4 results on '"Samoilys, M."'
Search Results
2. Complex transboundary movements of marine megafauna in the Western Indian Ocean.
- Author
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Barkley, A. N., Gollock, M., Samoilys, M., Llewellyn, F., Shivji, M., Wetherbee, B., and Hussey, N. E.
- Subjects
SATELLITE telemetry ,OCEAN ,MIGRATORY animals ,GLOBAL studies ,SHARKS ,ARTIFICIAL satellite tracking - Abstract
Transboundary marine species have an increased risk of overexploitation as management regimes and enforcement can vary among states. The complex geopolitical layout of exclusive economic zones (EEZs) in the Western Indian Ocean (WIO) introduces the potential for migratory species to cross multiple boundaries, consequently a lack of scientific data could complicate regional management. In the current study, we highlight both the relative lack of spatial data available in the WIO, and the prevalence of transboundary movements in species that have previously been studied in the region. Five tiger sharks Galeocerdo cuvier were tracked with near real‐time positioning (SPOT) satellite tags to determine individual shark movements relative to EEZs within the WIO. Concurrently, a literature search was performed to identify all satellite telemetry studies conducted to date in the WIO for marine megafaunal species, and the results compared to global satellite telemetry effort. Finally, the satellite tracks of all marine species monitored in the WIO were extracted and digitized to examine the scale of transboundary movements that occur in the region. Tiger sharks exhibited both coastal and oceanic movements, with one individual crossing a total of eight EEZs. Satellite telemetry effort in the WIO has not matched the global increase, with only 4.7% of global studies occurring in the region. Species in the WIO remained within the EEZ in which they were tagged in only three studies, while all other species demonstrated some level of transboundary movement. This study demonstrates the lack of spatial data available for informed regional management in an area where transboundary movements by marine megafauna are highly prevalent. Without more dedicated funding and research, the rich biodiversity of the WIO is at risk of overexploitation from the diverse threats present within the various political regions. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
3. Key climate change stressors of marine ecosystems along the path of the East African coastal current.
- Author
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Jacobs, Z.L., Yool, A., Jebri, F., Srokosz, M., van Gennip, S., Kelly, S.J., Roberts, M., Sauer, W., Queirós, A.M., Osuka, K.E., Samoilys, M., Becker, A.E., and Popova, E.
- Subjects
MARINE ecology ,CLIMATE change ,MARINE resources conservation ,MARINE resources ,MARINE ecosystem management ,COASTAL ecosystem health ,OCEAN currents ,ECOLOGICAL disturbances - Abstract
For the countries bordering the tropical Western Indian Ocean (TWIO), living marine resources are vital for food security. However, this region has largely escaped the attention of studies investigating potential impacts of future climate change on the marine environment. Understanding how marine ecosystems in coastal East Africa may respond to various climatic stressors is vital for the development of conservation and other ocean management policies that can help to adapt to climate change impacts on natural and associated human systems. Here, we use a high-resolution (1/4°) ocean model, run under a high emission scenario (RCP 8.5) until the end of the 21st century, to identify key regionally important climate change stressors over the East African Coastal Current (EACC) that flows along the coasts of Kenya and Tanzania. We also discuss these stressors in the context of projections from lower resolution CMIP5 models. Our results indicate that the main drivers of dynamics and the associated ecosystem response in the TWIO are different between the two monsoon seasons. Our high resolution model projects weakening of the Northeast monsoon (December–February) winds and slight strengthening of the Southeast monsoon (May–September) winds throughout the course of the 21st century, consistent with CMIP5 models. The projected shallower mixed layers and weaker upwelling during the Northeast Monsoon considerably reduce the availability of surface nutrients and primary production. Meanwhile, primary production during the Southeast monsoon is projected to be relatively stable until the end of the century. In parallel, a widespread warming of up to 5 °C is projected year-round with extreme events such as marine heatwaves becoming more intense and prolonged, with the first year-long event projected to occur as early as the 2030s. This extreme warming will have significant consequences for both marine ecosystems and the coastal populations dependent on these marine resources. These region-specific stressors highlight the importance of dynamic ocean features such as the upwelling systems associated with key ocean currents. This indicates the need to develop and implement a regional system that monitors the anomalous behaviour of such regionally important features. Additionally, this study draws attention to the importance of investment in decadal prediction methods, including high resolution modelling, that can provide information at time and space scales that are more directly relevant to regional management and policy making. [Display omitted] • Widespread warming of up to 5 °C projected in the Western Indian Ocean by 2100. • First year-long marine heatwaves projected as early as 2030 for the region. • Decline in Western Indian Ocean productivity projected by CMIP5 models. • Projected weakening of northeast monsoon winds leading to reduced productivity. • Projected reduction in connectivity and nutrient supply to the East African coast. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
4. Comparisons of abundance of coral reef fish: catch and effort surveys vs visual census.
- Author
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Leqata, J., Samoilys, M. A., Connell, S. D., and Lincoln Smith, M. P.
- Subjects
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FISHERY management , *SAMPLING (Process) , *ICHTHYOLOGY , *BIOMASS , *CORAL reefs & islands - Abstract
Catch per unit effort (CPUE) in fisheries science and visual counts in marine ecology are widely used to provide estimates of relative abundance. Concurrent use of these techniques therefore offers an opportunity for cross-validation. This study compares CPUE to underwater visual census (UVC) estimates of relative species abundance in a multispecies fishery: coral-reef fish in the Solomon Islands. Multivariateanalyses showed large differences between CPUE and UVC estimates of abundance. The families Acanthuridae and Scaridae tended to be the primary cause of differences between the techniques when the full assemblage of fish was analysed. However, the relationship between CPUE and UVC did not improve when these families were excluded from the dataset and the analyses repeated on families (Serranidae, Lutjanidae, Lethrinidae) caught by the predominant gear type, handlining. This result highlights the point that the choice and use of particular methods require careful consideration in conjunction with the nature of factors being investigated. Many problems of sampling are specific to particular methods and some investigations may benefit from a more pluralistic approach. [ABSTRACT FROM AUTHOR]
- Published
- 1998
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