INVESTIGADORES
LUPPI tomas Atilio
artículos
Título:
Anthropogenic and biological sound effects on the maternal care behavior of a key crab species
Autor/es:
SAL MOYANO, MARÍA PAZ; CERAULO, MARIA; LUPPI, TOMÁS; GAVIO, MARÍA ANDREA; BUSCAINO, GIUSEPPA
Revista:
FRONTIERS IN MARINE SCIENCE
Editorial:
Frontiers Media SA
Referencias:
Año: 2023 vol. 10
ISSN:
2296-7745
Resumen:
Introduction: Maternal care in marine decapods involves eggs caring in the brood compartment until the larvae hatch. This behavior mainly allows embryo mass oxygen supply, ensuring healthy embryonic development. The present study aimed to analyze the effect of different sound sources (anthropogenic and biologic) and their temporal patterns (low and high rate: 1 min of the sound stimulus + 5 min of silence and 1 min of the sound stimulus + 1 min of silence, respectively) on the maternal care of the key crab species, Neohelice granulata. Methods: In the laboratory, three acoustic stimuli were played back: an artificial white noise (10 Hz 20 kHz), and two sounds obtained from the crabs´ natural habitat, motorboat passages and biological signals from a crabs predator fish. Three behavioral variables were quantified: still position, and two maternal care behaviors: abdominal flapping and chelae probing. Results: Results demonstrated that the high rate anthropogenic stimuli, white noise and motorboat, affected all behavioral variables, increasing the still position and diminishing the maternal care behaviors. Otherwise, the predatory stimulus did not affect the still position although diminished the maternal care behaviors (high rate). Discussion: The different behavioral response depending on the sound stimuli may indicate that crabs distinguish sound sources. The anthropogenic noise is suggested to cause distraction that is linked to the increased still position, while the predator stimulus would be associated with an alert behavior not affecting the locomotion behavior. The sound stimuli effect on the maternal care behavior revealed a negative effect that potentially could affect offspring survival. This is important considering the ecosystem engineering function of the studied key crab species. The reduction of the noise emission pattern rate is suggested as a mitigation action to diminish sound impact effects in the crabs natural habitat. The study contributes the first to assessing the effect of different sound sources on the maternal care behavior of a crustacean species.