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Paradigm of a religious composer of the Hispanic Eighteenth Century, the Catalan Francisco Andreví (*1786; †1853) probably has been —and perhaps till very recently— one of those who has suffered the most from the prejudices of later historiography. "Militant" priest associated with the most radical and conservative environment of the first Carlism —which led him into exile— his abundant production has not yet deserved a single monographic audio record. And all this, in spite of the enormous social visibility that he reached at the time, like maestro de capilla of the Spanish Royal Chapel and active musician in the Paris of Berlioz, Cherubini and many others. In his facet as a composer, he won all the oppositions he attended (Segorbe, Santa Maria del Mar, the cathedrals of Valencia and Seville, the Spanish Royal Chapel or, in his last stage, the church of Our Lady of Mercy in Barcelona). In the meantime, during his stay in France, he ruled the musical magisterium of the cathedral of Bordeaux, and then the organ of the Parisian church of Saint Pierre de Chaillot. But, as a man of his time, not only devoted himself to religious music, but also cultivated instrumental music (orchestral and chamber music), frequenting the halls and theatres both in Madrid and Paris, and teaching classes in the first conservatory of Madrid. A friend of Rossini, who later became interested in him, the author of operas Auber praised in writing his well-known Treatise on Composition, published in Madrid, Barcelona and Paris, which was considered as an academic model by Spanish creators until the end of the 19th century. But over time, he was unjustly seen as an example of a type of Spanish music self-indulgent and debtor of the Italian opera, being relegated to oblivion. The attractiveness of his career and his "politically incorrect" professional profile mean that today, from the most strict and dispassionate historical and musicological positioning, it is now possible to review his contribution to the international musical scene of the ...

10 pages, 6 figures, 1 table, supplementary data https://doi.org/10.1016/j.marpolbul.2020.111399 ; We quantified the incidence of microplastics in the gut contents of the European sardine (Sardina pilchardus) and anchovy (Engraulis encrasicolus) in the Northwestern Mediterranean Sea and tested which variables influence this abundance, including the prevalence of parasites (i.e., trematoda larvae and nematodes). We detected a 58% occurrence of microplastics ingestion in sardines and a 60% in anchovies. With respect to sardines, the individuals with lower body conditions were found to have the highest microplastics ingestion probabilities, whereas in anchovies such probabilities were observed in individuals with higher gonadosomatic indices and smaller size. The areas with the highest microplastics ingestion probabilities were the Gulf of Alicante for sardines and the Gulf of Lion - Ebro Delta for anchovies. Both species showed a positive relationship between parasites and microplastics ingestion. These results highlight that both parasitism and ingestion of microplastics are concerns for the health of marine stocks and human consumers ; This study was carried out within PELWEB (CTM2017-88939-R) and PELCAT (CAT 152CAT00013, TAIS ARP059/19/00005) projects. [.] MEDITS data collection has been co-funded by the EU through the European Maritime and Fisheries Fund (EMFF) within the National Program of collection, management and use of data in the fisheries sector and support for scientific advice regarding the Common Fisheries Policy ; Peer reviewed

10 pages, 4 figures, 2 tables, supplementary data https://doi.org/10.1016/j.envpol.2021.118377 ; Concentrations of organophosphate esters (OPEs) plasticizers were analysed in the present study. Fifty-five fish samples belonging to three highly commercial species, European sardine (Sardina pilchardus), European anchovy (Engraulis encrasicolus), and European hake (Merluccius merluccius), were taken from the Western Mediterranean Sea. OPEs were detected in all individuals, except for two hake samples, with concentrations between 0.38 and 73.4 ng/g wet weight (ww). Sardines presented the highest mean value with 20.5 ± 20.1 ng/g ww, followed by anchovies with 14.1 ± 8.91 ng/g ww and hake with 2.48 ± 1.76 ng/g ww. The lowest OPE concentrations found in hake, which is a partial predator of anchovy and sardine, and the higher δ15N values (as a proxy of trophic position), may indicate the absence of OPEs biomagnification. Eleven out of thirteen tested OPEs compounds were detected, being diphenyl cresyl phosphate (DCP) one of the most frequently detected in all the species. The highest concentration values were obtained for tris(1,3-dichloro-2-propyl) phosphate (TDClPP), trihexyl phosphate (THP), and tris(2-butoxyethyl) phosphate (TBOEP), for sardines, anchovies, and hakes, respectively. The human health risk associated with the consumption of these fish species showing that their individual consumption would not pose a considerable threat to public health regarding OPE intake ; This study has been partially funded by PELCAT project (CAT 152CAT00013, TAIS ARP059/19/00005), PELWEB project (ES-PN-2017-CTM 2017-88939-R, Spanish Government), EXPOPLAS project (PID2019-110576RB-I00), Spanish Ministry of Science and Innovation) and the Generalitat de Catalunya (Consolidated Research Group Water and Soil Quality Unit 2017 SGR 1404). MEDITS data collection has been co-funded by the EU through the European Maritime and Fisheries Fund (EMFF) within the National Program of collection, management and use of data in the fisheries sector and support for scientific advice regarding the Common Fisheries Policy. [.] This work acknowledges the 'Severo Ochoa Centre of Excellence' accreditations (Spanish Ministry of Science and Innovation to IDAEA and ICM (Project CEX2018-000794-S and CEX2019-000928-S, respectively).EL-L was supported by a FPU grant (FPU1704395, Spanish Ministry of Education) ; Peer reviewed

20 pages, 15 figures, supplementary material https://www.frontiersin.org/articles/10.3389/fmars.2020.00622/full#supplementary-material ; In the Northwestern Mediterranean Sea, the European sardine (Sardina pilchardus) and the European anchovy (Engraulis encrasicolus) are the most important small pelagic fish in terms of biomass and commercial interest. During the last years, these species have experimented changes in their abundance and biomass trends in the Northwestern Mediterranean Sea, in addition to changes in growth, reproduction and body condition. These species are particularly sensitive to environmental fluctuations with possible cascading effects as they play a key role in connecting the lower and upper trophic levels of marine food webs. It is therefore essential to understand the factors that most profoundly affect sardine and anchovy dynamics. This study used a two-step approach to understand how the environment influences the adult stages of these species in the Northwestern Mediterranean Sea. First, we explored the effects of environmental change over time using Random Forests and available datasets of species occurrence, abundance, biomass and landings. We then applied species distribution models to test the impact of the extreme pessimistic and optimistic Intergovernmental Panel on Climate Change (IPCC) pathway scenarios, and to identify possible climate refuges: areas where these species may be able to persist under future environmental change. Findings from the temporal modeling showed mixed effects between environmental variables and for anchovy and sardine datasets. Future pathway projections highlight that both anchovy and sardine will undergo a reduction in their spatial distributions due to future climate conditions. The future climate refuges are the waters around the Rhone River (France) and the Ebro River (Spain) for both species. This study also highlights important knowledge gaps in our understanding of the dynamics of small pelagic fish in the region, which is needed to progress towards an ecosystem approach to fisheries management ; This study was carried out within the Spanish Research project PELWEB (CTM2017-88939-R) funded by the Spanish Ministry of Science, Innovation and Universities, the European Research Contract SPELMED (EASME/EMFF/2016/032) funded by the ECEASME and the Catalonian Government PELCAT projects (CAT 152CAT00013 and TAIS ARP059/19/00005) ; Peer reviewed

14 pages, 7 figures, 4 tables, supplementary data https://doi.org/10.1016/j.ecolind.2022.108674 ; The Mediterranean Sea is a large marine ecosystem with high heterogeneity in both environmental and ecological characteristics. It presents clear gradients from north to south and west to east. It is also an important area in terms of biodiversity and conservation of vulnerable species, and it suffers from several cumulative human impacts, such as fishing and climate change. Previous studies have characterized spatial and temporal patterns of species distributions and biodiversity indicators. However, a comprehensive analysis combining a wide representation of biodiversity indicators is still missing. In this study, we examined spatial and temporal changes of marine communities along a latitudinal gradient over the continental shelf ecosystems (25–500 m depth) of the Western Mediterranean Sea, from the Gulf of Lion in the north to the Gibraltar Strait in the south. We used information from the MEDITS trawl scientific surveys from 1994 to 2018, and we calculated relevant indicators to investigate spatial and temporal patterns in the region. We selected several indicators measuring alpha (species richness, Shannon diversity index and Pielou evenness index) and beta (decomposing both turnover and nestedness) diversity, as well as previously studied indicators identified to be sensitive to fishing and climate change impacts (biomass-based and trophic-level based metrics). We assessed differences in these indicators for the surveyed community as a whole and for fish, crustaceans and cephalopods, separately, over five regions. Our results show clear latitudinal gradients in some indicators: we observe a reversed pattern between richness (decreasing from south to north) and biomass trends (increasing from south to north) for the demersal community. We also found a generalized increase in β-diversity in most regions with time, and a decline in the trophic level of the surveyed community. In addition, we identify a remarkable increase in several indicators when only considering the cephalopods group, and a general low environmental status for the North Catalan Sea. We discuss our results considering the differences between regions and taxa related to the fishing activity and environmental dynamics that can act at different scales. This in-depth analysis illustrates how to use a selection of indicators that combine the capacity to detect ecological changes from regional to sub-regional scales ; The authors thank all the participants in the MEDITS surveys. All MEDITS surveys are funded by the European Commission (EU) through the European Maritime and Fisheries Fund (EMFF) within the National Program of Data Collection Framework (DCF), management and use of data in the fisheries sector and support for scientific advice regarding the Common Fisheries Policy. Funding: This study was partially funded by the European Union's Horizon 2020 research and innovation programme under grant agreement No a (FutureMARES). C. Veloy's contribution was supported by a PhD fellowship from the Spanish Ministry of Education (FPU18/05594) and the University of Barcelona. This work acknowledges the 'Severo Ochoa Centre of Excellence' accreditation (CEX2019-000928-S). MH and MC also acknowledge support from the COCOCHA project (PID2019-110282RA-I00, Spanish Ministry of Science and Innovation) ; Peer reviewed

17 pages, 7 figures, 3 tables, supporting Information https://doi.org/10.1002/ece3.8293.-- Data availability statement: All the DNA metabarcoding raw reads of prey species obtained from the stomach contents were deposited in the BioProject database (Gen-Bank, NCBI, 1988) as BioProject PRJNA653773. All other data used in the manuscript are included in the manuscript or as Supporting Information ; The northward expansion of round sardinella (Sardinella aurita) in the Mediterranean Sea, together with declines and fluctuations in biomass and landings of European sardine (Sardina pilchardus) and anchovy (Engraulis encrasicolus) observed in recent decades, may suggest potential inter-specific competition in the pelagic domain. The coexistence of sympatric zooplanktivorous fish species might therefore be exposed in part to trophic niche overlap and competition for food. Combining visual diet characterization under the microscope with DNA metabarcoding from stomach contents of fish collected in spring results show that predation on relatively large krill is equally important for sardinella than for the other two niche overlapping species. Furthermore, an important overlap is found in their isotopic niche, especially with anchovy, using nitrogen (δ15N) and carbon (δ13C) stable isotopes in muscle tissue. In fact, the three fish species are able to feed effectively in the whole prey size spectrum available during the sampled season, from the smallest diatoms and copepods to the larger prey (i.e., decapods and euphausiids), including fish larvae. Moreover, effective predation upon other large prey like siphonophores, which is observed only when multi-proxy analyses in stomach contents are applied, might also be relevant in the diet of sardinella. The overlapping diet composition in spring, together with the effective use of food resource by sardinella, can be of special interest in potential future scenarios with warmer water temperature leading to lower zooplankton and/or higher jellyfish availability, where sardinella may take advantage over other species due to its feeding plasticity ; This study was partially funded by the projects PELWEB (ES-PN-2017-CTM 2017-88939-R) and PELCAT (CAT 152CAT00013, TAIS ARP059/19/00005). MEDITS data collection has been co-funded by the EU through the European Maritime and Fisheries Fund (EMFF) within the National Program of collection, management, and use of data in the fisheries sector and support for scientific advice regarding the Common Fisheries Policy. This work acknowledges the "Severo Ochoa Centre of Excellence" accreditation (CEX2019-000928-S) to the Institute of Marine Science (ICM-CSIC) ; Peer reviewed

International audience ; Independence of science and best available science are fundamental pillars of the UN-FAO code of conduct 41 for responsible fisheries and are also applied to the European Union (EU) Common Fishery Policy (CFP), 42 with the overarching objective being the sustainable exploitation of the fisheries resources. CFP is 43 developed by DG MARE, the department of the European Commission responsible for EU policy on 44 maritime affairs and fisheries, which has the Scientific, Technical and Economic Committee for Fisheries 45 (STECF) as consultant body. In the Mediterranean and Black Sea, the General Fisheries Commission for the 46 Mediterranean (FAO-GFCM), with its own Scientific Advisory Committee on Fisheries (GFCM-SAC), plays a 47 critical role in fisheries governance, having the authority to adopt binding recommendations for fisheries 48 conservation and management. During the last years, advice on the status of the main stocks in the 49 Mediterranean and Black Sea has been provided both by GFCM-SAC and EU-STECF, often without a clear 50coordination and a lack of shared rules and practices. This has led in the past to: i) duplications of the 51 advice on the status of the stocks thus adding confusion in the management process and, ii) a continuous 52 managers' interference in the scientific process by DG MARE officials hindering its transparency and 53 independence. Thus, it is imperative that this stalemate is rapidly resolved and that the free role of science 54 in Mediterranean fisheries assessment and management is urgently restored to assure the sustainable 55 exploitation of Mediterranean marine resources in the future.

International audience ; Independence of science and best available science are fundamental pillars of the UN-FAO code of conduct 41 for responsible fisheries and are also applied to the European Union (EU) Common Fishery Policy (CFP), 42 with the overarching objective being the sustainable exploitation of the fisheries resources. CFP is 43 developed by DG MARE, the department of the European Commission responsible for EU policy on 44 maritime affairs and fisheries, which has the Scientific, Technical and Economic Committee for Fisheries 45 (STECF) as consultant body. In the Mediterranean and Black Sea, the General Fisheries Commission for the 46 Mediterranean (FAO-GFCM), with its own Scientific Advisory Committee on Fisheries (GFCM-SAC), plays a 47 critical role in fisheries governance, having the authority to adopt binding recommendations for fisheries 48 conservation and management. During the last years, advice on the status of the main stocks in the 49 Mediterranean and Black Sea has been provided both by GFCM-SAC and EU-STECF, often without a clear 50coordination and a lack of shared rules and practices. This has led in the past to: i) duplications of the 51 advice on the status of the stocks thus adding confusion in the management process and, ii) a continuous 52 managers' interference in the scientific process by DG MARE officials hindering its transparency and 53 independence. Thus, it is imperative that this stalemate is rapidly resolved and that the free role of science 54 in Mediterranean fisheries assessment and management is urgently restored to assure the sustainable 55 exploitation of Mediterranean marine resources in the future.

International audience ; Independence of science and best available science are fundamental pillars of the UN-FAO code of conduct 41 for responsible fisheries and are also applied to the European Union (EU) Common Fishery Policy (CFP), 42 with the overarching objective being the sustainable exploitation of the fisheries resources. CFP is 43 developed by DG MARE, the department of the European Commission responsible for EU policy on 44 maritime affairs and fisheries, which has the Scientific, Technical and Economic Committee for Fisheries 45 (STECF) as consultant body. In the Mediterranean and Black Sea, the General Fisheries Commission for the 46 Mediterranean (FAO-GFCM), with its own Scientific Advisory Committee on Fisheries (GFCM-SAC), plays a 47 critical role in fisheries governance, having the authority to adopt binding recommendations for fisheries 48 conservation and management. During the last years, advice on the status of the main stocks in the 49 Mediterranean and Black Sea has been provided both by GFCM-SAC and EU-STECF, often without a clear 50coordination and a lack of shared rules and practices. This has led in the past to: i) duplications of the 51 advice on the status of the stocks thus adding confusion in the management process and, ii) a continuous 52 managers' interference in the scientific process by DG MARE officials hindering its transparency and 53 independence. Thus, it is imperative that this stalemate is rapidly resolved and that the free role of science 54 in Mediterranean fisheries assessment and management is urgently restored to assure the sustainable 55 exploitation of Mediterranean marine resources in the future.

International audience Independence of science and best available science are fundamental pillars of the UN-FAO code of conduct 41 for responsible fisheries and are also applied to the European Union (EU) Common Fishery Policy (CFP), 42 with the overarching objective being the sustainable exploitation of the fisheries resources. CFP is 43 developed by DG MARE, the department of the European Commission responsible for EU policy on 44 maritime affairs and fisheries, which has the Scientific, Technical and Economic Committee for Fisheries 45 (STECF) as consultant body. In the Mediterranean and Black Sea, the General Fisheries Commission for the 46 Mediterranean (FAO-GFCM), with its own Scientific Advisory Committee on Fisheries (GFCM-SAC), plays a 47 critical role in fisheries governance, having the authority to adopt binding recommendations for fisheries 48 conservation and management. During the last years, advice on the status of the main stocks in the 49 Mediterranean and Black Sea has been provided both by GFCM-SAC and EU-STECF, often without a clear 50coordination and a lack of shared rules and practices. This has led in the past to: i) duplications of the 51 advice on the status of the stocks thus adding confusion in the management process and, ii) a continuous 52 managers' interference in the scientific process by DG MARE officials hindering its transparency and 53 independence. Thus, it is imperative that this stalemate is rapidly resolved and that the free role of science 54 in Mediterranean fisheries assessment and management is urgently restored to assure the sustainable 55 exploitation of Mediterranean marine resources in the future.