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DocumentOther documentMovement behaviour of skipjack (Katsuwonus pelamis) and yellowfin (Thunnus albacares) tuna at anchored fish aggregating devices (FADs) in the Maldives investigated using acoustic telemetry 2013
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No results found.The pole and line tu fishery in the Maldives relies heavily on an array of 45 anchored fish aggregat- ing devices (FADs), making it one of the largest anchored FAD-based tu fisheries in the world. We examined the behaviour of skipjack (Katsuwonus pelamis) and yellowfin (Thunnus albacares) tu around anchored FADs (1 000 to 2 000 m deep) in the Maldives using passive acoustic telemetry. Eight neighbouring FADs (distance range: 30 to 95 km, average: 50 km) were equipped with automated acoustic rece ivers in January 2009, for a period of 13 months. A total of 40 skipjack (37−54 cm FL) and 21 yellowfin (35−53 cm FL) tu were tagged with Vemco V13 transmitters in January (start of the northeast monsoon, dry season) and November (end of the southwest monsoon, wet season) 2009 and released at the two central FADs within this instrumented array. No movement between FADs was observed for any acoustically-tagged tu in the instrumented FAD array. These results suggest that FADs in the Maldives may a ct inde- pendently. The maximum time a tagged skipjack remained associated with a FAD was 12.8 days in January but only one day in November. In addition, residence times at FADs were found to differ with time (month) and space (FAD location) for skipjack tu, suggesting that exterl biotic factors (e.g., prey, conspecifics or predators) might influence the time this species spends at FADs. In November, the residence times of yellowfin tu (maximum observed time: 2.8 days) were three times greater t han those of skipjack tu at the same FADs. This specific difference could be explained either by the two species responding to different factors or by the species’ responses being dependent on the same factor but with different thresholds. No particular preference for time of departure from the FADs was observed. Some monospe- cific and multispecific pairs of acoustically-tagged individuals were observed leaving the FADs simultaneously. Thus, this study indicates a high degree of complexity in t he behavioural processes driving FAD associations. -
MeetingMeeting documentAnalysis of Small-Scale Movements of Yellowfin Tuna Around Fish-Aggregating Devices (FADs) Using Sonic Tags. 1995
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Brochure, flyer, fact-sheetBrochureJoint Programme on Gender Transformative Approaches for Food Security and Nutrition
2022 in Review
2023Also available in:
No results found.The 'JP GTA - 2022 In Review' offers a snapshot of the milestones, achievements and activities of the Joint Programme over the course of the past year, with links to articles, publications and event recordings. The report is structured along the four pillars of the JP GTA, with sections focusing on knowledge generation, country-level activities, capacity development and learning, and policy support and institutional engagement. The page on 'knowledge generation' offers an overview of resources published or facilitated by the JP GTA in 2022. Under 'country-level activities' readers will find a summary of the key activities and achievements of the Joint Programme in Ecuador and Malawi. The section on 'capacity development and learning' delves into the JP GTA’s initiatives to share lessons from the Programme and build colleagues' and partners' knowledge and skills. The final pages on 'policy support and institutional engagement' highlight major global and corporate initiatives supported by the JP GTA. -
Book (series)GuidelineDéveloppement de l’aquaculture. 4. Une approche écosystémique de l’aquaculture. 2011Les dimensions sociales et biophysiques des écosystèmes sont inextricablement liées de telle manière qu’un changement dans une seule dimension est très susceptible de générer un changement dans une autre. Bien que le changement est une conséquence naturelle des interactions complexes, il doit être surveillé et même géré si le taux et la direction du changement risquent de compromettre la résilience du système. “Une approche écosystémique de l’aquaculture (AEA) est une stratégie pou r l’intégration de l’activité dans l’écosystème élargi de telle sorte qu’elle favorise le développement durable, l’équité et la résilience de l’interconnexion des systèmes socio-écologiques.” Etant une stratégie, l’approche écosystémique de l’aquaculture (AEA) n’est pas ce qu’on a fait, mais plutôt comment on l’a fait. La participation des parties intéressées est à la base de la stratégie. L’AEA exige un cadre politique approprié dans lequel la stratégie se développe en plusieurs é tapes: (i) la portée et la définition des limites des écosystèmes et l’identification de la partie intéressée; (ii) l’identification des problèmes principaux; (iii) la hiérarchisation des problèmes; (iv) la définition des objectifs opérationnels; (v) l’élaboration d’un plan de mise en oeuvre; (vi) le processus de mise en oeuvre correspondant qui comprend le renforcement, le suivi et l’évaluation, et (vii) un critique des politiques à long terme. Toutes ces étapes sont informées par les meilleures connaissances disponibles. La mise en oeuvre de l’AEA exigera le renforcement des institutions et des systèmes de gestion associés de sorte qu’une approche intégrée du développement de l’aquaculture peut être mise en oeuvre et compte entièrement des besoins et des impacts d’autres secteurs. La clé sera de développer des institutions capables d’intégration, notamment en fonction des objectifs et des normes convenus. L’adoption généralisée d’une AEA exigera un couplag e plus étroit de la science, la politique et la gestion. Elle exige aussi que les gouvernements incluent l’AEA dans leurs politiques de développement de l’aquaculture, stratégies et plans de développement.
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Book (stand-alone)General interest bookHarmonized World Soil Database version 2.0 2023
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No results found.The Harmonized World Soil Database version 2.0 (HWSD v2.0) is a unique global soil inventory providing information on the morphological, chemical and physical properties of soils at approximately 1 km resolution. Its main objective is to be useful for modelers and to serve as a basis for prospective studies on agroecological zoning, food security and the impacts of climate change. HWSD v2.0 also serves an educational function, illustrating the geographical distribution of soils as well as their properties globally. HWSD v2.0 is easily accessible and user-friendly.