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Etnobiologia das famílias Centropomidae, Serranidae e Pomatomidae em Ponta Negra, Natal, Rio Grande do Norte / Ethnobiology of the families Centropomidae, Serranidae and Pomatomidae at Ponta Negra, Natal, Rio Grande do NorteMartinelli, Claudia de Miranda 16 August 2018 (has links)
Orientador: Alpina Begossi / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-16T01:45:12Z (GMT). No. of bitstreams: 1
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Previous issue date: 2010 / Resumo: A etnoecologia estuda o conhecimento ecológico local das comunidades humanas sobre os recursos naturais. Informações etnoecológicas analisadas e interpretadas com base na literatura ictiológica vêm contribuindo para a compreensão da ecologia dos recursos pesqueiros. Diversos estudos demonstram a importância do conhecimento tradicional, que torna mais eficiente a obtenção de informações detalhadas sobre as espécies-alvo das pescarias e sua utilização em práticas de manejo pesqueiro. Essas informações podem ser tanto utilizadas diretamente no manejo quanto como hipóteses de estudos. O objetivo desse trabalho é conhecer a etnoictiologia de Mycteroperca bonaci (sirigado), Epinephelus morio (garoupa), Cephalopholis fulva (piraúna), Pomatomus saltatrix (enchova), Centropomusundecimalis (robalo) que ocorrem na costa do Rio Grande do Norte (nordeste do Brasil), além de obter dados biológicos sobre robalo. As informações etnoictiológicas foram obtidas através de entrevistas estruturadas com 28 pescadores experientes e os dados biológicos foram obtidos através da análise das gônadas e do conteúdo estomacal de 90 indivíduos de robalo. As informações dos entrevistados sobre dieta do robalo (peixes e crustáceos), sirigado (peixes), piraúna (peixes) e enchova (peixes e crustáceos) foram concordantes com as informações científicas, já as respostas sobre a garoupa indicaram peixes, ao invés de crustáceos (como consta na literatura científica) como item alimentar mais importante da sua dieta. As informações sobre habitat do robalo (próximo à costa), do sirigado (águas profundas, dentro das pedras), da garoupa (fundos rochosos) e da piraúna (fundos rochosos)estão de acordo com a literatura científica. As respostas sobre migração e reprodução do robalo, do sirigado, da piraúna, da garoupa e da enchova foram as que mais discordaram
das informações científicas, sugerindo um conhecimento dos pescadores pouco detalhado sobre esses assuntos ou uma nova informação sobre a ecologia dessas espécies na região estudada que poderia ser utilizada como hipótese em estudos futuros. As informações dos pescadores semelhantes aos dados da literatura científica podem apoiar decisões de manejo por causa da sua plausibilidade e concordância com o conhecimento científico, considerando a urgência de se fazer um plano de manejo viável para as áreas costeiras no Brasil e as dificuldades logísticas e financeiras de se fazer pesquisas ecológicas, principalmente no ambiente marinho. Para um bom manejo pesqueiro é necessário utilizar conjuntamente as informações etnoecológicas e científicas sobre a reprodução, migração, habitat e dieta das espécies. Mesmo com as limitações de tempo e esforço amostral, o presente estudo contribuiu para aumentar o conhecimento biológico sobre o robalo, o sirigado, a garoupa, a piraúna e a enchova na região nordeste do Brasil / Abstract: Ethnoecological information analyzed and interpreted based on icthiological literature contribute to the understanding of fisheries resources. Several studies demonstrate the importance of local knowledge, which optimizes the gathering of information on the target species and its utilization in fishery management practices. This information can be used directly in management or as work hypothesis. The Objective of this study is to understand the ethnoecology of Mycteroperca bonaci (sirigado), Epinephelus morio (garoupa), Cephalopholis fulva (piraúna), Pomatomus saltatrix (enchova), Centropomus undecimalis (robalo) which occur at the coast of Rio Grande do Norte (Northeast of Brazil). In addition we also aim to gather biological data about the robalo. The ethnoictiological information was gathered through structured interviews with 28 fishermen and the biological data was gathered through analysis of gonads and stomach content of 90 robalo individuals. The information of the fishermen about diet of robalo (fish and crustaceans), sirigado (fish), piraúna (fish) and enchova (fish and crustaceans) agreed with the scientific information. The answers about the garoupa diet indicated fish, instead of crustaceans (as wrote in scientific literature), as a primary food item. The information about the habitat of robalo (next to the coast), sirigado (deep water, inside the rocks), garoupa ( rocky bottoms) and piraúna (rocky bottoms) agreed with the scientific information. The mostly of answersabout migration and spawning of robalo, sirigado, garoupa, piraúna e enchova disagreed with the information in scientific literature, what suggests that the fisher?s knowledge is less accurate about this issues or a new information about the ecology of these species can be use as hypothesis in future studies in the region. The fishermen information that agreed with the scientific information can support coastal management decisions because of its plausibility and agreement with the scientific knowledge, considering the urgency to make a coast management plan viable to Brazilian coastal areas and the logistic and financial difficulties to do marine ecological research / Mestrado / Ecologia / Mestre em Ecologia
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Shelf-scale Mapping of Fish Distribution Using Active and Passive AcousticsWall, Carrie Christy 01 January 2012 (has links)
Fish sound production has been associated with courtship and spawning behavior. Acoustic recordings of fish sounds can be used to identify distribution and behavior. Passive acoustic monitoring (PAM) can record large amounts of acoustic data in a specific area for days to years. These data can be collected in remote locations under potentially unsafe seas throughout a 24-hour period providing datasets unattainable using observer-based methods. However, the instruments must withstand the caustic ocean environment and be retrieved to obtain the recorded data. This can prove difficult due to the risk of PAMs being lost, stolen or damaged, especially in highly active areas. In addition, point-source sound recordings are only one aspect of fish biogeography. Passive acoustic platforms that produce low self-generated noise, have high retrieval rates, and are equipped with a suite of environmental sensors are needed to relate patterns in fish sound production to concurrently collected oceanographic conditions on large, synoptic scales. The association of sound with reproduction further invokes the need for such non-invasive, near-real time datasets that can be used to enhance current management methods limited by survey bias, inaccurate fisher reports, and extensive delays between fisheries data collection and population assessment.
Red grouper (Epinephelus morio) exhibit the distinctive behavior of digging holes and producing a unique sound during courtship. These behaviors can be used to identify red grouper distribution and potential spawning habitat over large spatial scales. The goal of this research was to provide a greater understanding of the temporal and spatial distribution of red grouper sound production and holes on the central West Florida Shelf (WFS) using active sonar and passive acoustic recorders. The technology demonstrated here establishes the necessary methods to map shelf-scale fish sound production. The results of this work could aid resource managers in determining critical spawning times and areas.
Over 403,000 acoustic recordings were made across an approximately 39,000 km2 area on the WFS during periods throughout 2008 to 2011 using stationary passive acoustic recorders and hydrophone-integrated gliders. A custom MySQL database with a portal to MATLAB was developed to catalogue and process the large acoustic dataset stored on a server. Analyses of these data determined the daily, seasonal and spatial patterns of red grouper as well as toadfish and several unconfirmed fish species termed: 100 Hz Pulsing, 6 kHz Sound, 300 Hz FM Harmonic, and 365 Hz Harmonic.
Red grouper sound production was correlated to sunrise and sunset, and was primarily recorded in water 15 to 93 m deep, with increased calling within known hard bottom areas and in Steamboat Lumps Marine Reserve. Analyses of high-resolution multibeam bathymetry collected in a portion of the reserve in 2006 and 2009 allowed detailed documentation and characterization of holes excavated by red grouper. Comparisons of the spatially overlapping datasets suggested holes are constructed and maintained over time, and provided evidence towards an increase in spawning habitat usage. High rates of sound production recorded from stationary recorders and a glider deployment were correlated to high hole density in Steamboat Lumps. This research demonstrates the utility of coupling passive acoustic data with high-resolution bathymetric data to verify the occupation of suspected male territory (holes) and to provide a more complete understanding of effective spawning habitat. Annual peaks in calling (July and August, and November and December) did not correspond to spawning peaks (March - May); however, passive acoustic monitoring was established as an effective tool to identify areas of potential spawning activity by recording the presence of red grouper.
Sounds produced by other species of fish were recorded in the passive acoustic dataset. The distribution of toadfish calls suggests two species (Opsanus beta and O. pardus) were recorded; the latter had not been previously described. The call characteristics and spatial distribution of the four unknown fish-related sounds can be used to help confirm the sources. Long-term PAM studies that provide systematic monitoring can be a valuable assessment tool for all soniferous species. Glider technology, due to a high rate of successful retrieval and low self-generated noise, was proven to be a reliable and relatively inexpensive method to collect fisheries acoustic data in the field. The implementation of regular deployments of hydrophone-integrated gliders and fixed location passive acoustic monitoring stations is suggested to enhance fisheries management.
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