7 results on '"Sal Moyano MP"'
Search Results
2. Noise accelerates embryonic development in a key crab species: Morphological and physiological carryover effects on early life stages.
- Author
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Sal Moyano MP, Mitton FM, Luppi TA, Snitman SM, Nuñez JD, Lorusso MI, Ceraulo M, Gavio MA, and Buscaino G
- Subjects
- Animals, Larva, Female, Ecosystem, Lipid Peroxidation, Embryo, Nonmammalian, Brachyura physiology, Embryonic Development, Noise adverse effects
- Abstract
Anthropogenic noise is considered one important global pollutant. The impact of noise on marine invertebrates has been less assessed. The present study evaluated the chronic effect of the motorboat noise obtained from a lagoon's soundscape, the natural habitat of the key crab Neohelice granulata, on its whole embryonic development, considering morphological and physiological carryover effects on embryos and hatched larvae. Results demonstrated that embryonic development was shortened under noise exposure. The effects on advanced embryos, larvae and adult females were: increased heartbeats and non-viable eggs, and decreased fecundity. Biochemical responses showed lipid peroxidation in embryos while antioxidant enzymes were activated in larvae and adults, indicating a counteracting effect related to the life stage. The negative effects on fitness offspring may imply ecological consequences at the population level. Results are discussed in terms of the ecosystem engineer species studied and the habitat, a MAB UNESCO Reserve lagoon, suggesting the urgent need to develop mitigation plans., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)
- Published
- 2024
- Full Text
- View/download PDF
3. Effect of biological and anthropogenic habitat sounds on oxidative stress biomarkers and behavior in a key crab species.
- Author
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Snitman SM, Mitton FM, Marina P, Maria C, Giuseppa B, Gavio MA, and Sal Moyano MP
- Subjects
- Animals, Biomarkers metabolism, Ecosystem, Fishes metabolism, Gills metabolism, Hepatopancreas metabolism, Humans, Oxidative Stress, Brachyura
- Abstract
Soundscapes are characterized by a combination of natural and anthropogenic sounds. This study evaluated the stress effect of biological and anthropogenic sounds characterizing a Man and Biosphere UNESCO wetland, by assessing the protein content, oxidative biomarkers, and behavior of a key crab species (Neohelice granulata), through a tank-laboratory experiment. Biological sounds corresponded to predators of N. granulata (fish and crustacean stimuli), while anthropogenic ones belonged to motorboat passages (boat stimulus). Biochemical results showed differences depending on the sound stimuli used and the crab tissue analyzed. Protein content was higher in hemolymph when crabs were exposed to fish and boat stimuli, and in gills when exposed to boat stimulus. The enzymatic activity in hemolymph showed a decreased GST (fish stimulus) and CAT (fish and boat stimuli) activity, in hepatopancreas a higher GST (crustacean stimulus) and CAT (crustacean and boat stimuli) activity was found, and in gills a higher CAT activity was also observed (crustacean and boat stimuli). Lipid peroxidation was higher only in hemolymph (fish and crustacean stimuli). Protein oxidation was higher in gills (fish stimulus) and hepatopancreas (crustacean stimulus). Behavioral analysis demonstrated that the crab locomotion activity diminished when exposed to diverse sound stimuli. Thus, both sound sources caused physiological and behavioral stress in this species. The results contribute important data to be used in the development of management plans considering the habitat importance in terms of biodiversity, the ecosystem services provided and the role of the studied species., (Copyright © 2022. Published by Elsevier Inc.)
- Published
- 2022
- Full Text
- View/download PDF
4. Sound production mechanism in the semiterrestrial crab Neohelice granulata (Brachyura, Varunidae).
- Author
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Sal Moyano MP, Ceraulo M, Mazzola S, Buscaino G, and Gavio MA
- Abstract
Very few studies of sound production in the Brachyura have simultaneously identified the type of individuals (e.g., sex) producing acoustic signals, the structures involved in making sound and the social context. The emission and type of sound signals in Neohelice granulata were previously characterized, but the sex and the body structures involved in the sound production mechanism were not determined. In the present study, experiments conducted in the laboratory demonstrated that acoustic signals were produced by males through an up-down movement of the cheliped by rubbing the merus against the pterygostomial area of the carapace. The micromorphology of the merus showed that it has a ridge of tubercles which may act as a plectrum, while the pterygostomial area bears tubercles and might function as the pars stridens. Acoustic signals were displayed more frequently in the presence of receptive females. Agonistic encounters among males also occurred more often in the presence of receptive females. The authors propose that Neohelice granulata males use their chelipeds to produce sound signals in a mating context, probably to attract the receptive female and/or to repel other males when a receptive female is present. Thus, the display might have a reproductive function influencing mate choice.
- Published
- 2019
- Full Text
- View/download PDF
5. Underwater acoustic communication during the mating behaviour of the semi-terrestrial crab Neohelice granulata.
- Author
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Filiciotto F, Sal Moyano MP, Hidalgo F, de Vincenzi G, Bazterrica MC, Ceraulo M, Corrias V, Quinci EM, Lorusso M, Mazzola S, Buscaino G, and Gavio MA
- Subjects
- Acoustics, Animals, Female, Male, Seawater, Animal Communication, Brachyura physiology, Sexual Behavior, Animal physiology
- Abstract
In semi-terrestrial crabs, the production of sounds has been recognized to be related to courtship communication dynamics. The present study aimed to assess if the crab Neohelice granulata (Varunidae) was able to emit acoustic signals and if they played a role in the crab's behaviour. We also assessed the locomotor behaviours to examine these parameters in different mating contexts of crabs. The study was divided into two different experimental conditions: 'solitary experiment' (consisting of three combination layouts with male, unreceptive and receptive females alone) and 'group experiment' (consisting of mixed combinations layouts of males, unreceptive, and receptive females). Synchronized acoustic and video monitoring systems were used to record the acoustic signals and locomotor behaviours of alone and grouped specimens. The greatest values of locomotor behavioural parameters were observed in layouts with receptive females alone and with 2 males plus 1 receptive female, probably related to courtship behaviour. N. granulata produced two distinct signals, a multi-pulse rasp signal (highest numbers were recorded in layouts with male alone and with 2 males plus 1 receptive female) and a single rasp signal. These results may suggest that males use the multi-rasp signal to advertise their presence to other males or to attract receptive females.
- Published
- 2019
- Full Text
- View/download PDF
6. Are semi-terrestrial crabs threatened by human noise? Assessment of behavioural and biochemical responses of Neohelice granulata (Brachyura, Varunidae) in tank.
- Author
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Filiciotto F, Sal Moyano MP, de Vincenzi G, Hidalgo F, Sciacca V, Bazterrica MC, Corrias V, Lorusso M, Mazzola S, Buscaino G, and Gavio MA
- Subjects
- Acoustics, Animals, Behavior, Animal, Hemocytes chemistry, Hemolymph chemistry, Human Activities, Humans, Locomotion, Brachyura chemistry, Brachyura physiology, Noise adverse effects
- Abstract
This study examined the effects of human lab-generated noise (sweep tone) on the behaviour and biochemistry of a semi-terrestrial crab (Neohelice granulata). The experiment was carried out in tanks equipped with video- and audio-recording systems on a total of seventy-eight specimens. In total, 42 experimental trials with sweep-tone exposure and control conditions were performed using crabs in single and group layouts. After a habituation period of 30 min, the locomotor and acoustic (sound signals emitted by the crabs) behaviours were monitored for 30 min. During this time, the animals in sweep-tone conditions were exposed to ascending sweeps in a bandwidth range of 2.5-25 kHz. Exposure to sweep-tone noise produced significant changes in the number of signals emitted, locomotor behaviours and plasma parameters, such as haemolymph total haemocyte count and glucose, lactate and total protein concentrations, revealing that human noise could represent a disturbance for this crustacean species., (Copyright © 2018 Elsevier Ltd. All rights reserved.)
- Published
- 2018
- Full Text
- View/download PDF
7. Hard-shell mating in Neohelice granulata: the role of ecdysone in female receptivity and mate attraction.
- Author
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Sal Moyano MP, Luppi T, Medesani DA, McLay CL, and Rodríguez EM
- Subjects
- Animals, Female, Male, Animal Shells physiology, Brachyura physiology, Ecdysone physiology, Molting physiology, Sexual Behavior, Animal physiology
- Abstract
Most brachyuran females become receptive during the intermolt period, a condition considered "derived". However, as far as we know, studies testing the existence and function of pheromones in decapods are based on species which have mating linked to molting, a condition considered as "ancestral". For the first time, we studied some physiological and morphological processes involved in Neohelice granulata intermolt female crabs becoming receptive and potentially attracting males. We found that receptive females have mobile vulvae opercula due to a softening process of the cuticle hinge which showed lower calcium levels compared to the hinge of unreceptive females. Local softening of the hinge was stimulated by a low concentration of ecdysone during the intermolt period. A putative pheromone liberated by receptive females to attract males is presumed to be released through the mobile vulvae and not through the urine.
- Published
- 2017
- Full Text
- View/download PDF
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