Your search keyword '"Paulo H. Lara"' showing total 6 results

1. Effects of temperature and demography on the phenology of loggerhead sea turtles in Brazil

Author

Marc Girondot, Alexsandro Santana dos Santos, Paulo H. Lara, Jonathan Monsinjon, Mmpb Fuentes, Mag dei Marcovaldi, and Milagros Lopez

Subjects

Phenotypic plasticity, Ecology, Phenology, Ectotherm, Climate change, Aquatic Science, Biology, Ecology, Evolution, Behavior and Systematics

Published

2019

2. Studying the Thermal Profile of Nesting Grounds to Infer Potential Impacts From Climate Change on Sea Turtles

Author

Paulo H. Lara, Maria A. G. dei Marcovaldi, and Mariana M. P. B. Fuentes

Subjects

Current (stream), Sea turtle, Oceanography, biology, Baseline (sea), Nesting (process), Climate change, Environmental science, biology.organism_classification, Monitoring temperature

Abstract

To understand and monitor the impacts that projected increases in temperature may have on sea turtle reproductive output, it is necessary to first determine the current temperatures at sea turtle nesting grounds. Information on the current thermal profile at sea turtle nesting grounds provides baseline information to compare temperatures to and, if needed, temperatures to target with interventions (e.g., hatcheries) as climate change progresses. This chapter discusses several factors that need to be considered while monitoring temperature at sea turtle nesting grounds.

Published

2021

3. Sex ratio estimates for species with temperature-dependent sex determination differ according to the proxy used

Author

Marc Girondot, Maria A. G. dei Marcovaldi, Milagros Lopez, Mariana M. P. B. Fuentes, Paulo H. Lara, Jonathan Monsinjon, and Alexsandro Santana dos Santos

Subjects

0106 biological sciences, education.field_of_study, Temperature-dependent sex determination, Ecology, 010604 marine biology & hydrobiology, Ecological Modeling, Population, Climate change, Biology, Time step, 010603 evolutionary biology, 01 natural sciences, Proxy (climate), Sexual dimorphism, Statistics, education, Incubation, Sex ratio

Abstract

Knowledge of the sex ratio of a population is crucial to understand their structure and dynamics. For species, such as marine turtles, with temperature-dependent sex determination, this knowledge provides a baseline in advance of climate change. Determining the primary sex ratio for marine turtle populations is challenging since offspring lack sexually dimorphic external characteristics. Therefore several proxies have been used to estimate the primary sex ratio of marine turtle populations. However, no study to date has compared estimations of sex ratio when using different proxies to determine the most accurate and to detect potential bias. To address this, we estimated the sex ratio of natural loggerhead, Caretta caretta, nests using 8 different proxies: two based on constant temperature equivalent (average of temperature or average temperature weighted by the growth of embryos during each time step) both for three developmental periods (the whole incubation, the middle third of incubation and the middle third of development) as well as two proxies based on incubation duration (duration of the whole incubation and of the middle third of development). Sex ratio estimates differed greatly depending on the proxy being used. Here we discuss the differences among proxies based on the biological relevance of underlying hypotheses and highlight the need for studies to accurately determine the thermosensitive period and to obtain appropriate estimates of embryo growth rate to estimate marine turtle sex ratio.

Published

2017

4. The climatic debt of loggerhead sea turtle populations in a warming world

Author

David C. Rostal, Maria A. G. dei Marcovaldi, Kristina L. Williams, Mariana M. P. B. Fuentes, Jenny Tucek, Jean-Michel Guillon, Milagros López-Mendilaharsu, Anne-Marie LeBlanc, Marc Girondot, Alexsandro Santana dos Santos, Paulo H. Lara, Yakup Kaska, Kirt Rusenko, Jonathan Monsinjon, Jeanette Wyneken, Ronel Nel, Ecologie Systématique et Evolution (ESE), Université Paris-Sud - Paris 11 (UP11)-AgroParisTech-Centre National de la Recherche Scientifique (CNRS), Florida Atlantic University [Boca Raton], Florida State University [Tallahassee] (FSU), Nelson Mandela Metropolitan University [Port Elizabeth, South Africa], Georgia Southern University, and University System of Georgia (USG)

Subjects

0106 biological sciences, Reptilia, General Decision Sciences, Climate change, Reptile, adaptation, Phenotypic plasticity, 010501 environmental sciences, 010603 evolutionary biology, 01 natural sciences, Loggerhead sea turtle, hatching, 14. Life underwater, Sex ratios, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Caretta caretta, Thermal tolerance, Ecology, biology, reproductive strategy, Phenology, Global warming, Caretta, Forestry, turtle, biology.organism_classification, wild population, Cheloniidae, reproductive success, 13. Climate action, Sustainability, Embryonic development, Incubation, temperature tolerance, Adaptation, Hatching success, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, [SDV.EE.BIO]Life Sciences [q-bio]/Ecology, environment/Bioclimatology, Oviparity, Sex ratio

Abstract

International audience; Phenological shifts, by initiating reproductive events earlier, in response to advanced seasonal warming is one of the most striking effects currently observed in wild populations. For sea turtles, phenological adjustment to warming conditions could be the most effective short-term adaptation option against climate change. We calculated future phenological changes required in seven important loggerhead (Caretta caretta) nesting populations to continue achieving a high hatching success and a sex ratio that lies within current ranges. Considering temperature-mediated phenological changes, we found that most populations (six out of seven) will not be able to keep pace with a warming climate. Under an optimistic climate warming scenario (RCP4.5), these populations will face a climatic debt, that is, a difference between required and expected phenological changes, and warming will substantially reduce hatching success and induce a feminization of hatchlings, which may jeopardize their reproductive sustainability. Our approach offers the possibility to quantify the efficiency of phenological shifts in oviparous reptiles by considering physiological, developmental and phenological processes.

Published

2019

5. Coastal development at sea turtles nesting ground: Efforts to establish a tool for supporting conservation and coastal management in northeastern Brazil

Author

Paulo H. Lara, Frederico Tognin, Maria A. G. dei Marcovaldi, Gustave G. Lopez, Eduardo de C. Saliés, and Thiago Zagonel Serafini

Subjects

Reproductive success, biology, Range (biology), Subtropics, Management, Monitoring, Policy and Law, Aquatic Science, Oceanography, biology.organism_classification, Fishery, Geography, Sea turtle, Habitat, Nesting (computing), Coastal management, Tourism

Abstract

While tropical and subtropical coastal areas are considered prime areas for a wide range of tourism projects, they also host important sea turtle nesting grounds. Preserving these nesting areas is critical to ensure reproductive success and maintain viable sea turtle populations. The northern coast of the State of Bahia, in northeastern Brazil, is an important sea turtle nesting ground. Sea turtle conservation activities in Brazil began in 1980, focusing initially on reducing harvesting of nesting females and egg collection. Recently, new threats resulting from unplanned coastal development have emerged. In this paper, a geospatial tool, as an initiative of the Brazilian National Sea Turtle Conservation Program (TAMAR) to identify key areas for sea turtle nesting along the coast northern coast of Bahia, is presented. A Sensitivity Map was created, using a detailed GIS map graded by colors representing relevance levels of the coast for sea turtle nesting. From this map, recommendations of management practices that correspond to each sensitivity category can be made. This methodology allows for the identification of critical sea turtle habitats and the subsequent implementation of mitigation measures at nesting beaches, as well support coastal management policies.

Published

2015

6. Novel Research Techniques Provide New Insights to the Sea Turtle Life Cycle

Author

Alexsandro Santana dos Santos, Milagros López-Mendilaharsu, Paulo H. Lara, and Maria Ângela Marcovaldi

Subjects

Fishery, Sea turtle, Satellite telemetry, Climate change, Biology, biology.organism_classification

Abstract

The recent increase in the knowledge of the complex life cycle of sea turtles in the world has been possible by the use of novel technologies, such as satellite telemetry and molecular analyses. These technological advances have also provided the opportunity to assess future impacts of climate change. In this chapter, you will find a brief description of these techniques and an overview of the most relevant results obtained through scientific research of sea turtles in Brazil.

Published

2017