Resolving taxonomic uncertainty in vulnerable elasmobranchs : are the Madeira skate (Raja maderensis) and the thornback ray (Raja clavata) distinct species?

We are grateful to all those who helped with sample collection. This includes the MEDITS survey programme (IEO Mallorca) for Mediterranean samples. Portugal mainland samples were collected under the EU Data Collection Framework (DCF, PNAB). Azores specimens from the Department of Oceanography and Fisheries (DOP) of the University of the Azores (UAc) were collected under the project DEMERSAIS “Monitorização das espécies demersais dos Açores” financed by the Azorean government, and the project DEECON “Unravelling population connectivity for sustainable fisheries in the Deep Sea” project approved by the European Science Foundation (ESF) under the EUROCORES programme (proposal No 06-EuroDEEP-FP-008 & SFRH-EuroDEEP/0002/2007). This study was funded by the UK Natural Environment Research Council (NERC) Oceans 2025 Strategic Research Programme Theme 6 (Science for Sustainable Marine Resources). REB was supported by the Fisheries Society of the British Isles (FSBI), BSP was funded by the Fundação para a Ciência e a Tecnologia, SFRH/BPD/72351/2010 and JL was supported by The Alasdair Downes Marine Conservation Fund.

Response of Catch-Per-Unit-Effort to Spatial and Environmental Factors: an Exploratory Data Analysis Using Generalized Additive Models

Understanding spatial distributions and how environmental conditions influence catch-per-unit-effort (CPUE) is important for increased fishing efficiency and sustainable fisheries management. This study investigated the relationship between CPUE, spatial factors, temperature, and depth using generalized additive models. Combinations of factors, and not one single factor, were frequently included in the best model. Parameters which best described CPUE varied by geographic region. The amount of variance, or deviance, explained by the best models ranged from a low of 29% (halibut, Charlotte region) to a high of 94% (sablefish, Charlotte region). Depth, latitude, and longitude influenced most species in several regions. On the broad geographic scale, depth was associated with CPUE for every species, except dogfish. Latitude and longitude influenced most species, except halibut (Areas 4 A/D), sablefish, and cod. Temperature was important for describing distributions of halibut in Alaska, arrowtooth flounder in British Columbia, dogfish, Alaska skate, and Aleutian skate. The species-habitat relationships revealed in this study can be used to create improved fishing and management strategies.

Aplicación teórica del árbol de evaluación del Marine Stewardship Council, como herramienta de gestión de pesca sostenible, a la pesquería de la chirla, Chamelea gallina (Linnaeus, 1758), con draga hidráulica en el Golfo de Cádiz

La etiqueta azul del Marine Stewardship Council, pesca sostenible certificada, indica que un producto de pescado, fresco o transformado, procede de un recurso natural, salvaje, gestionado de manera respetuosa con el medio. Para obtenerla es necesario cumplir una serie de requisitos que son evaluados por una empresa certificadora (a la cual MSC ha dado el visto bueno y que es, a su vez, evaluada por otro organismo que asegura su completa imparcialidad). MSC presenta un modo de gestionar pesquerías que, según la propia organización, asegura la continuidad de la especie objetivo, de otras especies dependientes de ésta y del medio donde habitan. Sin embargo, obtener dicha eco-etiqueta azul es complejo y, sobre todo, económicamente difícil. El objetivo de este artículo es comprobar si el enfoque ecosistémico de este estándar ayudaría a paliar el impacto negativo de una pesquería que es fuente de riqueza, alimento y empleo perdurable en el Golfo de Cádiz. Es decir, aplicar los principios y criterios de MSC como herramienta de gestión de la pesquería de la chirla, Chamelea gallina (Linnaeus, 1758), con draga hidráulica.

A theory for optimal monitoring of marine reserves

Monitoring of marine reserves has traditionally focused on the task of rejecting the null hypothesis that marine reserves have no impact on the population and community structure of harvested populations. We consider the role of monitoring of marine reserves to gain information needed for management decisions. In particular we use a decision theoretic framework to answer the question: how long should we monitor the recovery of an over-fished stock to determine the fraction of that stock to reserve? This exposes a natural tension between the cost (in terms of time and money) of additional monitoring, and the benefit of more accurately parameterizing a population model for the stock, that in turn leads to a better decision about the optimal size for the reserve with respect to harvesting. We found that the optimal monitoring time frame is rarely more than 5 years. A higher economic discount rate decreased the optimal monitoring time frame, making the expected benefit of more certainty about parameters in the system negligible compared with the expected gain from earlier exploitation.

Efficiency, costs and trade-offs in marine reserve system design

With marine biodiversity conservation the primary goal for reserve planning initiatives, a site's conservation potential is typically evaluated on the basis of the biological and physical features it contains. By comparison, socio-economic information is seldom a formal consideration of the reserve system design problem and generally limited to an assessment of threats, vulnerability or compatibility with surrounding uses. This is perhaps surprising given broad recognition that the success of reserve establishment is highly dependent on widespread stakeholder and community support. Using information on the spatial distribution and intensity of commercial rock lobster catch in South Australia, we demonstrate the capacity of mathematical reserve selection procedures to integrate socio-economic and biophysical information for marine reserve system design. Analyses of trade-offs highlight the opportunities to design representative, efficient and practical marine reserve systems that minimise potential loss to commercial users. We found that the objective of minimising the areal extent of the reserve system was barely compromised by incorporating economic design constraints. With a small increase in area (< 3%) and boundary length (< 10%), the economic impact of marine reserves on the commercial rock lobster fishery was reduced by more than a third. We considered also how a reserve planner might prioritise conservation areas using information on a planning units selection frequency. We found that selection frequencies alone were not a reliable guide for the selection of marine reserve systems, but could be used with approaches such as summed irreplaceability to direct conservation effort for efficient marine reserve design.

O PAPEL DA CÂMARA TÉCNICA DE PESCA DO COMITÊ DE BACIA HIDROGRÁFICA LAGOS SÃO JOÃO NA GESTÃO DA PESCA ARTESANAL NA LAGOA DE ARARUAMA

Este trabalho apresenta um estudo de caso sobre o papel da Câmara Técnica de Pesca (CTP) do Consórcio Intermunicipal Lagos São João (CILSJ) na mediação de conflitos de gestão da pesca artesanal na região da Lagoa de Araruama (LA). A CTP é gerida pelas prioridades da Política Nacional de Recursos Hídricos (PNRH), preservacionista, em oposição a Política Nacional de Desenvolvimento Sustentável da Atividade Pesqueira (PNDSAP), com fins de exploração econômica. Na Bacia Hidrográfica Lagos São João, o CILSJ, prioriza as ações de conservação e manutenção dos corpos de água para o abastecimento, deixando em segundo plano a recuperação dos estuários em que lança o esgoto tratado e o não tratado, justamente os locais onde ocorre a pesca. O sujeito da pesquisa foi a representação dos pescadores, que são os presidentes das colônias. O levantamento de dados ocorreu por meio de entrevistas, observação direta, observação participante, documentos, filmes, fotografias, depoimentos, considerando também os atores da gestão pública da pesca local, estadual e federal. As entrevistas foram examinadas com base em análise textual. A abordagem da pesquisa é qualitativa. A pesca artesanal praticada na localidade é de pequena escala, se utiliza de embarcações miúdas, o trabalho ocorre em regime de companha e/ou familiar. O co-manejo é a metodologia de gestão dos recursos comuns mais utilizadas na atualidade na pesca artesanal. Os dados revelaram que o modelo de co-manejo da CTP não é o mais adequado para mediar os conflitos da pesca na localidade. Este estudo constatou que existe a união das colônias por meio da CTP, mas mesmo assim, o mecanismo CTP, não permite que maiores conquistas sejam alcançadas pelos pescadores, tendo em vista que o modelo de co-manejo é apenas consultivo, em que o poder público consulta, mas toma a decisão de forma autônoma sem compartilhar o poder de gestão, desse modo não há o empoderamento por parte dos pescadores. Assim, se faz urgente a substituição do sistema de co-manejo exercido pela CTP, por outro que possibilite maior participação dos pescadores e não só das suas representações; autonomia de gestão dos pescadores; possibilidade de financiamento além das atividades de preservação, mas também de desenvolvimento econômico da pesca. Outros modelos de co-gestão passíveis de substituir a CTP são a Reserva Extrativista (RESEX), a Reserva de Desenvolvimento Sustentável ou Fórum de Pesca tendo em vista serem esses os modelos de co-manejo mais bem sucedidos no país e inclusive em parte da região, a RESEX de Arraial do Cabo. A constatação desta pesquisa do papel exercido pela CTP no que tange o co-manejo na LA é compatível com as deficiências dos modelos de co-manejo da pesca no Brasil, com menor empoderamento dos pescadores diante do poder público e da própria submissão da gestão pública da pesca diante da gestão pública do ambiente. Apesar de haver certa produção acadêmica sobre a pesca, a literatura sobre a gestão da pesca na localidade da LA é escassa, o que dificulta o desenvolvimento da sustentabilidade pesqueira e da aplicação de qualquer plano de manejo e indica a urgência do desenvolvimento de maiores investigações, no que este trabalho procura oferecer alguma contribuição.

Adverse consequences of stock recovery : European hake, a new “choke” species under a discard ban?

Date of Acceptance: 28/01/2014 Funded by Seventh Framework Programme as part of the European research project EcoFishMan. Grant Number: FP7-265401 The Marine Alliance for Science and Technology for Scotland Scottish Funding Council. Grant Number: HR09011

Adverse consequences of stock recovery : European hake, a new “choke” species under a discard ban?

Date of Acceptance: 28/01/2014 Funded by Seventh Framework Programme as part of the European research project EcoFishMan. Grant Number: FP7-265401 The Marine Alliance for Science and Technology for Scotland Scottish Funding Council. Grant Number: HR09011

Exploring the applicability of biological and socioeconomic tools in developing EAFM plans for data absent areas : Spinner dolphin EAFM for Kalpitiya, Sri Lanka

Acknowledgements University of Aberdeen, UK and Bay of Bengal Large Marine Ecosystems (BOBLME) project are acknowledged for partial funding of this research.

Biological Impacts and Uses of Black Bass Competitive Fishing Tournaments on Large Lake Systems

Recreational fisheries in North America are valued between $47.3 billion and $56.8 billion. Fisheries managers must make strategic decisions based on sound science and knowledge of population ecology, to effectively conserve populations. Competitive fishing, in the form of tournaments, has become an important part of recreational fisheries, and is common on large waterbodies including the Great Lakes. Black Bass, Micropterus spp., are top predators and among the most sought after species in competitive catch-and-release tournaments. This study investigated catch-and-release tournaments as an assessment tool through mark-recapture for Largemouth Bass (>305mm) populations in the Tri Lakes, and Bay of Quinte, part of the eastern basin of Lake Ontario. The population in the Tri Lakes (1999-2002) was estimated to be stable between 21,928-29,780, and the population in the Bay of Quinte (2012-2015) was estimated to be between 31,825-54,029 fish. Survival in the Tri Lakes varied throughout the study period, from 31%-54%; while survival in the Bay of Quinte remained stable at 63%. Differences in survival may be due to differences in fishing pressure, as 34-46% of the Largemouth Bass population on the Tri Lakes is harvested annually and only 19% of catch was attributed to tournament angling. Many biological issues still surround catch-and-release tournaments, particularly concerning displacement from initial capture sites. In the past, the majority of studies have focused on small inland lakes and coastal areas, displacing bass relatively short distances. My study displaced Largemouth and Smallmouth Bass up to 100km, and found very low rates of return; only 1 of 18 Largemouth Bass returned 15 km and 1 of 18 Smallmouth Bass returned 135 km. Both species remained near the release sites for an average of approximately 2 weeks prior to dispersing. Tournament organizers should consider the use of satellite release locations to facilitate dispersal and prevent stockpiling at the release site. Catch-and-release tournaments proved to be a valuable tool in assessing population variables and the effects of long distance displacement through the use of mark recapture and acoustic telemetry on large lake systems.

The Southern Ocean and South Pacific Region

The Region comprises three sub-regions (FAO Statistical Areas) with very different characteristics. The South Pacific includes the vast and virtually unpopulated Southern Ocean surrounding the Antarctic. It has the world’s largest fisheries off Peru and Chile and some of the world’s best managed fisheries in Australia and New Zealand. The Region has over 27% of the world’s ocean area and over 98% of the Region’s total area of 91 million km2 is ‘open ocean’. The Region contains less than 5% of the global continental shelf area and only a fraction of this area is covered by three large marine ecosystems (the New Zealand Shelf, the Humboldt Current and the Antarctic large marine ecosystems (LMEs). The Humboldt Current System (HCS) is the world’s largest upwelling which provides nutrients for the world’s largest fisheries. The Region also has a high number of seamounts. The marine capture fisheries of the Region produce over 13 million tons annually and an expanding aquaculture industry produces over 1.5 million tons. Peru’s anchoveta fishery provides about half the world’s supply of fish meal and oil, key ingredients of animal and fish feeds. El Niño Southern Oscillations (ENSOs), known more generally as El Niños, can substantially change the species composition of the key small pelagic catches (anchovy, sardine, horse mackerel and jack mackerel) causing production to fluctuate from about 4-8 million tons. Partly due to the lack of upwelling and shelf areas, fisheries production in the Southern Ocean and Area 81 is relatively small but supports economically important commercial and recreational fisheries and aquaculture in New Zealand and in New South Wales (Australia). Krill remains a major underexploited resource, but is also a keystone species in the Antarctic food web. The Region is home to numerous endangered species of whales, seals and seabirds and has a high number of seamounts, vulnerable ecosystems fished for high-value species such as orange roughy.

The Southern Ocean and South Pacific Region

The Region comprises three sub-regions (FAO Statistical Areas) with very different characteristics. The South Pacific includes the vast and virtually unpopulated Southern Ocean surrounding the Antarctic. It has the world’s largest fisheries off Peru and Chile and some of the world’s best managed fisheries in Australia and New Zealand. The Region has over 27% of the world’s ocean area and over 98% of the Region’s total area of 91 million km2 is ‘open ocean’. The Region contains less than 5% of the global continental shelf area and only a fraction of this area is covered by three large marine ecosystems (the New Zealand Shelf, the Humboldt Current and the Antarctic large marine ecosystems (LMEs). The Humboldt Current System (HCS) is the world’s largest upwelling which provides nutrients for the world’s largest fisheries. The Region also has a high number of seamounts. The marine capture fisheries of the Region produce over 13 million tons annually and an expanding aquaculture industry produces over 1.5 million tons. Peru’s anchoveta fishery provides about half the world’s supply of fish meal and oil, key ingredients of animal and fish feeds. El Niño Southern Oscillations (ENSOs), known more generally as El Niños, can substantially change the species composition of the key small pelagic catches (anchovy, sardine, horse mackerel and jack mackerel) causing production to fluctuate from about 4-8 million tons. Partly due to the lack of upwelling and shelf areas, fisheries production in the Southern Ocean and Area 81 is relatively small but supports economically important commercial and recreational fisheries and aquaculture in New Zealand and in New South Wales (Australia). Krill remains a major underexploited resource, but is also a keystone species in the Antarctic food web. The Region is home to numerous endangered species of whales, seals and seabirds and has a high number of seamounts, vulnerable ecosystems fished for high-value species such as orange roughy.