- Subjects
- *
PSYCHOTRIA , *PHYLOGENY , *RUBIACEAE , *ECOLOGICAL niche , *SOIL physics , *SOIL infiltration , *HABITATS - Abstract
1. A small number of species-rich plant genera make a substantial contribution to the α diversity of tropical forests. These 'species swarms' (Gentry 1982) challenge a view of community assembly that maintains that niche overlap, and hence, the likelihood of competitive exclusion should increase with phylogenetic affinity. Related species may, however, occupy different microhabitats within a forest stand or, alternatively, differ ecologically in ways that allow them to coexist syntopically. 2. To explore the relationship between phylogenetic history and niche differentiation among sympatric, congeneric species, we performed phylogenetic analyses of microhabitat preferences, photosynthetic and hydraulic traits, and experimental responses to light and water availability for 20 species of Psychotria (Rubiaceae) from Barro Colorado Island (BCI), Panama. 3. The Psychotria present in small (3-m radius), circular plots were more closely related than expected by chance. Photosynthetic and hydraulic traits were both associated with species habitat distributions, but only hydraulic traits were conserved phylogenetically. Experimental responses to water availability were also conserved phylogenetically. Functional trait analyses revealed little or no evidence of niche partitioning within sites. 4. We conclude that Psychotria species' responses to both light and moisture availability determine their microhabitat distributions on BCI and that evolutionarily conserved hydraulic traits lead to phylogenetic clustering of co-occurring species. 5. Synthesis. The evolutionary conservation of hydraulic traits related to soil moisture tolerance largely explains phylogenetic clustering in the local assembly of the hyperdiverse genus Psychotria. We suggest that close relatives are unlikely to exclude one another from shared habitats because resource availability is determined largely by asymmetric competition with the overstorey, rather than by competition with neighbouring understorey plants. In light of the recent biogeographic admixture in central Panama, the phylogenetic niche conservatism exhibited by Psychotria on BCI raises the possibility of an association between local microhabitats and the ancestral climatic regimes under which major Psychotria lineages evolved before arriving in sympatry. [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
- View/download PDF
31. Coexistence in tropical forests through asynchronous variation in annual seed production.
- Author
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Usinowicz, Jacob, Wright, S. Joseph, and Ives, Anthony R.
- Subjects
- *
FOREST ecology , *PLANT variation , *PLANT species , *PLANT reproduction , *PLANT competition , *SEED production (Botany) , *FOREST biodiversity - Abstract
The storage effect is a mechanism that can facilitate the coexistence of competing species through temporal fluctuations in reproductive output. Numerous natural systems have the prerequisites for the storage effect, yet it has rarely been quantitatively assessed. Here, we investigate the possible importance of the storage effect in explaining the coexistence of tree species in the diverse tropical forest on Barro Colorado Island, Panama. This tropical forest has been monitored for more than 20 years, and annual seed production is asynchronous among species, a primary requirement for the storage effect. We constructed a model of forest regeneration that includes species-specific recruitment through seed, sapling, and adult stages, and we parameterized the model using data for 28 species for which information is known about seedling germination and survival. Simulations of the model demonstrated that the storage effect alone can be a strong mechanism allowing long-term persistence of species. We also developed a metric to quantify the strength of the storage effect in a way comparable to classical resource partitioning. Applying this metric to seed production data from 108 species, the storage effect reduces the strength of pairwise interspecific competition to 11-43% of the strength of intraspecific competition, thereby demonstrating strong potential to facilitate coexistence. Finally, for a subset of 51 species whose phylogenetic relationships are known, we compared the strength of the storage effect between pairs of species to their phylogenetic similarity. The strength of the storage effect between closely related species was on average no different from distantly related species, implying that the storage effect can be important in promoting the coexistence of even closely related species. [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
- View/download PDF
32. The impact of lianas on 10 years of tree growth and mortality on Barro Colorado Island, Panama.
- Author
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Ingwell, Laura L., Wright, S. Joseph, Becklund, Kristen K., Hubbell, Stephen P., and Schnitzer, Stefan A.
- Subjects
- *
TREE growth , *CROWNS (Botany) , *FOREST biomass , *PLANT biomass , *FOREST ecology , *PLANT growth - Abstract
1. Lianas compete intensely with trees, but few studies have examined long-term effects of liana infestation on tree growth and mortality. We quantified the effects of lianas in tree crowns ( n = 2907) and rooted within 2 m of trees ( n = 1086) on growth and mortality of 30 tree species from 1995 to 2005 on Barro Colorado Island (BCI), Panama, documented liana infestation in tree crowns in 1996 and 2007 to determine the dynamics of liana infestation, and quantified liana infestation in the crowns of 3231 additional canopy trees (d.b.h. ≥20 cm) in 2007 to compare with the same metric determined by previous studies in 1967 and 1980. 2. Severe liana infestation increased tree mortality: 21% of liana-free trees in 1996 had died by 2007, whereas 42% of trees with more than 75% of the crown infested by lianas in 1996 had died by 2007. 3. Liana infestation of tree crowns significantly reduced tree growth, particularly on sun-exposed trees. The proximity of rooted lianas significantly reduced the growth of shaded trees. 4. Liana infestation was dynamic: 10.9% of trees with severe liana infestation in their crowns in 1996 had shed all of their lianas by 2007 and 5.3% of trees with no lianas in their crown in 1996 had severe liana infestation in 2007. 5. Liana infestation was common: lianas were present in 53% of trees of the 30 focal species. Including lianas rooted within 2 m of the tree increased this percentage to 78%. Using both above- and below-ground measures may provide a better estimate of liana competition than either measure alone. 6. Liana infestation is increasing on BCI. Lianas were present in the crowns of 73.6% of canopy trees (d.b.h. ≥20 cm). Liana canopy infestation was 57% higher than in 1980 and 65% higher than in 1967, which is consistent with reported increases in liana abundance, biomass, and leaf and flower production. 7. Synthesis. We used one of the largest studies ever conducted on lianas to confirm the negative effects of lianas on tree growth and survival over 10 years. Liana infestation of trees was widespread, dynamic and increasing on BCI. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF
33. Reproductive ecology of 21 coexisting Psychotria species (Rubiaceae): when is heterostyly lost?
- Author
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SAKAI, SHOKO and WRIGHT, S. JOSEPH
- Subjects
- *
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
- Full Text
- View/download PDF
34. GAP-DEPENDENT RECRUITMENT, REALIZED VITAL RATES, AND SIZE DISTRIBUTIONS OF TROPICAL TREES.
- Author
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Wright, S. Joseph, Muller-Landau, Helene C., Condit, Richard, and Hubbell, Stephen P.
- Subjects
- *
FOREST canopy ecology , *TREES , *SHADE-tolerant plants , *TREE development , *PLANT diversity conservation ,ONTOGENY of plants - Abstract
In closed-canopy forests, plant morphology and physiology determine shade tolerance and potential growth and mortality rates; potential vital rates and ongoing gap dependence determine realized vital rates; and realized vital rates determine individual size distributions. This hypothesis was evaluated for the 73 most abundant canopy tree species from Barro Colorado Island, Panama. The percentage of recruits located in tree-fall gaps (P), sapling growth (G), and mortality (M) rates, and the coefficient of skewness of size distributions (g1) were determined from censuses of all individuals >10 mm dbh in a 50- ha plot. Seven qualitative, bivariate predictions relating g[sub1], G, M, P, and wood density (W) were evaluated. Six of the seven predictions were substantiated in pairwise analyses. A path analysis integrated all seven predictions and explained 51% of the interspecific variation in g[sub1]. Size distributions with many large individuals and a long tail of relatively rare, small individuals (g[sub1] < 0) characterized gap-dependent species with large fecundity, seed mortality, seedling mortality, G, M, and P. Size distributions with many small individuals and a long tail of relatively rare, large individuals (g[sub1] > 0) characterized shade-tolerant species with the opposite traits. The percentage of tropical tree species that require tree- fall gaps to regenerate has been estimated to range from <20% to >70% for old-growth forests. [ABSTRACT FROM AUTHOR]
- Published
- 2003
- Full Text
- View/download PDF
35. 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
- Subjects
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
- Full Text
- View/download PDF
36. The Smithsonian Tropical Research Institute: Ecological and applied research.
- Author
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Wright, S. Joseph
- Subjects
- *
RESEARCH institutes , *TROPICAL forests , *CORAL reefs & islands , *YEAR , *HUMANITARIANISM - Abstract
The mission of the Smithsonian Tropical Research Institute (STRI) is to increase "...knowledge about the past, present and future of tropical biodiversity and its relevance to human welfare." Scientists pursue their own research interests within this broad mandate. This review concerns the history of STRI and recent ecological and applied research conducted at STRI, emphasizing research that extends across decades due to sustained efforts of single investigators or multiple investigators working across generations. STRI began as a rustic field station established in the forests of Barro Colorado Island (BCI), Panama in 1923 that prospered without outside funding setting the stage for the subsequent development of a major research center. Today, STRI employs 34 scientists, maintains nine field stations and six laboratories and hosts 1,200 visiting scientists and students each year. BCI provides examples of modern research being informed by results published up to 95 years earlier. Baselines recorded more systematically starting 50 years ago will be even more valuable in the future. The same will be true for each field station and research network described in this volume. As the natural world changes, data from these field stations and research networks will provide irreplaceable insights into how tropical forests and coral reefs once functioned and how function changed through time. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
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