Multi-Scale Patch Dynamics of Coral Communities: A Cross-Caribbean Investigation Using a Landscape Ecology Approach

Huntington, Brittany

12 October 2011

The overarching objective of this dissertation was to improve our knowledge of the relationship between seascape heterogeneity and diversity of stony coral assemblages across spatial scales. Coral communities on patch reefs in three regions of the Caribbean were used as a model system to investigating this relationship because patch reef heterogeneity could be readily quantified within the seascape using remote sensing and image analysis techniques. I began with a theoretical approach, exploring the origins of observed species diversity among coral communities at increasing spatial scales. Hierarchical sampling and null models revealed that coral diversity was governed by non-random processes at local- (10s of meters) and meso- (100s of m) scales. Spatial autocorrelation and reef heterogeneity were then investigated as potential mechanistic drivers of these non-random diversity patterns. I found limited support for spatial drivers. However, beta diversity was significantly correlated to metrics of reef heterogeneity (measured as reef size, spatial configuration, and complexity), indicating that differences in reef heterogeneity were making a disproportionate contribution to the overall coral community diversity. The relationship between corals and reef heterogeneity was found to be both scale-dependent and region dependent. This theoretical approach was followed by a manipulative approach using an existing artificial patch reef array to experimentally test the influence of reef spatial configuration and topographical complexity on local diversity. Corals were most sensitive to reef size and secondarily reef configuration within the seascape. Unlike reef fishes, reef complexity did not emerge as a strong predictor of the coral community composition in either the observational data or the experimental manipulation. These observational and experimental explorations of the relationship between corals and habitat reveal that intra-habitat variability (i.e. differences between patch reefs) can influence the diversity and abundance of corals. I then focused on applying this improved theoretical understanding towards improving coral management efforts. I present a new methodology to assess the efficacy of marine reserve effects by controlling for natural seascape variation within and beyond the reserve boundary, and I quantified the bias of underestimating coral diversity by using conventional reef monitoring protocols that ignore differences in reef size. In conclusion, I demonstrate empirically that seascape attributes of reef heterogeneity can contribute to coral diversity at relatively small spatial scales (<1km) and can affect corals with different life history traits in different ways. Hence, management and conservation efforts must consider the role of these meso-scale spatial metrics to influence the structure of the coral assemblage at the local scale.

seascape heterogeneity

diversity

island biogeography

species area relationship

marine reserves

Seagrass meadows as seascape nurseries for rockfish (Sebastes spp.)

Olson, Angeleen

24 April 2017

Nearshore marine habitats provide critical nursery grounds for juvenile fishes, but their functional role requires the consideration of the impacts of spatial connectivity. This thesis examines nursery function in seagrass habitats through a marine landscape (“seascape”) lens, focusing on the spatial interactions between habitats, and their effects on population and trophic dynamics associated with nursery function to rockfish (Sebastes spp.). In the temperate Pacific Ocean, rockfish depend on nearshore habitats after an open-ocean, pelagic larval period. I investigate the role of two important spatial attributes, habitat adjacency and complexity, on rockfish recruitment to seagrass meadows, and the provision of subsidies to rockfish food webs. To test for these effects, underwater visual surveys and collections of young-of-the-year (YOY) Copper Rockfish recruitment (summer 2015) were compared across adjacent seagrass, kelp forest, and sand habitats within a nearshore seascape on the Central Coast of British Columbia. Recruitment was positively influenced by the structural complexity of seagrass and adjacency to kelp forest sites, however a negative interaction between seagrass complexity and kelp forest adjacency suggests that predation modifies Copper Rockfish recruitment densities. In addition, using δ13C and δ15N isotopes to determine the basal contributions to seagrass food webs, kelp-derived nutrients were on average 47% ± 0.4 of YOY Copper Rockfish diets, which was 3x and 67x greater than the contribution of autochthonous seagrass production (seagrass epiphyte and seagrass blades, respectively). YOY Copper Rockfish diets in seagrass adjacent to sand habitats had the greatest amounts of kelp-derived nutrients and harpacticoid copepods, and concurrently had lower body condition compared to rockfish in the seagrass kelp edges and interior, feeding predominantly on seagrass epiphytes and calanoid copepods. This thesis provides further evidence that temperate seagrasses are nurseries for rockfish and that spatial elements of seascapes, including connectivity via habitat adjacency and variability in habitat structure, alter the recruitment and diets of rockfish in seagrass habitats. These seascape nursery effects are important considerations for marine planning, especially given the global decline of nearshore habitats. / Graduate

seagrass

nursery

rockfish

food web

seascape

stable isotope

recruitment

connectivity

Sea cages, seaweeds and seascapes : Causes and consequences of spatial links between aquaculture and ecosystems

Hedberg, Nils

January 2017

Aquaculture is of growing importance in the global seafood production. The environmental impact of aquaculture will largely depend on the type of environment in which the aquaculture system is placed. Sometimes, due to the abiotic or biotic conditions of the seascape, certain aquaculture systems tend to be placed within or near specific ecosystems, a phenomenon that in this thesis is referred to as aquaculture system - ecosystem links. The exposed ecosystems can be more or less sensitive to the system specific impacts. Some links are known to be widespread and especially hazardous for the subjected ecosystem such as the one between the shrimp aquaculture and the mangrove forest ecosystem. The aim of this thesis was to identify and investigate causes and consequences of other spatial links between aquaculture and ecosystems in the tropical seascape. Two different aquaculture system - ecosystem links were identified by using high resolution satellite maps and coastal habitat maps; the link between sea cage aquaculture and coral reefs, and the one between seaweed farms and seagrass beds. This was followed by interviews with the sea cage- and seaweed farmers to find the drivers behind the farm site selection. Many seaweed farmers actively choose to establish their farms on sea grass beds but sea cage farmers did not consider coral reefs when choosing location for their farms. The investigated environmental consequences of the spatial link between sea cage aquaculture and coral reefs were considerable both on the local coral reef structure, and coral associated bacterial community. Furthermore, coral reef associated fish are used as seedlings and feed on the farms, which likely alter the coral food web and lower the ecosystem resilience. Unregulated use of last resort antibiotics in both fish- and lobster farms were also found to be a wide spread practice within the sea cage aquaculture system, suggesting a high risk for development of antibiotic resistant bacteria. The effects of seaweed farms on seagrass beds were not studied in this thesis but have earlier been shown to be rather substantial within the borders of the farm but less so outside the farm. Further, a nomenclature is presented to facilitate the discussion about production system - ecosystem links, which may also be used to be able to incorporate the landscape level within eco-certifying schemes or environmental risk assessments. Finally - increased awareness of the mechanisms that link specific aquaculture to specific habitats, would improve management practices and increase sustainability of an important and still growing food producing sector - the marine aquaculture. / <p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 2: Manuscript. Paper 3: Manuscript. Paper 4: Manuscript.</p>

Spatial links

Aquaculture

Coral Reefs

Seagrass

Seascape

Fish and Aquacultural Science

Fisk- och akvakulturforskning

The Good, The Bad and The Seascape : Possible Effects of Climate Change in Tropical People and Ecosystems in the Western Indian Ocean Using a Gender Perspective

Forselius, Ellen

January 2013

The tropical seascape is herein defined as a landscape made up of five ecosystems: coastal terrestrial forests, mangrove forests, seagrass beds, coral reefs and the deep sea. Previous studies have shown that men and women use the tropical seascape in different ways. If the seascape was to change as a result of anthropogenic climate change, then men and women could potentially be affected differently by those changes. The seascape is particularly vulnerable to the predicted rise in sea-level and ocean warming, but the coastal terrestrial forests and mangrove forests are in addition vulnerable to the increased storms and hurricanes a warmer climate is predicted to lead to. While men and women utilizes these ecosystems in many different ways, this study found, based on the literature reviewed, that in a worst-case scenario all parts of the seascape could potentially be destroyed and none of the activities performed there today could be performed in the future. The deep sea would not be destroyed, but the fish living there would move to higher latitudes and deeper waters, effectively ending the fishing practices in the tropical waters. To save the tropical seascape anthropogenic climate change would have to stop on a global scale, since the problem cannot be solved on a local or regional level.

climate change

tropics

tropical seascape

seagrass beds

coral reefs

mangrove forests

vulnerability

Blue Meridian: The Portraiture of Landscape

Ebanks, Davin K.

03 May 2010

No description available.

Fine Arts

Geography

glass sculpture

kiln casting

geographic sculpture

landscape sculpture

seascape

water sculpture

Cayman Islands

Coral Reef Habitats and Fish Connectivity : Implications for coastal management and fishery

Jörgensen, Tove Lund

January 2016

Coral reefs have one of the highest levels of biodiversity of all ecosystems in the world and are important for both human livelihood and food security throughout many tropical countries. However, due to increased anthropogenic pressure on marine ecosystems, especially during the last couple of decades, coral reefs have become critically over-fished, and many reefs are now in a degraded state and are facing additional future threats due to further over-exploitation, chemical pollution, sedimentation, and effects of climate change. The main aim of this PhD thesis was to understand effects of anthropogenic disturbances on tropical coastal ecosystems and fish connectivity for coastal management purposes. Therefore, linkages between anthropogenic disturbance and corals were investigated (Paper I), as well as interactions between coral reef habitat and associated fish assemblage (Paper II). Furthermore, connectivity between coral reefs and other tropical coastal ecosystems was explored (Paper III), as well as fish migration to reproduction sites (Paper IV), and evaluations of spatial ecology methods (Paper V). The result showed that coral reefs that are already exposed to disturbances, such as freshwater and nutrient run-offs, may be more sensitive to climate change, in terms of increased sea surface temperatures (Paper I). In addition, there were also clear linkages between coral reef quality, in terms of coral coverage, and fish assemblages, which displayed high spatial variability and suggesting patchy recovery after the 1997/1998 bleaching and subsequent coral mass mortality event (Paper II). This highlights the importance of understanding effects of disturbances on corals, especially in terms of synergistic effects between increased water temperatures and other coastal stressors such as decreased salinity and increased nutrients; and the indirect effects of habitat degradation on the fish community. Linkages between fish and different coastal habitats were further explored. The results showed that coral reefs were strongly connected with mangrove and seagrass beds, through ontogenetic migration of fish (Paper III). Migrations to spawning sites of groupers were related to lunar activities when thousands of fish gather for reproduction purposes during new moon, which increases the risk of over-exploitation (Paper IV). The results emphasises the importance of protecting key areas such as nursing grounds and reproduction sites. Furthermore, acoustic telemetry has become an increasingly common method in studies of fish movement, and the results showed that efficiency of acoustic arrays may increase depending on deployment strategies and habitat characteristics (Paper V). In conclusion, the results from this PhD thesis emphasises the importance of protecting coral reef habitats, as well as identifying related susceptible tropical coastal areas, such as nursing grounds and reproduction sites. Indeed, a better scientific understanding of coral reef ecology and indirect and direct effects on fish assemblages are needed for efficient and accurate coastal management decisions. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 5: Manuscript.</p>

anthropogenic disturbance

coral reef habitat

fish community

coastal ecosystems

conservation management

spatial ecology

seascape perspective

holistic approach

Apports de l’analyse de l’ADN environnemental et de la génomique du paysage pour la conservation des requins de récif / Contribution of environmental DNA analysis and seascape genomics to reef sharks conservation

Boussarie, Germain

12 April 2019

Les requins forment un des groupes de prédateurs les plus diversifiés, jouant des rôles importants au sein des écosystèmes marins. Ils forment également l’un des groupes les plus menacés car vulnérables aux pressions anthropiques du fait de leurs traits de vie particuliers. Malgré l’importance des ressources déployées pour le suivi des populations de requins, 41% des 482 espèces recensées dans la Liste Rouge de l’UICN n’ont pas de statut de conservation par manque de données. Il devient donc primordial d’améliorer les connaissances sur ces espèces afin de les protéger et enrayer leur déclin. Il s’agit notamment de mieux caractériser la présence, la structure et la connectivité des populations de requins pour mieux définir leur statut UICN, les zones prioritaires de gestion et optimiser les efforts de conservation mis en place. Cette thèse s’appuie sur l’émergence de nouvelles technologies pour combler les lacunes de connaissances sur les requins des récifs coralliens tropicaux et proposer des actions de gestion. D’une part, une méthode d’analyse des communautés de requins par collecte et séquençage d’ADN présent dans l’environnement (métabarcoding d’ADN environnemental ; ADNe) a été développée au cours de cette thèse, puis mise en parallèle avec des suivis exhaustifs par des méthodes traditionnelles d’étude des populations de requins. Cette approche rapide et non-invasive a permis d’identifier 21 espèces de requins dans les eaux de deux domaines biogéographiques distincts (Caraïbes et Nouvelle-Calédonie). De plus, les patrons de diversité et d’abondance des fragments d’ADNe détectés coïncident avec les gradients de pression anthropique et les niveaux de protection des zones échantillonnées. L’analyse de 22 échantillons d’ADNe dans l’archipel de la Nouvelle-Calédonie a permis de déceler la présence de plus d’espèces que par 2 758 plongées scientifiques réparties sur presque 30 ans et 385 caméras appâtées déployées pendant deux ans, et ce, à la fois proche de l’homme et dans les récifs éloignés. D’autre part, la structure et connectivité des populations d’une espèce plus commune, Carcharhinus amblyrhynchos, ont été caractérisées par une approche de génomique du paysage. Cette thèse s’appuie sur un échantillonnage génétique conséquent en Nouvelle-Calédonie et dans plusieurs autres sites de l’Indo-Pacifique (515 requins). Une approche d’isolement par la résistance via la théorie des circuits a été développée afin de caractériser les paramètres influençant la dispersion de cette espèce. Ainsi, il a été montré que les zones de forte bathymétrie constituent une forte barrière à la dispersion tandis que la proximité à l’habitat récifal en est un facilitateur. La modélisation de la différenciation génétique à haute résolution et à l’échelle de l’aire de répartition de cette espèce (Indo-Pacifique) a permis de définir des unités de conservation hiérarchiques et un nombre important de sites isolés. Enfin, une approche intégrant le déclin des abondances dans les zones anthropisées a montré une fragmentation des populations de C. amblyrhynchos et a permis d’identifier certains récifs éloignés de l’homme comme refuges mais aussi sources pour un repeuplement éventuel des récifs où les populations sont menacées. Cette thèse démontre ainsi le potentiel de l’analyse de l’ADNe pour dévoiler la présence d’espèces rares et furtives telles que les requins, donnant espoir pour combler les lacunes dans leurs statuts de conservation UICN. Elle révèle également la persistance des populations résiduelles en milieu anthropisé, qui pourraient éventuellement montrer des altérations comportementales comme l’utilisation d’habitats plus profonds ou une nocturnalité plus importante. Elle décrit enfin non seulement la structure fine à grande échelle des populations d’une espèce quasi-menacée, mais identifie également des unités de conservation et des zones prioritaires à protéger pour une spatialisation des mesures de gestion à différentes échelles. / Sharks represent one of the most diverse groups of predators, playing important functional roles in coastal and oceanic ecosystems. They are also one of the most threatened groups because of their vulnerability to anthropogenic pressures due to their particular life history traits. Shark populations are therefore collapsing with drastic decrease in abundance in all marine ecosystems. Even relatively common species are near- threatened. Despite the deployment of important resources for shark population assessments, 41% of the 482 shark species on the International Union for Conservation of Nature (IUCN) Red List of Threatened Species lack a conservation status due to data deficiency. Improving our knowledge on such species is thus crucial for efficient protection to slow down their decline. More particularly, there is a necessity for a better characterization of presence, structure and connectivity of shark populations to define their conservation status, prioritize spatial management and optimize conservation efforts. This thesis relies on the emergence of new technologies to fill knowledge gaps on tropical coral reef sharks and to suggest conservation measures for better management. First, a method to survey shark communities has been developed during this thesis, based on the collection and sequencing of DNA present in the environment (environmental DNA metabarcoding; eDNA). Then, this method has been compared to exhaustive surveys of reef shark communities with traditional methods. This quick and non-invasive approach detected at least 21 shark species in waters of two distinct biogeographical areas (Caribbean and New Caledonia). Moreover, diversity and abundance patterns of DNA reads match with anthropogenic impact gradients and protected status of the sampled areas. The analysis of 22 eDNA samples detected more species in both remote reefs and impacted areas of the New Caledonian archipelago than 2758 scientific dives conducted during nearly 30 years and 385 baited remote underwater videos deployed over two years. Then, population structure and connectivity of a more common reef shark species, Carcharhinus amblyrhynchos, have been characterized using a seascape genomics approach. This thesis is based on a substantial genetic sampling in the archipelago of New Caledonia but also in several other sites in the Indo-Pacific (515 sharks in total). An isolation-by-resistance approach using circuit theory has been developed to explore what parameters are driving the genetic differentiation of C. amblyrhynchos. Here I show that deep oceanic areas act as strong barriers and proximity to habitat is a facilitator for dispersal. High-resolution modelling of genetic differentiation at the entire distribution range of the species (Indo-Pacific) led to the definition of hierarchical conservation units and a high number of isolated sites. Then, an approach taking into account the decline of abundance in impacted reefs showed an important fragmentation of shark populations and allowed the identification of remote reefs as refuges but also sources through dispersal towards impacted areas, insuring population persistence at a regional scale. This thesis demonstrates the potential of eDNA analysis for unveiling the presence of rare and elusive species such as sharks and for filling knowledge gaps in the conservation status of sharks. It also reveals the persistence of residual populations in impacted areas, that could show behavioral alterations like shifts in habitat use towards deeper waters or increased nocturnality. Finally, this thesis not only describes the population structure of a near-threatened species at high resolution and global scale, but also identifies conservation units and areas of high conservation priority that could help in the near future for the spatialization of marine management at multiple scales.

Requins

Génomique du paysage

ADN environnemental

Récifs coralliens

Ecologie

Conservation

Sharks

Seascape Genomics

Environmental DNA

Coral Reefs

Ecology

Conservation

Managing sea cucumber fisheries and aquaculture : Studies of social-ecological systems in the Western Indian Ocean

Eriksson, Hampus

January 2012

Collecting sea cucumbers to supply the high value Chinese dried seafood market is a livelihood activity available to many people in the Western Indian Ocean (WIO), making it an important part of local economies. These fisheries are generally not successfully managed and tropical sea cucumber fisheries show continuing signs of decline. This thesis takes a social-ecological systems approach to guide better management of sea cucumber fisheries and aquaculture in the WIO. Papers 1 and 2 analyse the fishery situation in Zanzibar and find that in the absence of effective management institutions and income alternatives among fishers, leading to dependence, there are unsustainable expanding processes. Paper 3 compares the unmanaged fishery in Zanzibar to the highly controlled situation in Mayotte. In Mayotte, a protection effect is evident and the commercial value of stocks is significantly higher than in Zanzibar. The analysis of the situation in Mayotte demonstrates the importance of matching the fishery – management temporal scales through prepared and adaptive management to avoid processes that reinforce unsustainable expansion. Paper 4 analyses sea cucumber community spatial distribution patterns at a coastal seascape-scale in Mayotte establishing baseline patterns of habitat utilization and abundance, which can be used as reference in management. Paper 5 reviews the potential for sea cucumber aquaculture in the WIO. The review illustrates that this activity, which is currently gaining momentum, does so based on inflated promises and with significant social-ecological risks. Emphasis for improvements is, in this thesis, placed on the importance of prepared and adaptive institutions to govern and control expanding processes of the fishery. These institutional features may be achieved by increasing the level of knowledge and participation in governance and by integration of sea cucumber resources management into higher-level policy initiatives. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 3: Manuscript.</p>

Sea cucumbers

Bêche-de-mer

Trepang

Echinoderms

Fisheries

Aquaculture

Governance

Trade

Seafood

Tropical seascape

Zanzibar

Mayotte

Western Indian Ocean

Variation génétique et persistance des populations en milieu marin : implications pour la conservation / Genetic variation and population persistence in marine systems : implications for conservation

Dalongeville, Alicia

22 September 2017

Les écosystèmes marins sont soumis à des changements environnementaux rapides sous l’impact des pressions anthropiques croissantes qui menacent la persistance des espèces et des populations locales. Comprendre les effets de la variabilité génétique et des capacités de dispersion sur la persistance des espèces marines, est donc un enjeu majeur pour la conservation de la biodiversité. Mes travaux de doctorat répondent ainsi à deux objectifs principaux : (i) évaluer la distribution spatiale et les déterminants de la variation génétique de populations de poissons marins côtiers (ii) estimer les réponses des populations aux changements climatiques afin de mieux comprendre leur capacité de persistance.J’ai d’abord montré, à partir d’une synthèse bibliographique réalisée sur 31 espèces de poissons méditerranéens, que les traits écologiques liés à la mobilité et à la taille des populations influencent fortement le niveau de diversité génétique intra-populationnelle des espèces. Ensuite, j’ai étudié les déterminants de la variation génétique spatiale à partir des données récoltées sur 727 individus de rouget de roche (Mullus surmuletus) issus de 72 sites autour la Mer Méditerranée et regroupés en 47 groupes génotypés pour 1153 marqueurs SNP. Des analyses de génétique du paysage ont montré que la dispersion larvaire structure la variation génétique de l’espèce à moyenne et petite échelle spatiale (<1 000km), alors que l’isolement géographique, possiblement dû à l’histoire démographique des populations ou à l’adaptation, est le principal facteur structurant à plus large échelle. Finalement, l’étude de la variation génétique adaptative de M. surmuletus réalisée à l’aide d’un criblage génomique a mis en évidence une potentielle réponse adaptative de l’espèce au gradient Est-Ouest de salinité en Méditerranée.Dans un second temps, un modèle démo-génétique simulant la dynamique et la résilience des populations de coraux dans l’Indopacifique a montré qu’un mécanisme de « sauvetage évolutif » permet aux génotypes adaptés aux eaux les plus chaudes de diffuser entre les populations grâce à la connectivité larvaire. Ce mécanisme favorise la persistance des populations en permettant leur adaptation à des changements environnementaux qui conduiraient sans cela à des déclins, voir des extinctions locales.Finalement, l’ensemble de ces travaux ont mis en évidence la nécessité de considérer la connectivité et le potentiel évolutif des espèces dans les stratégies de conservation, afin de maximiser leur capacité de résilience et de persistance à long terme en dépit des crises environnementales de plus en plus prononcées. / World marine ecosystems are experiencing unprecedented anthropic pressures inducing rapid environmental changes that threaten the persistence of wild species and their local populations. Hence, understanding the effects of genetic variability and dispersal capacities on marine population persistence is a key issue for the conservation of biodiversity. My PhD work had two main objectives: (i) evaluate the spatial distribution and drivers of genetic variation across coastal marine fish populations, and (ii) estimate the response of populations to climate changes in order to better understand their ability to persist.First, by performing a synthesis of published literature on 31 Mediterranean fish species, I showed that ecological traits related to mobility and population size strongly influence the level of within-population genetic diversity across species. Then, I studied the drivers of spatial genetic variation using genetic data from 727 individuals of the stripped red-mullet (Mullus surmuletus) collected in 72 sites around the Mediterranean Sea, and grouped into 47 pools genotyped for 1153 single nucleotide polymorphism (SNP) markers. Seascape genetic analyses showed that larval dispersal predominantly structures M. surmuletus genetic variation at intermediate and local spatial scales (<1000 km), whereas geographic isolation, due to population demographic history or adaptation, is the main driver at larger spatial scale. Lastly, studying the adaptive genetic variation of M. surmuletus using genome scan revealed a potential adaptive response of this species to the East-West gradient in salinity across the Mediterranean Sea.Subsequently, using a demo-genetic model to simulate coral population dynamics and resilience across the Indo-pacific corals, I showed that the process of ‘evolutionary rescue’ can help genotypes adapted to warm ocean waters to move and migrate between populations thanks to larval connectivity. Evolutionary rescue can thus promote the persistence of populations by allowing them to adapt to environmental changes that would otherwise lead to population declines or even local extinctions.Finally, all of these results highlighted the need to better consider connectivity and the evolutionary potential of species in conservation strategies, in order to maximize their resilience capacity and long-term persistence in the face of more severe environmental crises.

Ecologie marine

Génétique du paysage

Dynamique des populations

Connectivité

Changements climatiques

Adaptation

Marine ecology

Seascape genetics

Population dynamics

Connectivity

Climate changes

Adaptation

Territorialisation des espaces océaniques hauturiers. L'apport de la navigation à voile dans l'Océan Atlantique / Territorialization of the high seas : the contribution of sailing in the Atlantic Ocean

Parrain, Camille

01 July 2010

Espace mythique et peuplé de légendes, espace physique complexe changeant, l’océan est soumis aux enjeux géopolitiques et à une extension progressive de l’homme à la manière d’un front pionnier (en surface et en profondeur). La territorialisation croissante des espaces maritimes, déjà prouvée sur les mers côtières, prend un angle particulier sur le domaine hauturier du fait de son immensité et de son éphémérité. Pour analyser ce processus, nous nous sommes intéressés à la navigation à voile, pratique de loisir et professionnelle, dans l’océan Atlantique. Cette pratique offre une vision intéressante du fait de la relation particulière entretenue entre l’homme, le voilier et l’océan et de la dualité entre tradition et technologie. La fin du XXème et le XXIème siècle constituent une époque charnière où les regards sur l’océan risquent d’être modifiés. Elle s’inscrit de plus dans le phénomène de mobilité croissante des sociétés, en quête ou non de rapidité, et démontre la réticularité croissante de cet espace, également liée à la mondialisation. Nous tâcherons de définir la notion de territoire en haute mer et de distinguer l’existence de « merritoires ». La connaissance des routes transatlantiques permet de dégager des centralités, périphéries et marges atlantiques. Elles constituent des réseaux territorialisés mettant en relation différents lieux où se révèle l’identité des navigateurs. Le long de ces trajets se greffent des paysages marins « itinérants », des repères, des discontinuités spatio-temporelles, des rites et représentations dégageant des disparités spatiales et une structuration de l’Océan Atlantique. / Mythical space filled with legends, complex changing physical space, the ocean is subject to geopolitical issues and a gradual extension of use by men pioneering both on the surface and the great depths. The increasing territorialisation of maritime areas, more and more common in coastal seas, takes a particular perspective on the offshore seas because of its vastness and its ephemerality. To analyze this regionalization process, we focus on sailing in the Atlantic Ocean, both a leisure and professional practice. This practice offers an interesting aspect due to the special relationship between human beings, their boat and the ocean and due to the duality between tradition and technology. The late twentieth and the twenty-first century is a turning point where the way we look at the ocean is likely to change.Moreover, it lies within an increasing mobility phenomenon of societies, searching or not for speed, and demonstrates the increasing reticularity (networkness) of this space, also linked to globalisation. We will try to define the concept of territory in the high seas and to distinguish the existence of « maritories ». The knowledge of the transatlantic routes allows to define Atlantic centralities, peripheries and margins. They represent territorialised network putting into relation the different places where the identity of the sailors can be revealed. Along these routes some « itinerant »seascape, marks, spatial and temporal discontinuities, rituals and représentations are built, creating a possibility to structure the Atlantic Ocean.

Océan Atlantique

Mobilité

Navigation à voile

Réseaux

Territoire

Paysage maritime

Atlantic ocean

Sailing

High sea

Territory

Seascape

Mobility

Network