Global ETD Search

101	Does eutrophication cause greater growth of epiphytic algae on the seagrass Zostera marina? Ljung, Angelica January 2024 (has links) The most common eelgrass along the Swedish coast is Zostera marina. It is an ecosystem engineer which provides both nature and humans with important ecosystem services and various ecosystem functions. Eutrophication is one of the main reasons why the Swedish coast has lost a lot of Z. marina meadows. When there is more nitrogen in the ocean, it is an advantage for epiphytic algae so that they can grow faster. The epiphytic algae grow on Z. marina and reduce Z. marina from receiving light. And therefore, the aim of my thesis is to investigate the effect of eutrophication on the growth of epiphytic algae on Z. marina. I took water samples at 8 different locations (spanning 7.21 km) along the coast of Halmstad, from the mouth of river Nissan, which I hypothesize to be a main source of nitrogen, to the open sea. From the water samples nitrogen, absorbance and TOC was measured to see if there was any difference in the water composition from Nissan's outlet and seawards. Z. marina leaves were taken from two different sites on one occasion to investigate the degree of epiphytic algae on the leaves. I found that the nitrogen concentration was decreasing from the outlet of Nissan River along coast towards the open sea. Also, the growth of epiphytic algae on Z. marina was decreasing from the outlet of Nissan River along the coast towards the open sea. The growth of epiphytic algae on Z. marina was not solely dependent of the concentration of nitrogen. In Scandinavia, Z. marina meadows are one of the most diverse coastal ecosystems. On otherwise sandy and species-poor substrates, Z. marina is an important habitat for a rich epiflora and fauna so a more integrated understanding in both management and science of Z. marina's stress responses is needed. seagrass Zostera marina nutrients Sweden’s coast turbidity Environmental Sciences Miljövetenskap Ecology Ekologi Other Biological Topics Annan biologi
102	Fishing for sustainability : Towards transformation of seagrass-associated small-scale fisheries Wallner-Hahn, Sieglind January 2017 (has links) Small-scale fisheries employ many millions of people around the world, and are particularly important in developing countries, where the dependency on marine resources is high and livelihood diversification options are scarce. In many areas of the world however, small-scale fisheries are at risk which threatens the food security and wellbeing of coastal people. Small-scale fisheries management has in many cases been insufficient and new comprehensive approaches are recommended to achieve social-ecological sustainability in the long-term. The aim of this thesis is to analyze empirically how social-ecological elements of seagrass-associated small-scale fisheries in the Western Indian Ocean region can be addressed for a transformation from the current mostly degraded state to more sustainable social-ecological systems and secure future livelihoods. The main method used was semi-structured interviews with local fishers. The main findings show the crucial contributions seagrass-associated small-scale fisheries make to food security and income generation and highlight the need to acknowledge the social-ecological importance of seagrasses in the seascape (Paper I). A discrepancy between low societal gains of the fishing of sea urchin predator fish species and their crucial importance in the food web (in controlling sea urchin populations and the associated grazing pressure on seagrasses) was identified (Paper II). These results suggest catch-and-release practice of sea urchin predator fish species, which could contribute to more balanced predator – sea urchin – seagrass food webs in the long run. The use of illegal dragnets was identified as a major threat to local seagrass meadows (Paper IV). Institutional elements influencing the use of such destructive dragnet were identified to be normative, cultural-cognitive and economic, which constitutes an institutional misfit to the current emphasis on regulative elements in a hierarchical manner (Paper III). Concerning future co-management initiatives, gear restrictions and education were the favoured management measures among all fishers (Paper IV). A majority of fishers were willing to participate in monitoring and controls, and most fishers thought they themselves and their communities would benefit most from seagrass-specific management. These findings highlight the need for actions on multiple scales, being the local-, management-, policy- and governance levels. The suggested actions include: education and exchange of ecological and scientific knowledge, gear management including the cessation of dragnet fishing, strengthening of local institutions, an active participation of fishers in enforcement of existing rules and regulations and an introduction of adequate alternative livelihood options. / <p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 1: Manuscript. Paper 4: Manuscript.</p> small-scale fisheries co-management social-ecological systems ecosystem services institutions transformation seagrass meadows destructive gear food-web interactions Ecology Ekologi
103	Étude des effets et du rôle des herbiers à Zostera noltii sur la biogéochimie des sédiments intertidaux / Study of the effect and the role of Zostera noltii seagrass meadows on the biogeochemical dynamic of intertidal sediments Delgard, Marie Lise 21 May 2013 (has links) Cette étude a été menée afin de mieux comprendre l’influence de l’herbier à Zosteranoltii du Bassin d’Arcachon, herbier affecté par une sévère régression depuis les années2000, sur la dynamique biogéochimique des sédiments intertidaux de cette lagune. Dans cet environnement côtier dynamique, il s’agissait de caractériser cette influence sur demultiples échelles spatiales (i.e. de la racine à l'écosystème) et temporelles (i.e. tidale, diurne, saisonnière et interannuelle). Des mesures par voltammétrie in situ de la composition des eaux porales des sédiments intertidaux non végétalisés ont montré que (i) les distributions verticales des espèces réduites variaient avec les marées et que (ii) la dynamique de l’oxygène dissous en réponse aux cycles tidaux et diurnes était contrôlée par l’activité photosynthétique et les migrations verticales du microphytobenthos. L’étude de l’influence de l’herbier sur cette dynamique via des pertes d’oxygène au niveau des racines a été initiée en mesurant les variations des concentrations en oxygène à l’intérieur des lacunes aérifères de ces plantes. L’organisation des lacunes de Zostera noltii est présentée pour la première fois dans cette étude. La distribution verticale de nutriments dans les eaux porales de sédiments végétalisés et de sédiments nus a été caractérisée pendant la période de croissance de l’herbier. La présence de Zostera noltii a induit une zonation verticale marquée de cette distribution qui reflète l’évolution avec la profondeur de l’équilibre entre la production de nutriments résultant de l’exsudation de matière organique labile par les parties souterraines de la plante (source) et le pompage de ces nutriments par les racines (puits). L’existence d’un pompage de carbone inorganique dissous et de silice dissoute par les racines de l’herbier a été mise en évidence. Des mesures d’échanges benthiques d’oxygène dissous sur des sédiments nus et colonisés par Zostera noltii ont permis de caractériser la saisonnalité et l’hétérogénéité spatiale du métabolisme benthique (respiration et production primaire brute) en relation avec les distributions d’herbier et/ou de macrofaune benthique. Dans les sédiments végétalisés, la forte variabilité spatio-temporelle de ce métabolisme benthique était largement contrôlée par la biomasse de feuilles d’herbier. A l’échelle de la lagune, nos calculs ont montré que la regression de l’herbier à Zostera noltii entre 2005 et 2007 a induit une diminution significative des taux de respiration et de production de la zone intertidal de la lagune. L’évolution interannuelle de la biogéochimie de sédiments colonisés par Zostera noltii a été étudiée en 2006 et en 2010/2011 sur une zone située dans une partie du Bassin d’Arcachon particulièrement affectée par le déclin des herbiers (secteur de Cassy). Contrairement aux observations réalisées sur l’herbier bien portant en 2006, l’herbier en déclin augmenterait le relargage de nutriments dans les sédiments via la stimulation de la production d’ammonium ou de la dissolution du phosphore particulaire. La régression des herbiers fournirait un apport significatif de phosphore vers la colonne d’eau de la lagune, d’une magnitude comparable aux apports par les rivières ou à ceux liés au pompage tidal. / The aim of this study was to improve our understanding of the influence of the Zostera noltii meadows of the Arcachon Bay, a seagrass meadow affected by a severe regression since the 2000’s, on the biogeochemical dynamic of the intertidal sediment of this lagoon. In such a changing coastal environment, it was important to characterize this influence on a wide range of spatial (i.e. from roots to the ecosystem) and temporal scales(i.e. tidal, diurnal, seasonal and inter-annual). In situ voltammetric measurements of the composition of porewater in an intertidal unvegetated sediment showed that (i) the vertical distribution of reduced species varied with tides and (ii) the oxygen dynamic in response to tidal and diurnal cycles was controlled by the photosynthetic activity and vertical migrations of microphytobenthos.The study of the influence of seagrasses on this dynamic by radial oxygen loss around roots was initiated with measurements of oxygen concentrations inside the lacunae of these plants. The organization of the lacunae of Zostera noltii is presented for the first time inthis study. The vertical distribution of porewater nutrients in vegetated and unvegetated sediments was characterized during the growth period of seagrasses. The presence of Zostera noltii induced a strong vertical zonation related to the depth-evolution of the balance between nutrient production stimulated by the root exudation of labile organic matter (source) and the root uptake of nutrients (sink). This study revealed the occurence of a root uptake of dissolved inorganic carbon and dissolved silica. Measurements of benthic oxygen exchanges on sediments colonized or not by Zostera noltii enabled the characterization of the seasonality and spatial heterogeneity of benthic metabolism (respiration and gross primary production) related to macrofaunal and macrophytic distribution. In vegetated sediments, the spatio-temporal variability of this benthic metabolism was highly controlled by leaves biomass. At the lagoon scale, our calculations showed that the regression of Zostera noltii meadows induced a significant decresase of mean annual respiration and production rates of the intertidal area of the lagoon.The inter annual evolution of the biogeochemistry of sediments colonized by Zostera noltii was studied in 2006 and in 2010/2011 in an area of the Arcachon Bay highly affected by the seagrass decline. In contrast to the healthy meadow in 2006, the declining meadow has increased nutrient release in sediments stimulating the production of ammonium or the dissolution of particulate phosphorus. This study shows that seagrass decay may result in a significant supply of phosphorus to the water column of a magnitude comparable to annual inputs to the lagoon from the rivers and the tidal pump. Biogéochimie Sédiment Herbier Zostera noltii Régression Oxygène Nutriments Fer Bassin d'Arcachon Biogeochemistry Sediment Seagrass Zostera noltii Regression Oxygen Nutrients Iron The Arcachon Bay
104	Examination of the Use of Floating Individuals of Halodule wrightii (Ascherson, 1868) for Restoration Unknown Date (has links) The goal of this study was to develop an alternative approach to typical seagrass transplantation techniques that damage the donor bed. Floating individuals of Halodule wrightii were collected in the Indian River Lagoon (IRL), Florida, during fall of 2013 and spring of 2014, with the fall collection planted in outdoor tanks. Only 25% of individuals collected in the fall survived the winter in the tanks. Individuals from both collections were deployed onto biodegradable mats in a capped dredge hole in the IRL in March, 2014. Approximately 66% of the mats survived the six-month experiment, and the area covered by seagrass quadrupled. Growth in shoot count, average height, horizontal spread, and biomass was similar for both fall and spring treatments. Thus, time and effort of overwintering had no benefit over spring harvesting. The use of floating individuals can provide a more practical, environmentally friendly alternative to traditional transplanting for seagrass re storation. / Includes bibliography. / Thesis (M.S.)--Florida Atlantic University, 2015. / FAU Electronic Theses and Dissertations Collection
105	Influence des apports anthropiques sur les flux de carbone et de contaminants dans les réseaux trophiques de 'poissons' de l'écosystème à Posidonia oceanica / Fluxes of carbon and contaminants along the food web of Posidonia oceanica ecosystem. Highlights of the contribution of fish assemblages Ourgaud, Mélanie 11 December 2015 (has links) Les écosystèmes marins côtiers subissent de nombreuses perturbations naturelles et anthropiques. Dans le contexte socio-économique actuel, mieux comprendre le fonctionnement et transfert des contaminants dans ces écosystèmes est primordial. L’étude du transfert de la matière organique et des contaminants aux interfaces, constitue un enjeu crucial. Les principaux objectifs sont de caractériser l’ichtyofaune des herbiers de posidonie et comprendre les relations trophiques ; d’établir les niveaux et variabilité spatiale de la contamination en éléments traces ETs et polluants organiques persistants POPs dans les compartiments de l’écosystème ; et d’identifier les sources et les processus influençant les niveaux de contamination le long du réseau trophique à Marseille et Hyères. La caractérisation du peuplement de poissons et des relations trophiques au sein de l’écosystème est nécessaire pour comprendre les niveaux de contamination. Chez les poissons, le phénomène de bioaccumulation des ETs est difficile à mettre en évidence, excepté pour le mercure. L’influence du régime alimentaire, taille et besoins physiologiques et métaboliques est manifeste. La grande stabilité et la rémanence des POPs leur confèrent des propriétés de bioconcentration et de bioamplification importantes. Les concentrations en contaminants mesurées, ainsi que la détection de pesticides toxiques interdits, attestent de la nécessité de considérer cette pollution avec attention, plus forte à Marseille. / The marine ecosystems undergo frequent disturbances. In the current socio-economic context characterized by intensive urban development and industrialization, it is of primordial importance for the management of the environment to achieve a better understanding of the functioning and the transfer of contaminants within these ecosystems. The study of the transfer of organic matter and contaminants to the interfaces is thus a crucial issue. The main objectives are to characterize the fish fauna and to determine the food webs; to establish the levels and patterns of spatial variability of contamination by trace elements TEs and persistent organic pollutants POPs; and to identify the sources and the processes having an influence on the levels of contamination throughout the food webs. The characterization of the fish populations and the trophic relations between the compartments of the ecosystem is necessary in order to understand the levels of contamination in TEs and POPs. For the fishes, it is difficult to provide evidence of the phenomenon of bioaccumulation of TEs, except for mercury, but the influence of diet, size and physiological and metabolic requirements is obvious. The great stability, liposolubility and persistence of the POPs confer on them significant bioconcentration and bioamplification capabilities. The concentrations in TEs and POPs recorded, and the detection of banned toxic pesticides, attest to the necessity of paying close attention to this pollution. Ichtyofaune Méditerranée Herbier à Posidonia oceanica Isotopes stables Pesticides PCBs Eléments traces Ichthyofauna Mediterranean Sea Seagrass meadows Stable isotopes Pesticides PCBs Trace elements 550
106	Benthic habitat mapping using multibeam sonar systems Parnum, Iain Michael January 2007 (has links) The aim of this study was to develop and examine the use of backscatter data collected with multibeam sonar (MBS) systems for benthic habitat mapping. Backscatter data were collected from six sites around the Australian coastal zone using the Reson SeaBat 8125 MBS system operating at 455 kHz. Benthic habitats surveyed in this study included: seagrass meadows, rhodolith beds, coral reef, rock, gravel, sand, muddy sand, and mixtures of those habitats. Methods for processing MBS backscatter data were developed for the Coastal Water Habitat Mapping (CWHM) project by a team from the Centre for Marine Science and Technology (CMST). The CMST algorithm calculates the seafloor backscatter strength derived from the peak and integral (or average) intensity of backscattered signals for each beam. The seafloor backscatter strength estimated from the mean value of the integral backscatter intensity was shown in this study to provide an accurate measurement of the actual backscatter strength of the seafloor and its angular dependence. However, the seafloor backscatter strength derived from the peak intensity was found to be overestimated when the sonar insonification area is significantly smaller than the footprint of receive beams, which occurs primarily at oblique angles. The angular dependence of the mean backscatter strength showed distinct differences between hard rough substrates (such as rock and coral reef), seagrass, coarse sediments and fine sediments. The highest backscatter strength was observed not only for the hard and rough substrate, but also for marine vegetation, such as rhodolith and seagrass. The main difference in acoustic backscatter from the different habitats was the mean level, or angle-average backscatter strength. However, additional information can also be obtained from the slope of the angular dependence of backscatter strength. / It was shown that the distribution of the backscatter. The shape parameter was shown to relate to the ratio of the insonification area (which can be interpreted as an elementary scattering cell) to the footprint size rather than to the angular dependence of backscatter strength. When this ratio is less than 5, the gamma shape parameter is very similar for different habitats and is nearly linearly proportional to the ratio. Above a ratio of 5, the gamma shape parameter is not significantly dependent on the ratio and there is a noticeable difference in this parameter between different seafloor types. A new approach to producing images of backscatter properties, introduced and referred to as the angle cube method, was developed. The angle cube method uses spatial interpolation to construct a three-dimensional array of backscatter data that is a function of X-Y coordinates and the incidence angle. This allows the spatial visualisation of backscatter properties to be free from artefacts of the angular dependence and provides satisfactory estimates of the backscatter characteristics. / Using the angle-average backscatter strength and slope of the angular dependence, derived by the angle cube method, in addition to seafloor terrain parameters, habitat probability and classification maps were produced to show distributions of sand, marine vegetation (e.g. seagrass and rhodolith) and hard substrate (e.g. coral and bedrock) for five different survey areas. Ultimately, this study demonstrated that the combination of high-resolution bathymetry and backscatter strength data, as collected by MBS, is an efficient and cost-effective tool for benthic habitat mapping in costal zones.
107	Dioxins in the Marine Environment: Sources, Pathways and Fate of Polychlorinated Dibenzo-p-dioxins and Dibenzofurans in Queensland, Australia Gaus, Caroline, n/a January 2003 (has links) Polychlorinated dibenzo-p-dioxins (PCDDs) and polychlorinated dibenzofurans(PCDFs) are two groups of lipophilic, persistent organic pollutants that are produced as by-products of various anthropogenic and industrial processes. Due to their relatively high toxic potencies and potential to bioaccumulate and biomagnify in organisms and through the food chain, the contemporary widespread distribution of these compounds is a concern to the health of the environment, wildlife and humans. This study determined the distribution, pathways and fate of PCDD/Fs in the coastal zone of Queensland, Australia, including the inshore marine environment of the World Heritage Great Barrier Reef Marine Park. This ecosystem supports unique fauna and flora such as the marine herbivorous mammal dugong (Dugong dugon) and its food source, seagrass. Elevated PCDD/Fs were present in soils and sediments along the entire Queensland coastline. Highest concentrations were found in soil from agricultural irrigation drains and in sediments near the mouths of major rivers. Elevated concentrations were associated with rural and urban types of land-use, and PCDD/Fs were present even in locations remote from anthropogenic activities. PCDD/F congener-specific analysis revealed an unusual profile in all samples, dominated by OCDD, with PCDFs present in low concentrations or below the limit of detection. Distinct HxCDD isomer patterns were observed, with the 1,2,3,7,8,9-HxCDD/1,2,3,4,6,7-HxCDD isomer pair dominating the 2,3,7,8-substituted HxCDDs. Similar congener and isomer characteristics were reported in sediments, soil and clay samples from other continents, but could not be attributed to any known source. Possible PCDD/F sources in Queensland were assessed using segmented estuarine sediment cores, for which radiochemical chronologies were established for each depth. Variations of PCDD/F concentrations in the sediment cores over several centuries of depositional history were relatively small. Elevated PCDD levels were still present in sediment slices from the early 17th century. PCDD/F homologue profiles in sediments deposited during the last 350 years were almost identical and correlated well to the characteristic profiles observed in surface sediments and soils from the entire Queensland coastline. These results suggested the presence of an unidentified PCDD source prior to the production of commercial organochlorine products. To investigate the formation of the unusual PCDD/F profiles, congener and isomer specific analyses were undertaken in soils, sediments and dated sediment cores. The results demonstrated that specific transformation processes in the environment have resulted in the observed PCDD profile characteristics. Dechlorination of OCDD was proposed to result in distinct 1,4-pattern characteristics (i.e. formation of isomers chlorinated in the 1,4,6,9-positions). Consequently, the environmental samples do not reflect the signatures of the original source. An alternative hypothesis to natural formation is discussed evaluating these processes and their implications for possible source contributions. This hypothesis explores the potential for the influence of anthropogenic PCDD precursors (e.g. pentachlorophenol) during the 1940s to 1990s. Transport of PCDD/Fs from the land-based source via impacted tributary river systems, and subsequent deposition processes are proposed to result in PCDD/F accumulation in the inshore marine ecosystem. The extent of the sediment PCDD/F contamination governs the concentrations in the extensive inshore marine seagrass meadows of Queensland. Partitioning processes in the sediment-seagrass system lead to increased toxic equivalency (TEQ) in the seagrass, compared to sediment.The relationship between contaminated inshore sediments, seagrass and dugongs were evaluated using six dugong habitat regions along the coastline. PCDD/F body burdens in dugongs are governed by sediment (and seagrass) PCDD/F concentrations in their habitat. High seagrass (and incidental sediment) ingestion rates, selective retention of toxicologically potent congeners and relatively low PCDD/F elimination capacities in dugongs are proposed to result in elevated PCDD/F concentrations and TEQ levels in adult animals. Transfer efficiencies of 4 and 27% of maternal TEQ levels to foetuses and calves (respectively) during gestation and lactation result in relatively high exposure potentials to offspring. Compared to no-observed-adverse-effect-levels in other mammals, and based on the results of this study, a tolerable daily intake (TDI) of 10-24 pg TEQ kg-1 day-1 was estimated for dugongs. The results of the present study found that dugongs from some regions along the coastline of Queensland exceed this TDI by up to 20 fold, suggesting that these populations may be at risk from PCDD/F contamination in their habitat. These results have important implications for the health of the environment, wildlife and humans and were used to develop a conceptual understanding of the sources, pathways and fate of dioxins in Queensland, Australia. dioxin dioxins polychlorinated dibenzo-p-dioxins PCDD PCDDs polychlorinated dibenzofurans PCDF PCDFs marine pollution Queensland Australia Great Barrier Reef seagrass seagrasses dugong dugongs
108	Anthropogenic Disturbances and Shifts in Tropical Seagrass Ecosystems Eklöf, Johan S. January 2008 (has links) <p>Seagrasses constitute the basis for diverse and productive ecosystems worldwide. In East Africa, they provide important ecosystem services (e.g. fisheries) but are potentially threatened by increasing resource use and lack of enforced management regulations. The major aim of this PhD thesis was to investigate effects of anthropogenic distur-bances, primarily seaweed farming and coastal fishery, in East African seagrass beds. Seaweed farming, often depicted as a sustainable form of aquaculture, had short- and long-term effects on seagrass growth and abundance that cascaded up through the food web to the level of fishery catches. The coastal fishery, a major subsistence activity in the region, can by removing urchin predators indirectly increase densities of the sea urchin <i>Tripneustes gratilla</i>, which has overgrazed seagrasses in several areas. A study using simulated grazing showed that high magnitude leaf removal – typical of grazing urchins – affected seagrasses more than low magnitude removal, typical of fish grazing. Different responses in two co-occurring seagrass species furthermore indicate that high seagrass diversity in tropical seagrass beds could buffer overgrazing effects in the long run. Finally, a literature synthesis suggests that anthropogenic disturbances could drive shifts in seagrass ecosystems to an array of alternative regimes dominated by other or-ganisms (macroalgae, bivalves, burrowing shrimp, polychaetes, etc.). The formation of novel feedback mechanisms makes these regimes resilient to disturbances like seagrass recovery and transplantation projects. Overall, this suggests that resource use activities linked to seagrasses can have large-scale implications if the scale exceeds critical levels. This emphasizes the need for holistic and adaptive management at the seascape level, specifically involving improved techniques for seaweed farming and fisheries, protection of keystone species, and ecosystem-based management approaches.</p> Aquaculture feedback mechanisms Kenya management overgrazing regime shift resilience seagrass seaweed farming sea urchins Tanzania trophic cascades Zanzibar NATURAL SCIENCES NATURVETENSKAP
109	Anthropogenic Disturbances and Shifts in Tropical Seagrass Ecosystems Eklöf, Johan S. January 2008 (has links) Seagrasses constitute the basis for diverse and productive ecosystems worldwide. In East Africa, they provide important ecosystem services (e.g. fisheries) but are potentially threatened by increasing resource use and lack of enforced management regulations. The major aim of this PhD thesis was to investigate effects of anthropogenic distur-bances, primarily seaweed farming and coastal fishery, in East African seagrass beds. Seaweed farming, often depicted as a sustainable form of aquaculture, had short- and long-term effects on seagrass growth and abundance that cascaded up through the food web to the level of fishery catches. The coastal fishery, a major subsistence activity in the region, can by removing urchin predators indirectly increase densities of the sea urchin Tripneustes gratilla, which has overgrazed seagrasses in several areas. A study using simulated grazing showed that high magnitude leaf removal – typical of grazing urchins – affected seagrasses more than low magnitude removal, typical of fish grazing. Different responses in two co-occurring seagrass species furthermore indicate that high seagrass diversity in tropical seagrass beds could buffer overgrazing effects in the long run. Finally, a literature synthesis suggests that anthropogenic disturbances could drive shifts in seagrass ecosystems to an array of alternative regimes dominated by other or-ganisms (macroalgae, bivalves, burrowing shrimp, polychaetes, etc.). The formation of novel feedback mechanisms makes these regimes resilient to disturbances like seagrass recovery and transplantation projects. Overall, this suggests that resource use activities linked to seagrasses can have large-scale implications if the scale exceeds critical levels. This emphasizes the need for holistic and adaptive management at the seascape level, specifically involving improved techniques for seaweed farming and fisheries, protection of keystone species, and ecosystem-based management approaches. Aquaculture feedback mechanisms Kenya management overgrazing regime shift resilience seagrass seaweed farming sea urchins Tanzania trophic cascades Zanzibar NATURAL SCIENCES NATURVETENSKAP
110	The Distribution of Coral, Reefs and Coastal Habitats in North Central Cuba Brady, Aisling 24 February 2009 (has links) Coral communities have begun to form under small inlet-style bridges along the causeway connecting Cayo Coco to Cayo Guillermo. To understand how these bridge-reefs formed and characterize their attributes relative to surrounding communities, a combination of ecological observations and 13C isotopes were analyzed from the bridges and surrounding reefs, mangrove channels and seagrass patches. Hierarchical Cluster Analysis, Detrended Correspondence Analysis and Canonical Correspondence Analysis were carried out to group which physical attributes contributed to the coral communities in the bridge-reefs and also which habitats they were most similar to, with respect to coral and benthic composition. Bridge reef coral assemblages resembled shallow patch reefs and mangrove channels, while benthic coverage was similar to mangrove channels. Organic matter was from combined seagrass and mangrove sources, with mangrove dominating in some regions more than others. This work demonstrates that habitats within the seascape are inter-related through varying mechanisms and development is multi-dimensional. seascape ecologoy coral distribution Cayo Coco Cuba marginal habitats coral reefs seagrass mangroves carbon isotopes primary productivity coastal vegetation causeways 0329

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