Your search keyword '"Corso, Gilberto"' showing total 5 results

1. Using data from nesting beach monitoring and satellite telemetry to improve estimates of marine turtle clutch frequency and population abundance.

Author

Santos, Armando J. B., Vieira, Daniel H. G., Bellini, Claudio, Corso, Gilberto, A. Ceriani, Simona, and Fuentes, Mariana M. P. B.

Subjects

SATELLITE telemetry, BEACHES, SEA turtles, TURTLE populations, WILDLIFE conservation, HAWKSBILL turtle, TURTLE nests

Abstract

Population abundance data are often used to define species' conservation status. Abundance of marine turtles is typically estimated using nesting beach monitoring data such as nest counts and clutch frequency (CF, i.e., the number of nests female turtles lay within a nesting season). However, studies have shown that CF determined solely from nesting beach monitoring data can be underestimated, leading to inaccurate abundance estimates. To obtain reliable estimates of CF for hawksbill turtles in northeastern Brazil (6.273356° S, 35.036271° W), the region with the highest nesting density in the South Atlantic, data from beach monitoring and satellite telemetry were combined from 2014 to 2019. Beach monitoring data indicated the date of first nesting event, while state-space modeling of satellite telemetry data indicated the departure date of turtles, allowing calculations of residence length at breeding site and CF estimates based on internesting intervals. Females were estimated to nest up to six times within the nesting season with CF estimates between 4.5 and 4.8 clutches per female. CF estimates were used to determine the number of nesting females at the study site based in two approaches: considering and not considering transient turtles. Our approach and findings highlight that transients heavily influence CF estimates and need for reconsideration of how this key parameter is commonly determined for marine turtle populations and the use of beach monitoring data and satellite telemetry for estimations of CF. [ABSTRACT FROM AUTHOR]

Published

2021

2. First Record of Bioacoustic Emission in Embryos and Hatchlings of Hawksbill Sea Turtles (Eretmochelys imbricata).

Author

Monteiro, Cibele C., Carmo, Hayane M.A., Santos, Armando J.B., Corso, Gilberto, and Sousa-Lima, Renata S.

Subjects

HAWKSBILL turtle, LOGGERHEAD turtle, EMBRYOS

Abstract

Recordings were made in nests of Eretmochelys imbricata and 107 samples of 10-min recordings revealed 575 sounds that were classified manually into 4 categories. Our results show that hawksbill turtles vocalize within the nest, especially during and after eclosion, which suggests vocalizations are important for communication among hatchlings to synchronize emergence from the nest. [ABSTRACT FROM AUTHOR]

Published

2019

3. Lunar phases and hawksbill sea turtle nesting.

Author

Nakamura, Milena Felix, Santos, Armando José Barsante, Lobão-Soares, Bruno, and Corso, Gilberto

Subjects

HAWKSBILL turtle, LOGGERHEAD turtle, LUNAR phases, TURTLE nests, FULL moon, NEST building

Abstract

The behavior of sea turtle species can be influenced by the lunar cycle, possibly due to moonlight variability. We analyzed the relationship between nesting behavior and moon phase using nesting hawksbill turtle records for beaches in Northeast Brazil for the 2006–2007 to 2015–2016 seasons. The total number of records was 4807, while the total number with time point registration was 1031. The Eretmochelys imbricata inter-nesting period was approximately half the lunar cycle; we therefore expected nesting phase synchronization with lunar phases within each season. We computed the lunar angle for the hawksbill records, and the Kuiper test for uniformity indicated that the species shows some lunar phase preferences. We observed that oviposition at the first and last quarters of the moon is more frequent than at full moon or new moon phases. We also computed the lunar angle throughout several seasons for remigrant turtles and found an absence of preferential lunar phase across different seasons. This indicates that the hawksbill does not choose a lunar phase previously chosen in other nesting seasons. We analyzed the relationship between the presence of the moon in the sky and nesting turtles, and, in sequence, compared the records of false crawls and nest crawls; no relation was found between these variables. [ABSTRACT FROM AUTHOR]

Published

2019

4. Individual Nest Site Selection in Hawksbill Turtles Within and Between Nesting Seasons.

Author

Santos, Armando José Barsante, Neto, José Xavier Lima, Vieira, Daniel Henrique Gil, Neto, Lourival Dutra, Bellini, Claudio, De Souza Albuquerque, Natalia, Corso, Gilberto, and Soares, Bruno Lobão

Subjects

HAWKSBILL turtle, TURTLE nests, VEGETATION & climate, ECOLOGICAL niche, COASTS, ANIMAL behavior

Abstract

We analyzed 410 nest locations from 150 individual nesting hawksbill turtles ( Eretmochelys imbricata) on the northeastern Brazilian coast during 8 nesting seasons from 2006 to 2014 to evaluate individual nesting preferences. We determined the consistency of nest site choice within and between nesting seasons for open sand and vegetation nest microhabitats and also for nest site distances from the current waterline, highest spring tide, vegetation line, and position along the beach. We found that behavioral consistency within seasons was more robust than between seasons. This suggests that a decrease in the consistency of nest site choice may be related to progressive landscape changes in the nesting environment, driving behavioral flexibility in nesting preferences. [ABSTRACT FROM AUTHOR]

Published

2016

5. Body Mass and the Energy Budget of Gravid Hawksbill Turtles (Eretmochelys imbricata) during the Nesting Season.

Author

Santos, Armando J. B., Freire, Eliza M. X., Bellini, Claudio, and Corso, Gilberto

Subjects

HAWKSBILL turtle, NEST building, VITELLOGENESIS, AMPHIBIAN eggs, OVIPARITY, ANIMAL behavior

Abstract

Female Hawksbill Turtles (Eretmochelys imbricata) nesting along the southeast coastline of the state of Rio Crande do Norte Brazil (6°13′40″S, 35°03′05″W) were captured and weighed during the 2006-07 and 2007-08 nesting seasons. The mean value for the first postoviposition mass was 79.6 kg. Individuals that were subsequently recaptured showed a mean mass change of 1.6 kg in the interval between two consecutive postovipositions (i.e., after one internidal interval). We plotted the mass of the individuals against the curvilinear carapace length. An analysis of residual mass above average body condition reveals that females with good body condition start nesting at the beginning of the season. Preoviposition mass was measured when the female aborted the nesting process. Cross mass change was 5.46 kg. Mean body mass recovery was 3.2 kg. Body mass recovery was always significantly lower than the change in gross mass. This is in agreement with the observed mass loss tendency throughout the breeding season for this species. Mass recovery was analyzed using allometric law, converting both loss in body mass and total egg mass to energy. Using mean turtle body mass, we performed three scenarios for the metabolic maintenance rate of the Hawksbill Turtle during the nesting period. The energy that the turtles expended in egg laying was estimated at 1,183 kJ • d-1. The daily net mass loss for the most realistic scenario converted into energy was 4,213 kJ • d-1. The total daily energy consumption (maintenance plus egg production) was similar to the daily energy from mass loss. This theoretical treatment suggests that, under this scenario, there is no reason for significant extra energy intake during the oviposition period. [ABSTRACT FROM AUTHOR]

Published

2010