The EUNIS (European Union Nature Information System) habitat classification system aims to provide a common European reference set of habitat types within a hierarchical classification, and to cover all terrestrial, freshwater and marine habitats of Europe. The classification facilitates reporting of habitat data in a comparable manner, for use in nature conservation (e.g. inventories, monitoring and assessments), habitat mapping and environmental management. For the marine environment the importance of a univocal habitat classification system is confirmed by the fact that many European initiatives, aimed at marine mapping, assessment and reporting, are increasingly using EUNIS habitat categories and respective codes. For this reason substantial efforts have been made to include information on marine benthic habitats from different regions, aiming to provide a comprehensive geographical coverage of European seas. However, there still remain many concerns on its applicability as only a small fraction of Europe's seas are fully mapped and increasing knowledge and application raise further issues to be resolved. This paper presents an overview of the main discussion and conclusions of a workshop, organised by the MeshAtlantic project, focusing upon the experience in using the EUNIS habitats classification across different countries and seas, together with case studies. The aims of the meeting were to: (i) bring together scientists with experience in the use of the EUNIS marine classification and representatives from the European Environment Agency (EEA); (ii) agree on enhancements to EUNIS that ensure an improved representation of the European marine habitats; and (iii) establish practices that make marine habitat maps produced by scientists more consistent with the needs of managers and decision-makers. During the workshop challenges for the future development of EUNIS were identified, which have been classified into five categories: (1) structure and hierarchy; (2) biology; (3) terminology; (4) mapping; and (5) future development. The workshop ended with a declaration from the attendees, with recommendations to the EEA and European Topic Centre on Biological Diversity, to take into account the outputs of the workshop, which identify weaknesses in the current classification and include proposals for its modification, and to devise a process to further develop the marine component of the EUNIS habitat classification.
20Conservation of exploited fish populations is a priority for environmental managers. Spatio-21 temporal knowledge on reproductive sites is mandatory for species and habitat conservation but 22 is often difficult to assess, particularly over vast geographic areas. Regular and long-term 23 standardized surveys are necessary to identify reproductive sites, assess population trends and 24 their distribution. Here we emphasize the utility of Passive Acoustic Monitoring (PAM) for the 25 survey and management of a depleted vulnerable Mediterranean fish species, the brown meagre, 26 Sciaena umbra. Acoustic surveys of reproductive calls were conducted combining 1) spatial 27 data from standardized surveys within three MPAs and from 49 unprotected sites throughout 28 the Northwestern Mediterranean basin, as well as 2) temporal data from a two-year-long survey 29 at a presumed spawning location. The MPA surveys, which rapidly scanned ~30-50 km of the 30 rocky coastlines per MPA, unveiled maps of distribution and reproductive activity of the brown 31 meagre, including potential spawning sites. They were also effective in emphasizing effects 32 linked to management actions: Full-protection zones had a higher number of vocalizations (70% 33 of the listening sites) compared to less protected zones (30% of the sites) or sites outside MPAs 34 (45% of the sites). This was also reflected in the number of singers that was generally low (< 3 35 individuals) in less protected zones and outside MPAs, implying lower fish densities. Highest 36 calling aggregations were observed in potential spawning areas that represented only 0.04% of 37 all listening sites, and were almost all in older, fully protected MPAs, which thus play a key 38 role for fish stock recovery. The two-year survey revealed a 5-month reproductive season (from 39 May to October) with a strong positive correlation between calling activity and temperature.40Overall this study confirms the role of PAM as an efficient, replicable and standardized non-41 invasive method for population management that can identify functional sites and key 42 protection zones, provide valuable information on reproduction, spatial and temporal 43 occurrence, but also on population trends and climate-driven changes. 44 3 45 46
Imaging the marine environment is more and more useful to understand relationships between species, as well as natural processes. Developing photogrammetry allowed the use of 3D measuring to study populations dynamics of sessile organisms at various scales: from colony to population. This study focuses on red coral (Corallium rubrum), as known as precious coral. Metrics measured at a colony scale (e.g., maximum height, diameter and number of branches) allowed population understanding and a comparison between an old (Cerbère-Banyuls reserve) vs. a new (Calanques National Park) MPA. Our results suggested a 5-year time step allows the appearance of a significant difference between populations inside vs. outside the Calanques National Park no-take zones. Red coral colonies were taller and had more branches inside no-take zones. A significant difference was still observable for the populations inside the Cerbère-Banyuls reserve after 40 years of protection, reflecting the sustainability and effectiveness of precautionary measures set by the reserve. The impacts at the local level (mechanical destruction) and those presumed to occur via global change (climatic variations) underline the need to develop strategies both to follow the evolutions of red coral populations but also to understand their resilience. Photogrammetry induced modeling is a time and cost effective as well as non-invasive method which could be used to understand population dynamics at a seascape scale on coralligenous reefs.
As part of the Biodiversity Information System on Nature and Landscapes (SINP), the French National Museum of Natural History was appointed to develop biodiversity data exchange standards, with the goal of sharing French marine and terrestrial data nationally, meeting domestic and European requirements, e.g., the Infrastructure for spatial information in Europe Directive (INSPIRE Directive, European Commission 2007). Data standards are now recognised as useful to improve and share biodiversity knowledge (e.g., species distribution) and play a key role in data valorisation (e.g., vulnerability assessment, conservation policy). For example, in order to fulfill report obligations within the Fauna and Flora Habitats Directive (European Commission 1992), and the Marine Strategy Framework Directive (European Commission 2008), information about taxa and habitat occurrences are required periodically, involving data exchange and compilation at a national scale. National and international data exchange standards are focused on species, and only a few solutions exist when there is a need to deal with habitat data. Darwin Core has been built to fit with species data exchange needs and only contains one habitat attribute that allows for a bit of leeway to have such an information transfer, but is deemed to be one of the least standardized fields. However, Darwin Core does not allow for a transit of only habitat data, as the scientific name of the taxon is mandatory. The SINP standard for habitats was developed by a dedicated working group, representative of biodiversity European Commission 2008 stakeholders in France. This standard focuses on core attributes that characterize habitat observation and monitoring. Interoperability remains to be achieved with the Darwin Core standard, or something similar on a world scale (e.g., Humboldt Core), as habitat data are regularly gathered irrespective of whether taxon occurrences are associated with it. The results of the French initiative proved useful to compile and share data nationally, bringing together data providers that otherwise would have been excluded. However, at a global scale, it faces some challenges that still need to be fully addressed, interoperability being the main one. Regardless of the problems that remain to be solved, some lessons can be learnt from this effort. With the ultimate goal of making biodiversity data readily available, these lessons should be kept in mind for future initiatives. The presentation deals with how this work was undertaken and how the required elements could be integrated into a French national standard to allow for comprehensive habitat data reporting. It will show hypothesis as to what could be added to the Darwin Core to allow for a better understanding of habitats with at least one taxon attached (or not) to them.
IntroductionCoastal detrital bottoms (CDB) are one of the most extensive habitats of the continental shelf worldwide, in the upper levels of the circalittoral zone. Hosting a diverse community structured by sediment grain size, trophic interactions and calcified organisms, CDB exhibit important ecological functions. In the Mediterranean Sea, CDB are constituted by recent elements partly provided by adjacent infralittoral and circalittoral ecosystems. Since the 2010s, the offshore extension of many Marine Protected Areas (MPAs) has resulted in the incorporation of vast areas of CDB, raising the issue of their management. The Marine Strategy Framework Directive (MSFD) has embraced the concept of an ecosystem-based approach involving taking into account the functioning of marine habitats and their related ecosystem services. The purpose of this paper is to propose an ecosystem-based quality index (EBQI) tested on CDB from the north-western Mediterranean Sea, focusing mainly on epibenthic assemblages.MethodsThe first step has been to define a conceptual model of the CDB functioning, including the main trophic compartments and their relative weighting, then to identify appropriate assessment methods and potential descriptors. Twenty-nine sites were sampled along the coast of Provence and French Riviera (Southern France). Study sites were chosen with a view to encompassing a wide range of hydrological conditions and human pressures.ResultsVery well-preserved sites were found in Provence in areas without trawling and terrigenous inputs, while impacted and low-ES sites were located in the vicinity of urbanized areas. The cover of rhodoliths characterizes the seascape and might be an indicator of the good ES of CDB and reduced human pressure. However, the absence of rhodoliths may also be induced by natural phenomena.DiscussionThe EBQI designed for CDB proved representative and useful for a functional assessment based on epibenthic assemblages. However, some descriptors have shown their limitations and should be further explored. We highlight here the priority of establishing an index corresponding to a societal demand (e.g., European Directives, Barcelona convention) as a basis for a broad and large-scale assessment, for practical reasons. We stress the need to better apprehend the role of the macro-infauna and to extend this index over a wider geographical scale.
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