10 resultados para Ingénierie écologique
em Archimer: Archive de l'Institut francais de recherche pour l'exploitation de la mer
Resumo:
Le présent document constitue un rapport final de l’étude dont l’objectif peut s’énoncer comme suit : « les zones portuaires peuvent elles être des nurseries de sars ? ». Tenter de répondre à cette question, simple en apparence, nécessite de mener des études aux niveaux populationnel et individuel et ce afin de comprendre les processus sous-jacents. Quatre volets ont été menés. Dans le premier volet, à partir des données issues du projet Nappex, nous avons étudié les changements spatio-temporels d’abondance de quatre espèces de sars dans cinq marinas réparties le long de la façade Méditerranéenne. Dans un second volet, nous avons cherché à comparer les cinétiques de mortalité post-installation de deux espèces de sars en milieu portuaire et naturel. Dans un troisième volet, la croissance et la condition de deux mêmes espèces de sars ont été comparées entre des zones portuaires et des zones naturelles. Enfin, dans un quatrième volet, nous avons cherché à mettre en place des outils pour appréhender la migration des juvéniles des zones portuaires vers les zones naturelles pour rejoindre les populations adultes.
Resumo:
L'étude écologique des ressources halieutiques du site de Gravelines entreprise par l'ISTPM en 1975 est entrée depuis janvier 1978 en phase de surveillance. Cette phase devait permettre dans un premier temsp d'apprécier les fluctuations naturelles pluriannuelles des principaux paramètres hydrologiques retenus à partir de l'étude de projet, et dans un second temps d'analyser l'incidence éventuelle de la centrale sur le milieu marin et ses ressources.
Resumo:
Within the European water framework directive (WFD), the status assessment of littoral waters is based both on the chemical quality and on the ecological quality of each water body. Quality elements enabling to assess the ecological status of a water body are, among other things, biological quality elements (phytoplankton, macroalgae, angiosperms, benthic invertebrates, fish), for each of which the member states have developed quantitative indicators. This document is one of the deliverables of a multi-annual study intended to characterize the sensitivity of these biological indicators towards the various anthropogenic pressures exerted on the French Atlantic and Channel coast: ultimately, the goal is to establish a quantitative and predictive relationship, statistically robust, between the WFD indicators used along the French channel and Atlantic coastline, and various anthropogenic pressures acting on these coasts. The aim of the WFD is indeed to restore or maintain a good chemical and biological quality of coastal waters, and thus to limit the impact of human activities potentially responsible for the degradation of ecosystems. This understanding of the linkages and interactions existing between anthropogenic pressures and ecological status of water bodies is therefore essential to identify priorities for action (challenges, substances ...), prioritize actions to implement within restoration programs (technical, fiscal, financial), but also to be able to communicate constructively and persuasively in talks between managers and the various stakeholders of coastal regions. Using the DPSIR methodology, this literature analysis has permitted to identify, for each WFD biological quality element (except fish), which pressures (or pressure types) are potentially relevant in the light of their impact on the indicators of the ecological status of water bodies. Some metrics and indicators of anthropogenic pressures used in the literature to characterize the sensitivity of the biological quality elements, within quantitative approaches, were also identified. It is also clear from this review that the biological quality elements can be particularly sensitive to intrinsic environmental conditions, and therefore to certain changes related to natural phenomena occurring at large scales (e.g. climate change, paroxysmal climate episode...). Therefore, when one is interested in the sensitivity of biological indicators to different anthropogenic pressures, two factors can complicate the analysis and are likely to weaken the resulting statistical relationships: on the one hand, the variability of biological responses depending on the natural context and, on the other hand, interactions (so called synergistic effects) between different types of anthropogenic pressures and the alterations they can generate.
Resumo:
Within the European water framework directive (WFD), the status assessment of littoral waters is based both on the chemical quality and on the ecological quality of each water body. Quality elements enabling to assess the ecological status of a water body are, among other things, biological quality elements (phytoplankton, macroalgae, angiosperms, benthic invertebrates, fish), for each of which member states have developed quantitative indicators. This document compiles three deliverables of a multi-annual study intended to characterize the sensitivity of these biological indicators regarding the various anthropogenic pressures exerted on the French Atlantic and Channel coast: ultimately, the goal is to establish a quantitative and predictive relationship, statistically robust, between the WFD indicators used along the French channel and Atlantic coastline, and various anthropogenic pressures acting on these coasts. These three deliverables are the following : - The reports of various interviews performed with French national referents for the biological quality elements used within the littoral part of the WFD in Channel and Atlantic (phytoplankton, subtidal and intertidal macroalgae, opportunistic blooming macroalgae, angiosperms and benthic invertebrates). These interviews aimed to specify, for each metric constitutive of the BQE indicator (if multi-metric), the "relevant" pressures, as well as the trend of this impact, - Sheets describing the "pressure" and "environment" data available, in order to characterize spatially and quantitatively these "relevant" anthropogenic pressures acting on French Channel and Atlantic coast, - A progress report dealing with the development of a database tool, for archiving quantitative data characterizing "relevant" littoral anthropogenic pressures.
Resumo:
The study of a first annual hydrobiological cycle on the site of Flamanville was carried out through 19 campaigns conducted between July 76 and June 77. Twelve of them are considered as "heavy" and took place on the following dates: July 8th, 76; August 6th, September 4th, October 3rd, November 3rd, December 16th, January 5th, 77; February 2nd, March 3rd, April 14th, May 10th and May 24th. Seven campaigns consist only in one sample July 23rd, 76; August 21st, September 16th, November 19th, January 19th, 77; February 17th and June 16th. However, some variables which had not been measured during these "light" missions have not been taken into account for the analysis. A first global analysis groups together the first ten campaigns (in May, the nutritive salts had not been measured) and presents the annual variations of nine parameters: temperature, salinity, oxygen, nitrates (N0 3), nitrites (N0 2), phosphates (P0 4), silicates (Si0 2), chlorophyll and pheopigments. A second study of the annual hydrobiological cycle includes all campaigns but only five variables: temperature, salinity, oxygen, chlorophyll and pheopigments.
Resumo:
Tissue engineering is a real challenge for the treatment of cartilage pathologies. In this field, biomimetic hydrogels based on natural polymers are among the most commonly used matrices. A hydrogel made of silanized hydroxypropylmethylcellulose (HPMC-Si) is especially promising because it can be injected in cartilaginous lesions by minimally invasive surgery. However, the current synthesis of HPMC-Si is limited by the insolubility of hydroxypropylmethylcellulose (HPMC). This thesis work was focused on finding new synthesis conditions for the design of HPMC-Si hydrogel. In order to obtain a complete solubilization of HPMC and to improve its functionalization by the (3-glycidyloxypropyl) trimethoxysilane (GPTMS), the use of ionic liquids (IL), which are excellent solvents for polysaccharides, was undertaken. The beginning of this study was first devoted to the selection of an IL and then to the development of new reaction conditions. With these new conditions, higher silicon rates were obtained for HPMC modified in ionic liquid medium, however no hydrogel could be formed. The second part was therefore devoted to the synthesis of GPTMS 13C. Indeed, thanks to this radiolabeling, a structural characterization by 13C NMR of the HPMC-Si could be achieved. Finally, the reactivity in organic solvents of three organosilanes, including the GPTMS, was investigated toward nucleophiles representing the common functions found in natural polymers (e.g. -NH2, -OH, -SH). The results of this thesis have provided insights into the GPTMS reactivity in organic medium and thus paves the way to new conditions for the silanization of polysaccharides.
Resumo:
During recent decades, works on rocky shore biodiversity have been multiplied in the southern part of the Bay of Biscay and more precisely on intertidal and subtidal area were communities present a great interest. Necessity of conservation of coastal habitats and their communities and a growing pressure on coastal environments explain awareness of services provided by these ecosystems. Those communities are very sensitive to water quality change. Moreover, since the beginning of the XXI century various European directives require a good ecological status of coastal waters and conservation of their communities : Water Framework Directive (WFD), Marine Strategy Framework Directive (MSFD) and conservation of habitats with Directive Habitat Fauna and Flora (DHFF).... Integrated environmental status assessment approach is needed for this requirement in front of specific component at the regional scale of the Bay of Biscay. This analyze, at this regional scale, bring a particular interest to follow some biological groups in front of their ecological sensitivity. Among them, some example are listed like algae, invertebrate as species of mollusc opistobranch and fishes of the family blennidae are targets of interest for future monitoring. The biogeographic specificity of species of these groups is to present strong ecological requirements, in a trophic point of view for example, as well as boundary in local distribution in the southern part of the Bay of Biscay. Thus, monitoring of their distribution and abundance should be a relevant indicator of environmental change. If the presence of individuals is relatively easy to implement, monitoring in terms of abundance are more complex to develop to obtain representative data in coastal areas. The mobile character of the individual and their high location variability based on fluctuating environmental conditions is a challenge that needs to be considered. Interest concerns both the development of their number and their migration to the north for species in northern limit, and/or disappearance for species in southern distribution limits. Moreover, acquisition of knowledge on the taxonomy of local species is a way to improve biodiversity knowledge and assessment of global change as climatic change.
Resumo:
The Water Framework Directive uses the “One-out, all-out” (OAOO) principle in assessing water bodies (i.e. the worst status of the elements used in the assessment determines the final status of the water body). Combination of multiple parameters within a biological quality element (BQEs) can be done in different ways. This study analysed several aggregation conditions within the BQE "Flora other than phytoplankton" (intertidal macroalgae, subtidal macroalgae, eelgrass beds and opportunistic blooms) using monitoring data collected along the Channel and Atlantic coastline. Four aggregation criteria were tested on two sets of data collected between 2004 and 2014: OOAO, average, intermediate method between OOAO and average and a method taking into account an uncertainty value at the threshold "Good/Moderate." Based on available data, the intermediate method appears the most qualified method using first an averaging approach between the natural habitat elements and then applying the OAOO between this mean and the opportunistic blooms, characteristic of an eutrophic environment. Expert judment might be used to ensure in the overall interpretation of results at waterbody level and in the classification outcomes.
Resumo:
La dynamique sédimentaire à l’embouchure de l’estuaire de Seine est principalement contrôlée par les forçages hydrométéorologiques (débit, vent, vagues, marée) et les fortes pressions anthropiques (endiguement, dragage, clapage). La compréhension et la quantification de la dynamique des flux sédimentaires en suspension (sable/vase) est un enjeu majeur, autant d’un point vu écologique (ex. turbidité, envasement) que financier (ex. gestion des chenaux de navigation). La mise en place de réseaux de mesure in situ permet une meilleure compréhension de la dynamique sédimentaire de l’estuaire, mais leur caractère local rend difficile toute estimation des flux et bilans sédimentaires. Pour répondre à ces questions, cette étude s’appuie sur la modélisation numérique, validée par de nombreuses séries de mesures in situ, afin de quantifier les flux et bilans sédimentaires à différentes échelles caractéristiques de temps et d'espace. Les concentrations simulées dans la zone d'extension du bouchon vaseux sont du même ordre que les observations et leur dynamique associée aux différentes phases et cycles de la marée, ainsi qu'au cycle hydrologique, est satisfaisante. L’analyse des flux résiduels et bilans sédimentaires aux échelles annuelle et trimestrielle a permis d’identifier un schéma de circulation à l’embouchure de l’estuaire et de quantifier l’importance du forçage hydrologique (crue/étiage) sur les échanges sédimentaires. Enfin, ce travail se poursuivra par l’étude de ces flux et bilans pour différents scénarios hydrométéorologiques contrastés.
Resumo:
Les actions de recherche synthétisées dans ce document ont été menées en partenariat avec des halieutes, écologues marins, statisticiens, modélisateurs et économistes ; partenaires au sein de l’Ifremer, d’organismes de recherche - IRD, CNRS, Institut National de Recherche Halieutique du Maroc - , et d’Enseignement Supérieur - Université de Bretagne Occidentale, Université du Littoral Côte d’Opale, Ecole Nationale d’Ingénieur de Brest, Université des Antilles et de la Guyane. Ces actions ont permis de consolider une communauté pluri-disciplinaire nationale pour aborder les questions de l’analyse intégrée et de la modélisation à l’échelle écosystémique de la durabilité écologique et économique de l’exploitation des ressources halieutiques dans un contexte climatique changeant. Elles ont permis par ailleurs une première application formelle significative au sein de l’Ifremer, de l’approche écosystémique des pêches en contexte tropical (Guyane) et la formalisation du concept de "Biodiversité Halieutique". Les méthodes d’analyse utilisées ont en premier lieu été développées pour le cas du plateau continental du Golfe de Gascogne. Ces méthodes ont ensuite été étendues et appliquées à d’autres plateaux continentaux dont les caractéristiques étaient très différentes en termes climatique, de fonctionnement physique, bio-géographique, d’exploitation halieutique, économique et de gestion de la pêche : au Maroc dans la zone sous influence d’un up-welling, et en Guyane sous l’influence de l’estuaire de l’Amazone. Des actions lancées en 2009 et en 2010, reprennent ces méthodes pour des cas d’application à un autre plateau continental, dans la région tropicale du nord de l’Australie, et pour des cas en zones littorales, en Guyane et aux îles Salomon. Les principaux résultats obtenus sont i) l’identification de changements dans la structure des peuplements de poissons de fond : l’analyse de l’évolution temporelle des caractéristiques des peuplements de fond notamment en terme de taille individuelle, de niveau trophique, d’affinité thermique des espèces (origine biogéographique) a montré l’existence d’effets conjoints de la pêche (sur-exploitation et effets écosystémiques) et des changements climatiques, en région tempérée comme en région tropicale ; ii) l’identification de changements dans la structure en espèce des débarquements des pêcheries à l’échelle des dernières décennies, ainsi que la diminution de leur valeur économique totale, à la fois conséquence des changements dans les peuplements mais conséquence aussi des changements intervenus dans les marchés internationaux des produits de la mer ; iii) Le poids des différents facteurs (pêche, climat, marchés…) est variable selon les cas d’étude, mais ceux qui sont décrits ici sont ceux, communs aux différents systèmes, qui semblent prépondérants ; iv) l’adaptation de modèles existants ainsi que le développement de nouveaux modèles maintenant opérationnels, depuis des échelles permettant une utilisation en terme d’expertise et de recommandation de gestion des pêcheries à court terme, jusqu’à des échelles permettant des projections exploratoires à long terme visant à comprendre les effets conjoints du climat, de la pêche et des marchés.