24 research outputs found
Description of a New Sound Produced by Nassau Grouper at Spawning Aggregation Sites
This study identified a new sound produced by Nassau Grouper in association with, although potentially not exclusive to, an agonistic interaction at a spawning aggregation. We have also provided a behavioral and acoustic description for identification of this sound in future studies. The discovery of a third type of sound produced by Nassau Grouper further highlights the importance of acoustic communication coupled with visual displays in fishes. Furthermore, identification of a new sound increases the ability to document the presence of this endangered species at spawning sites. Future efforts may reveal that the sound is produced within additional behavioral contexts during and outside of spawning seasons, such as the defense of territories or food resources. Continued efforts to catalog the sounds and behaviors of species like Nassau Grouper will increase our ability to monitor and understand fish behaviors
Home range, space use, and vertical distribution of Nassau grouper (Epinephelus striatus) during non-spawning times in Western Puerto Rico
Understanding animal space use patterns is critical for ecological research and conservation efforts. An organism’s home range territory serves as the fundamental unit of space use and is the area repeatedly used for routine activities. Nassau grouper, Epinephelus striatus, once of high commercial fishery importance, are now on the IUCN’s Red List designated as Critically Endangered due to overexploitation. Known for the formation of large spawning aggregations, information on their movements and space use dynamics outside of the reproductive period are lacking. In this study, we used acoustic telemetry to quantify the non-spawning horizontal and vertical space use patterns of Nassau grouper at the Bajo de Sico seamount, a seasonally closed marine protected area (MPA) in Puerto Rico. Twenty-nine groupers were tagged with acoustic transmitters, of which, fourteen were tracked continuously over a three-year period. Tagged individuals displayed high site fidelity to home reef locations and individuals occupied home ranges of relatively small size that remained constant between years. There was a high degree of overlap of home range territories and in locations where multiple individuals occupied the same home reef, individuals maintained discrete vertical distributions. Nassau groupers were recorded making multiple forays to the spawning site outside of the reported spawning season, and two individuals underwent home reef site relocation. Results indicate relatively low contribution to ecological connectivity during the non-reproductive period, therefore high relative abundances of this species are needed to fulfill their ecological role at the community level. The results also highlight the importance of Bajo de Sico, an isolated seamount of relatively deeper depth, as critical habitat for primary home reef sites of Nassau grouper. These results provide a basis for adapting the current management strategy at this MPA to provide adequate protection to the non-spawning population of Nassau grouper
The Purr of the Lionfish: Sound and Behavioral Context of Wild Lionfish in the Greater Caribbean
Passive acoustic technology has become a useful and cost-effective method to collect data with very high temporal resolution that can be used to detect the presence, distribution, and remotely monitor soniferous marine biodiversity. In order to maximize the potential of bioacoustic and soundscape research in the oceans, understanding the association between the different realms of sound sources, species-specific calls and behavioral context of sound production are fundamental. A previously unknown vocalization was associated with a behavioral display of lionfish (Pterois spp.) by recordings with synchronous audio and video at deep coral reefs in both Puerto Rico and the Florida Keys. Calls of variable length in bouts of intermittent calls were heard along displays between pairs of lionfish. Calls had a mean frequency of 251 Hz and very low mean SPL (72-67 dB re 1ÎĽPa). This sound may be classified as courtship related as it was observed between two lionfish that appeared of dissimilar size (presumably male and female), engaged in following and circling displays. The sound occurred in the afternoons near sunset at both sites. This is the first reported sound produced by lionfish in association with a behavioral display in the wild. Low sound pressure levels suggest this is a quiet signal for communication between individuals in close proximity. With this description the presence of lionfish in areas deeper than normal diving limits or during inaccessible times, e.g., during the evening, could be pursued
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Population Structure and Phylogeography in Nassau Grouper (Epinephelus striatus), a Mass-Aggregating Marine Fish
To address patterns of genetic connectivity in a mass-aggregating marine fish, we analyzed genetic variation in mitochondrial DNA (mtDNA), microsatellites, and single nucleotide polymorphisms (SNPs) for Nassau grouper (Epinephelus striatus). We expected Nassau grouper to exhibit genetic differentiation among its subpopulations due to its reproductive behavior and retentive oceanographic conditions experienced across the Caribbean basin. All samples were genotyped for two mitochondrial markers and 9 microsatellite loci, and a subset of samples were genotyped for 4,234 SNPs. We found evidence of genetic differentiation in a Caribbean-wide study of this mass-aggregating marine fish using mtDNA (FST = 0.206, p<0.001), microsatellites (FST = 0.002, p = 0.004) and SNPs (FST = 0.002, p = 0.014), and identified three potential barriers to larval dispersal. Genetically isolated regions identified in our work mirror those seen for other invertebrate and fish species in the Caribbean basin. Oceanographic regimes in the Caribbean may largely explain patterns of genetic differentiation among Nassau grouper subpopulations. Regional patterns observed warrant standardization of fisheries management and conservation initiatives among countries within genetically isolated regions
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The current state of the biodiversity and ecosystems of the Caribbean is a complex predicament developed from the historical interactions of human populations. Resource and ecosystem conservation requires an understanding of the human and natural dimensions of the problems and a research and conservation strategy that unifies both experiences. We believe that the current emphasis on ecosystem-based fisheries management (EBFM) approaches—among the fisheries management community—present the greatest opportunity to achieve this. EBFM aims to protect the structure and quality of habitats, maintaining ecosystem integrity and function, with a precautionary approach, and recognizes “limits to production” and seeks to “control rates of extraction.” On a theoretical level, the EBFM must operate under the social-ecological system framework (“a coupled human-environment system”). Much is said about the need to incorporate the social sciences into EBFM strategies, and lip service is paid to the importance of the human dimension, but in reality, that is seldom achieved, if ever. Furthermore, there are no specific plans or models to approach this human dimension in principled, formal ways. This paper discusses the current use of EBFM in the Caribbean and presents a handful of recommendations to make it work.El estado actual de los ecosistemas caribeños se encuentra en una difĂcil situaciĂłn como resultado de las presiones de uso a travĂ©s de la historia. La conservaciĂłn de los recursos naturales requiere de la comprensiĂłn de las dimensiones naturales y humanas del problema, asĂ como el desarrollo de una estrategia de investigaciĂłn y conservaciĂłn que unifique ambas experiencias. El manejo de pesquerĂas basado en el ecosistema (EBFM, por sus siglas en inglĂ©s) presenta una gran oportunidad para lograr esto. El EBFM busca proteger la estructura y la calidad de los hábitats, manteniendo la integridad y funciĂłn del ecosistema, empleando un enfoque precautorio y reconociendo los lĂmites naturales y econĂłmicos del recurso pesquero. TeĂłricamente, el EBFM debe operar bajo el marco del sistema ecolĂłgico-social (“un sistema humano-ambiental acoplado”). Se ha hablado mucho sobre la necesidad de incorporar a las ciencias sociales en las estrategias del EBFM, pero han quedado como promesas incumplidas, ya que es difĂcil encontrar planes concretos que logren incorporar efectivamente la dimensiĂłn humana al manejo de las pesquerĂas. Este artĂculo discute el uso actual del EBFM en Puerto Rico y el Caribe, y presenta un puñado de recomendaciones puntuales para lograr su funcionamiento.L’état actuel de l’écosystème caribĂ©en se trouve dans une situation difficile Ă cause des pressions exercĂ©es par la population Ă travers leur histoire sur son utilisation. La conservation des ressources naturelles nĂ©cessite une comprĂ©hension des dimensions naturelles et humaines du problème, ainsi qu’une stratĂ©gie de recherche et de conservation rĂ©conciliant les deux expĂ©riences. La gestion de la pĂŞche basĂ©e sur l’écosystème (connue par son sigle anglais EBFM) offre une grande opportunitĂ© de grandes perspectives pour y arriver parvenir. L’EBFM cherche a vise Ă protĂ©ger la structure et la qualitĂ© de l’habitat, en prĂ©servant l’intĂ©gritĂ© et le fonctionnement de l’écosystème, en mettant l’emphase sur la prĂ©vention et utilise une approche prĂ©ventive, et en reconnaissant les limites naturelles et Ă©conomiques de la pĂŞche en termes d’exploitations piscicoles. ThĂ©oriquement, l’EBFM doit opĂ©rer dans le cadre du système socio-Ă©cologique (une liaison entre le système humain et l’environnement). En dĂ©pit de nombreuses discussions, presque rien n’a Ă©tĂ© fait dans une perspective d’équilibrer les stratĂ©gies de l’EFBM et les sciences sociales, car il est difficile de trouver des plans concrets permettant l’intĂ©gration des dimensions humaines dans la gestion de la pĂŞche. Cet article traite de l’utilisation actuelle de l’EBFM Ă Porto Rico ainsi que dans la CaraĂŻbe, et prĂ©sente une poignĂ©e de recommandations visant Ă favoriser son efficacitĂ©
Recovery when you are on your own: Slow population responses in an isolated marine reserve.
Geographic isolation is an important yet underappreciated factor affecting marine reserve performance. Isolation, in combination with other factors, may preclude recruit subsidies, thus slowing recovery when base populations are small and causing a mismatch between performance and stakeholder expectations. Mona Island is a small, oceanic island located within a partial biogeographic barrier-44 km from the Puerto Rico shelf. We investigated if Mona Island's no-take zone (MNTZ), the largest in the U.S. Caribbean, was successful in increasing mean size and density of a suite of snapper and grouper species 14 years after designation. The La Parguera Natural Reserve (LPNR) was chosen for evaluation of temporal trends at a fished location. Despite indications of fishing within the no-take area, a reserve effect at Mona Island was evidenced from increasing mean sizes and densities of some taxa and mean total density 36% greater relative to 2005. However, the largest predatory species remained rare at Mona, preventing meaningful analysis of population trends. In the LPNR, most commercial species (e.g., Lutjanus synagris, Lutjanus apodus, Lutjanus mahogoni) did not change significantly in biomass or abundance, but some (Ocyurus chrysurus, Lachnolaimus maximus), increased in abundance owing to strong recent recruitment. This study documents slow recovery in the MNTZ that is limited to smaller sized species, highlighting both the need for better compliance and the substantial recovery time required by commercially valuable, coral reef fishes in isolated marine reserves
First record of the megamouth shark, Megachasma pelagios, (family Megachasmidae) in the tropical western North Atlantic Ocean
Abstract Background A new record of Megachasma pelagios is here reported for the tropical western North Atlantic Ocean from Puerto Rico. Results On December 10, 2016, a tourist reported an unusual stranded shark on Mojacasabe Beach, Cabo Rojo, on the southwestern coast of Puerto Rico. Visual examination of the carcass and mitochondrial DNA analysis from a dorsal fin sample revealed it to be a 457Â cm female megamouth shark. Conclusion This record represents the first record of M. pelagios for the tropical western North Atlantic Ocean within the Caribbean Sea of southwest Puerto Rico and only the second record of M. pelagios from the North Atlantic
Population structure and phylogeography in Nassau grouper (Epinephelus striatus), a mass-aggregating marine fish.
To address patterns of genetic connectivity in a mass-aggregating marine fish, we analyzed genetic variation in mitochondrial DNA (mtDNA), microsatellites, and single nucleotide polymorphisms (SNPs) for Nassau grouper (Epinephelus striatus). We expected Nassau grouper to exhibit genetic differentiation among its subpopulations due to its reproductive behavior and retentive oceanographic conditions experienced across the Caribbean basin. All samples were genotyped for two mitochondrial markers and 9 microsatellite loci, and a subset of samples were genotyped for 4,234 SNPs. We found evidence of genetic differentiation in a Caribbean-wide study of this mass-aggregating marine fish using mtDNA (FST = 0.206, p<0.001), microsatellites (FST = 0.002, p = 0.004) and SNPs (FST = 0.002, p = 0.014), and identified three potential barriers to larval dispersal. Genetically isolated regions identified in our work mirror those seen for other invertebrate and fish species in the Caribbean basin. Oceanographic regimes in the Caribbean may largely explain patterns of genetic differentiation among Nassau grouper subpopulations. Regional patterns observed warrant standardization of fisheries management and conservation initiatives among countries within genetically isolated regions
Population Structure and Phylogeography in Nassau Grouper (<i>Epinephelus striatus</i>), a Mass-Aggregating Marine Fish
<div><p>To address patterns of genetic connectivity in a mass-aggregating marine fish, we analyzed genetic variation in mitochondrial DNA (mtDNA), microsatellites, and single nucleotide polymorphisms (SNPs) for Nassau grouper (<i>Epinephelus striatus</i>). We expected Nassau grouper to exhibit genetic differentiation among its subpopulations due to its reproductive behavior and retentive oceanographic conditions experienced across the Caribbean basin. All samples were genotyped for two mitochondrial markers and 9 microsatellite loci, and a subset of samples were genotyped for 4,234 SNPs. We found evidence of genetic differentiation in a Caribbean-wide study of this mass-aggregating marine fish using mtDNA (F<sub>ST</sub> = 0.206, <i>p</i><0.001), microsatellites (F<sub>ST</sub> = 0.002, <i>p</i> = 0.004) and SNPs (F<sub>ST</sub> = 0.002, <i>p</i> = 0.014), and identified three potential barriers to larval dispersal. Genetically isolated regions identified in our work mirror those seen for other invertebrate and fish species in the Caribbean basin. Oceanographic regimes in the Caribbean may largely explain patterns of genetic differentiation among Nassau grouper subpopulations. Regional patterns observed warrant standardization of fisheries management and conservation initiatives among countries within genetically isolated regions.</p></div