The role of physical oceanography on the distributions and foraging behaviours of marine mammals and seabirds in shelf-seas

Cox, Samantha Lucy

January 2016

Mid-latitude shelf-seas are highly productive regions that host a rich diversity of animals including large numbers of marine mammals and seabirds. These large vertebrate predators play a crucial role in the functioning of shelf-sea ecosystems. However, the combined effects of multiple anthropogenic stressors are driving unprecedented declines in many of their populations. Mitigating this depends upon effective conservation and integrated ecosystem based approaches to management, which require a comprehensive understanding of the habitat needs of marine predators. The foraging efficiencies of marine predators are closely tied to the availability of a number of oceanographic features. As such, these physical habitats represent critical locations within a species’ range whose preservation and protection should be of high priority. The collection of studies presented in this thesis aims to improve our understanding of the physical oceanographic processes that underlie the at-sea behaviours and distributions of marine mammals and seabirds in coastal and shelf-sea environments. A combination of at-sea boat surveying, animal-borne biologging, satellite remote-sensing, passive acoustics and numerical modelling was used to collect information on the distributions and foraging behaviours of a range of marine predators alongside the bio-physical characteristics of the oceanographic habitats they occupied. These data were then used to (1) examine the use of oceanographic habitats generated around tidal-mixing fronts and coastal topographic structures by a range of piscivorous species including bottlenose dolphins Tursiops truncatus, common dolphins Delphinus delphis, harbour porpoises Phocoena phocoena and northern gannets Morus bassanus, and (2) identify the physical processes underlying their creation. Original aspects of this work include the examination of the fine-scale bio-physical mechanisms that link marine predators to tidal-mixing fronts and coastal tidal-topographic structures. Main findings indicate that offshore habitats around tidal-mixing fronts are used by both common dolphins and northern gannets for foraging. Individuals associated with patches of increased sub-surface primary productivity, which were generated via a bi-weekly cycle of episodic turbulent mixing and stratification following an adjustment in the spatial position of a front with the spring-neap cycle. Moreover, around fronts, the dives of gannets were likely to be short and of a V-shaped strategy (with little active swim phase), which likely reflects an increase in the accessibility and catchability of their prey. In a coastal estuarine system, bottlenose dolphins were shown to associate with predictable downwelling features generated during flood tidal flows that were thought to act as a foraging aid. Together, these findings highlight the fundamental role physical oceanographic processes play in the structuring of marine ecosystems by providing vulnerable marine predators with prosperous and reliable foraging resources that they can exploit. This work has implications for both future studies of marine predator foraging ecology and the management of anthropogenic activities in coastal and shelf-seas.

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Utilisation des prédateurs supérieurs pour déterminer les zones d'importance pour la biodiversité : comparaison de différentes méthodes de mise en évidence de "hotspots" / Use of top predators to determine important areas for biodiversity : comparison of different methods to highlight "hotspots"

Thiers, Laurie

13 October 2014

Les nombreuses menaces qui pèsent sur le milieu marin et les preuves d’une perte de biodiversité globale au cours des dernières décennies ont rendu indispensable la mise en place de mesures de conservation dans les années à venir. Au sein des Terres Australes et Antarctiques Françaises (TAAFs) en particulier, qui offrent une biodiversité exceptionnelle et sont le cadre d’activités anthropiques intensives à travers les grandes pêcheries industrielles, la délimitation d’Aires Marines Protégées (AMP) serait extrêmement bénéfique pour la conservation du milieu. Pour définir les zones d’importance pour la biodiversité, qui représenteraient de bonnes candidates pour un statut d’AMP, l’utilisation des données de distribution de prédateurs supérieurs apparait idéale. En effet, leur position dans le réseau trophique en fait de bons intégrateurs des niveaux inférieurs, et de plus, ils sont facilement observables lors des campagnes d’observations et offrent des facilités pour l’équipement de dispositifs télémétriques puisqu’ils reviennent régulièrement à terre pendant la période de reproduction. Grâce à l’analyse spatiale des données de distribution obtenues pour un grand nombre de prédateurs supérieurs au sein d’écosystèmes subantarctiques aussi bien qu’en milieu tropical et grâce au développement de modèles d’habitat, nous avons ici déterminé des ‘hotspots’ de biodiversité pour les prédateurs supérieurs des TAAFs. Ces travaux pourraient ainsi servir de base aux propositions de limites pour de potentielles futures AMPs. / The numerous threats that marine environment face, coupled with the evidence for a global biodiversity loss during last decades have lead to an increasing need for setting up conservation measures. Particularly, delimiting Marine Protected Areas (MPAs) within the French Southern Territories, which are home to an exceptional biodiversity and extensive human activities through industrial fisheries, would be extremely beneficial for species conservation. In order to identify areas of ecological significance for biodiversity, which could be good MPA candidates, the use of distribution data from top marine predators seems to be ideal. Thanks to their high position in trophic network, they are likely to integrate lowers trophic level species distribution. Moreover, they are easy to observe trough at-sea observation campaigns, and easy to equip with telemetric devices thank to their central place foraging that lead them to return regularly to their colony during breeding season. Here, we analyse distribution data and develop habitat models from several top predators species in both subantarctic and tropical regions to highlight biodiversity hotspots within the French Southern Territories. This work could thus be use as a basis to define potential boundaries for a future MPA.

‘hotspot’ de biodiversité

Prédateurs marins supérieurs

Télémétrie

Observations en mer

Modèles d’habitat

Analyse spatiale

Conservation

Pêcheries

Biodiversity hotspot

French Southern Territories

Marine top predators

Telemetry

At-sea observations

Habitat modelling

Spatial analysis

Conservation

Fisheries