Your search keyword '"Paul-Camilo Zalamea"' showing total 4 results

1. Correction: Investment in Seed Physical Defence Is Associated with Species' Light Requirement for Regeneration and Seed Persistence: Evidence from Macaranga Species in Borneo.

Author

Pimonrat Tiansawat, Adam S Davis, Mark A Berhow, Paul-Camilo Zalamea, and James W Dalling

Subjects

Medicine, Science

Published

2016

2. Investment in seed physical defence is associated with species' light requirement for regeneration and seed persistence: evidence from Macaranga species in Borneo.

Author

Pimonrat Tiansawat, Adam S Davis, Mark A Berhow, Paul-Camilo Zalamea, and James W Dalling

Subjects

Medicine, Science

Abstract

The seed stage is often critical in determining the regeneration success of plants. Seeds must survive an array of seed predators and pathogens and germinate under conditions favourable for seedling establishment. To maximise recruitment success plants protect seeds using a diverse set of chemical and physical defences. However, the relationship between these defence classes, and their association with other life history traits, is not well understood. Data on seed coat thickness and fracture resistance, and the abundance and diversity of potential defensive compounds were collected for 10 tree species of Macaranga from Borneo. The data were used to test whether there is a trade-off in physical versus chemical defence investment, and to determine how investment varies with seed mass, and light requirement for regeneration. Across species there was no correlation between seed coat thickness and abundance of potential defensive compounds, indicating the absence of a direct trade-off between defence classes. While chemical defences were not correlated to other traits, physical defences were positively correlated with light requirement for regeneration. For a subset of five Macaranga species we evaluated the relative investment in chemical and physical defence to seed persistence in the soil, measured as the time to half initial seed viability (seed half-life). Half-life was negatively related to the ratio of potential defensive compound abundance to seed coat thickness, suggesting that species with long persistence invested in physical defence more than stored chemical defences. These results indicate that investment in seed defences are associated with species' light requirements for regeneration, rather than scaling positively with seed mass. Furthermore, chemical defences, although highly variable among species, do not appear to be critical to long term persistence of Macaranga seeds, and may be important in defending seeds from natural enemies distinct from those found in the soil.

Published

2014

3. The genus Cecropia: a biological clock to estimate the age of recently disturbed areas in the Neotropics.

Author

Paul-Camilo Zalamea, Patrick Heuret, Carolina Sarmiento, Manuel Rodríguez, Anne Berthouly, Stéphane Guitet, Eric Nicolini, César Delnatte, Daniel Barthélémy, and Pablo R Stevenson

Subjects

Medicine, Science

Abstract

Forest successional processes following disturbance take decades to play out, even in tropical forests. Nonetheless, records of vegetation change in this ecosystem are scarce, increasing the importance of the chronosequence approach to study forest recovery. However, this approach requires accurate dating of secondary forests, which until now was a difficult and/or expensive task. Cecropia is a widespread and abundant pioneer tree genus of the Neotropics. Here we propose and validate a rapid and straightforward method to estimate the age of secondary forest patches based on morphological observations of Cecropia trees. We found that Cecropia-inferred ages were highly correlated with known ages of the forest. We also demonstrate that Cecropia can be used to accurately date disturbances and propose twenty-one species distributed all over the geographical range of the genus as potential secondary forest chronometer species. Our method is limited in applicability by the maximal longevity of Cecropia individuals. Although the oldest chronosequence used in this study was 20 years old, we argue that at least for the first four decades after disturbance, the method described in this study provides very accurate estimations of secondary forest ages. The age of pioneer trees provides not only information needed to calculate the recovery of carbon stocks that would help to improve forest management, but also provides information needed to characterize the initial floristic composition and the rates of species remigration into secondary forest. Our contribution shows how successional studies can be reliably and inexpensively extended without the need to obtain forest ages based on expensive or potentially inaccurate data across the Neotropics.

Published

2012

4. Investment in seed physical defence is associated with species' light requirement for regeneration and seed persistence: evidence from Macaranga species in Borneo

Author

Mark A. Berhow, Pimonrat Tiansawat, James W. Dalling, Adam S. Davis, and Paul Camilo Zalamea

Subjects

0106 biological sciences, Plant Evolution, Light, lcsh:Medicine, Plant Science, 01 natural sciences, Biochemistry, Predation, Trees, Abundance (ecology), Borneo, lcsh:Science, Plant Growth and Development, Plant Pests, Multidisciplinary, biology, Ecology, Plant Biochemistry, Plant Anatomy, Euphorbiaceae, food and beverages, Plants, Germination, Plant Physiology, Seeds, Research Article, Plant Morphology, 010603 evolutionary biology, Life history theory, Plant-Environment Interactions, Botany, Terrestrial Ecology, Macaranga, Evolutionary Biology, Resistance (ecology), Plant Ecology, lcsh:R, Ecology and Environmental Sciences, Organisms, Biology and Life Sciences, Correction, 15. Life on land, Plant Pathology, biology.organism_classification, Organismal Evolution, Seed dispersal syndrome, Seedling, lcsh:Q, 010606 plant biology & botany, Developmental Biology

Abstract

The seed stage is often critical in determining the regeneration success of plants. Seeds must survive an array of seed predators and pathogens and germinate under conditions favourable for seedling establishment. To maximise recruitment success plants protect seeds using a diverse set of chemical and physical defences. However, the relationship between these defence classes, and their association with other life history traits, is not well understood. Data on seed coat thickness and fracture resistance, and the abundance and diversity of potential defensive compounds were collected for 10 tree species of Macaranga from Borneo. The data were used to test whether there is a trade-off in physical versus chemical defence investment, and to determine how investment varies with seed mass, and light requirement for regeneration. Across species there was no correlation between seed coat thickness and abundance of potential defensive compounds, indicating the absence of a direct trade-off between defence classes. While chemical defences were not correlated to other traits, physical defences were positively correlated with light requirement for regeneration. For a subset of five Macaranga species we evaluated the relative investment in chemical and physical defence to seed persistence in the soil, measured as the time to half initial seed viability (seed half-life). Half-life was negatively related to the ratio of potential defensive compound abundance to seed coat thickness, suggesting that species with long persistence invested in physical defence more than stored chemical defences. These results indicate that investment in seed defences are associated with species' light requirements for regeneration, rather than scaling positively with seed mass. Furthermore, chemical defences, although highly variable among species, do not appear to be critical to long term persistence of Macaranga seeds, and may be important in defending seeds from natural enemies distinct from those found in the soil.

Published

2013