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2. Guidance on the monitoring of marine litter in European seas – An update to improve the harmonised monitoring of marine litter under the Marine Strategy Framework Directive.

Author

Galgani, François, Ruiz-Orejon, L.F., Ronchi, F., Tallec, K., Fischer, E.K., Matiddi, M., Anastasopoulou, A., Andresmaa, E., Angiolillo, M., Bakker Paiva, M., Booth, A.M., Buhhalko, M., Cadiou, B., Claro, F., Consoli, P., Darmon, G., Deudero, S., Fleet, D., Fortibuoni, T., Fossi, M.C., Gago, J., Gérigny, O., Giorgetti, A., González-Fernández, D., Guse, Nils, Haseler, Mirco, Ioakeimidis, Christos, Kammann, U., Kuhn, S., Lacroix, C., Lips, I., Loza, A.L., Molina Jack, M.E., Norén, K., Papadoyannakis, M., Pragnell-Raasch, Hannah, Rindorf, Anna, Ruiz, M., Setala, O., Schulz, M., Schultze, Martin, Silvestri, Cristoforo, Soederberg, L., Stoica, E., Storr-Paulsen, M., Strand, J., Valente, T., van Franeker, J.A., van Loon, W.M.G.M., Vighi, M., Vinci, M., Vlachogianni, T., Volckaert, A., Weiel, S., Wenneker, B., Werner, S., Zeri, C., Zorzo, P., Hanke, G., Galgani, François, Ruiz-Orejon, L.F., Ronchi, F., Tallec, K., Fischer, E.K., Matiddi, M., Anastasopoulou, A., Andresmaa, E., Angiolillo, M., Bakker Paiva, M., Booth, A.M., Buhhalko, M., Cadiou, B., Claro, F., Consoli, P., Darmon, G., Deudero, S., Fleet, D., Fortibuoni, T., Fossi, M.C., Gago, J., Gérigny, O., Giorgetti, A., González-Fernández, D., Guse, Nils, Haseler, Mirco, Ioakeimidis, Christos, Kammann, U., Kuhn, S., Lacroix, C., Lips, I., Loza, A.L., Molina Jack, M.E., Norén, K., Papadoyannakis, M., Pragnell-Raasch, Hannah, Rindorf, Anna, Ruiz, M., Setala, O., Schulz, M., Schultze, Martin, Silvestri, Cristoforo, Soederberg, L., Stoica, E., Storr-Paulsen, M., Strand, J., Valente, T., van Franeker, J.A., van Loon, W.M.G.M., Vighi, M., Vinci, M., Vlachogianni, T., Volckaert, A., Weiel, S., Wenneker, B., Werner, S., Zeri, C., Zorzo, P., and Hanke, G.

Abstract

The Marine Strategy Framework Directive (MSFD) Technical Group on Marine Litter developed the on monitoring of marine litter in European s in 2013 to enable EU Member States to launch monitoring programmes for MSFD Descriptor 10: no harm caused by marine litter . The maturity of methodological protocols for marine litter monitoring has increased over the last 10 years, based on research advances and M efforts.This document updates the previous guidance to facilitate the harmonisation of the monitoring framework for the MSFD, including protocols, recommendations, and information required to increase the comparability of data and assessments among Member States. The document comprises chapters dedicated to the protocols for monitoring marine litter across different marine environmental compartments (i.e. the coastline/beach, the surface layer of the water column, the seafloor/seabed) and types of litter (i.e. macro litter, mesolitter, microlitter, ingested litter and microlitter by biota, and entanglement with litter).

Published
2023

4. Age- and sex-specific settlement patterns of chamois (Rupicapra rupicapra) offspring

Author

Loison, A., Darmon, G., Cassar, S., Jullien, J.-M., and Maillard, D.

Subjects
Habitat selection -- Demographic aspects -- Behavior -- Physiological aspects, Animals -- Infancy, Spatial behavior in animals -- Evaluation -- Physiological aspects -- Behavior, Mountain goat -- Behavior -- Physiological aspects, Zoology and wildlife conservation, Evaluation, Physiological aspects, Behavior, Demographic aspects
Abstract

Abstract: The social, spatial, and genetic structures of populations depend on where offspring settle and reproduce in relation to their parent's home range. However, the patterns of settlement in wild [...]

Published
2008

5. Monitoring micro-litter ingestion in marine fish : A harmonized protocol for MSFD and RSCS areas: version 01

Author

Matiddi, M., Pham, Christopher K., Anastasopoulou, A., Andresmaa, E., Avio, C.G., Bianchi, J., Chaieb, O., Palazzolo, L., Darmon, G., de Lucia, G.A., Deudero, S., Sozbilen, D., Eriksson, J., Fischer, E., Gomez, M., Herrera, A., Hattia, E., Kaberi, H., Kaska, Y., Kuhn, S., Lips, I., Miaud, C., Gambaiani, D., Nelms, S., Piermarini, R., Regoli, F., Sbrana, A., Setala, O., Settiti, S., Soederberg, L., Tomas, J., Tsangaris, C., Vale, M., Valente, T., Silvestri, C., Matiddi, M., Pham, Christopher K., Anastasopoulou, A., Andresmaa, E., Avio, C.G., Bianchi, J., Chaieb, O., Palazzolo, L., Darmon, G., de Lucia, G.A., Deudero, S., Sozbilen, D., Eriksson, J., Fischer, E., Gomez, M., Herrera, A., Hattia, E., Kaberi, H., Kaska, Y., Kuhn, S., Lips, I., Miaud, C., Gambaiani, D., Nelms, S., Piermarini, R., Regoli, F., Sbrana, A., Setala, O., Settiti, S., Soederberg, L., Tomas, J., Tsangaris, C., Vale, M., Valente, T., and Silvestri, C.

Published
2021

7. for Good Environmental Status

Author

Matiddi, M, deLucia, GA, Silvestri, C, Darmon, G, Tomas, J, Pham, CK, Camedda, A, Vandeperre, F, Claro, F, Kaska, Y, Kaberi, H, Revuelta, O, Piermarini, R, Daffina, R, Pisapia, M, Genta, D, Sozbilen, D, Bradai, MN, Rodriguez, Y, Gambaiani, D, Tsangaris, C, Chaieb, O, Moussier, J, Loza, AL, and Miaud, C

Subjects
Environmental Sciences, Issue 147, Sea turtle, plastic ingestion, necropsy, marine litter, MSFD, EcAp process, good environmental status, thresholds
Abstract

The following protocol is intended to respond to the requirements set by the European Union's Marine Strategy Framework Directives (MSFD) for the D10C3 Criteria reported in the Commission Decision (EU), related to the amount of litter ingested by marine animals. Standardized methodologies for extracting litter items ingested from dead sea turtles along with guidelines on data analysis are provided. The protocol starts with the collection of dead sea turtles and classification of samples according to the decomposition status. Turtle necropsy must be performed in authorized centers and the protocol described here explains the best procedure for gastrointestinal (GI) tract isolation. The three parts of the GI (esophagus, stomach, intestine) should be separated, opened lengthways and contents filtered using a 1 mm mesh sieve. The article describes the classification and quantification of ingested litter, classifying GI contents into seven different categories of marine litter and two categories of natural remains. The quantity of ingested litter should be reported as total dry mass (weight in grams, with two decimal places) and abundance (number of items). The protocol proposes two possible scenarios to achieve the Good Environmental Status (GES). First: "There should be less than X% of sea turtles having Y g or more plastic in the GI in samples of 50-100 dead turtles from each sub-region", where Y is the average weight of plastic ingested and X% is the percentage of sea turtles with more weight (in grams) of plastic than Y. The second one, which considers the food remain versus plastic as a proxy of individual health, is: "There should be less than X% of sea turtles having more weight of plastic (in grams) than food remains in the GI in samples of 50-100 dead turtles from each sub-region". C1 [Matiddi, Marco; Silvestri, Cecilia; Piermarini, Raffaella; Daffina, Roberto; Pisapia, Marco; Genta, Daniela] Italian Natl Inst Environm Protect & Res ISPRA, Rome, Italy. [deLucia, Giuseppe A.; Camedda, Andrea] Inst Coastal Marine Environm Natl Res Council IAM, Rome, Italy. [Darmon, Gaelle; Gambaiani, Delphine; Miaud, Claude] Univ P Valery, PSL Res Univ, UMR 5175 CE3FE,EPHE, CNRS,UM,IRD,INRA,SupAgro,Biogeog & Ecol Vertebras, Montpellier, France. [Tomas, Jesus; Revuelta, Ohiana] Univ Valencia, Cavanilles Inst Biodivers & Evolutionary Biol, Valencia, Spain. [Pham, Christopher K.; Vandeperre, Frederic; Rodriguez, Yasmina] Univ Acores, Dept Oceanog & Pescas, Inst Mar Okeanos, Ponta Delgada, Portugal. [Vandeperre, Frederic] Univ Acores, MARE Marine & Environm Sci Ctr, Ponta Delgada, Portugal. [Claro, Francoise; Moussier, Judicaelle] Museum Natl Hist Nat, Paris, France. [Kaska, Yakup; Sozbilen, Dogan] Pamukkale Univ, Sea Turtle Res & Applicat Ctr DEKAMER, Pamukkale, Turkey. [Kaberi, Helen; Tsangaris, Catherine] Hellenic Ctr Marine Res, Inst Oceanografy, Anavyssos, Greece. [Bradai, Mohamed N.; Chaieb, Olfa] INSTM, Salammbo, Tunisia. [Loza, Ana L.] Univ Las Palmas Gran Canaria, Las Palmas Gran Canaria, Spain.

Published
2019

8. Do ecologically close species shift their daily activities when in sympatry? A test on chamois in the presence of mouflon

Author

Darmon, G., Bourgoin, G., Marchand, P., Garel, M., Dubray, D., Jullien, JM., Loison, A., Biodémographie évolutive, Département écologie évolutive [LBBE], Laboratoire de Biométrie et Biologie Evolutive - UMR 5558 (LBBE), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Recherche en Informatique et en Automatique (Inria)-VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS)-Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut National de Recherche en Informatique et en Automatique (Inria)-VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS)-Centre National de la Recherche Scientifique (CNRS)-Laboratoire de Biométrie et Biologie Evolutive - UMR 5558 (LBBE), and Université de Lyon-Université de Lyon-Institut National de Recherche en Informatique et en Automatique (Inria)-VetAgro Sup - Institut national d'enseignement supérieur et de recherche en alimentation, santé animale, sciences agronomiques et de l'environnement (VAS)-Centre National de la Recherche Scientifique (CNRS)

Subjects
[SDV]Life Sciences [q-bio]
Published
2014
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10. Drivers of litter ingestion by sea turtles: Three decades of empirical data collected in Atlantic Europe and the Mediterranean.

Author

Darmon G, Schulz M, Matiddi M, Loza AL, Tòmàs J, Camedda A, Chaieb O, El Hili HA, Bradai MN, Bray L, Claro F, Dellinger T, Dell'Amico F, de Lucia GA, Duncan EM, Gambaiani D, Godley B, Kaberi H, Kaska Y, Martin J, Moreira C, Ostiategui P, Pham CK, Piermarini R, Revuelta O, Rodríguez Y, Silvestri C, Snape R, Sozbilen D, Tsangaris C, Vale M, Vandeperre F, and Miaud C

Subjects
Animals, Plastics, Autopsy, Europe, Eating, Turtles
Abstract

Sea turtles are considered as bio-indicators for monitoring the efficiency of restoration measures to reduce marine litter impacts on health. However, the lack of extended and standardised empirical data has prevented the accurate analysis of the factors influencing litter ingestion and the relationships with individual health. Historic data collected from 1988 and standard data collected from 2016 were harmonised to enable such analyses on necropsied loggerhead turtles (Caretta caretta) in eight Mediterranean and North-East Atlantic countries. Litter was found in 69.24 % of the 1121 individuals, mostly single-use and fishing-related plastics. Spatial location, sex and life history stage explained a minor part of litter ingestion. While no relationships with health could be detected, indicating that all individuals can be integrated as bio-indicators, the mechanistic models published in literature suggest that the high proportion of plastics in the digestive contents (38.77 % per individual) could have long-term repercussions on population dynamics., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022. Published by Elsevier Ltd.)

Published
2022
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11. Data Collection on Marine Litter Ingestion in Sea Turtles and Thresholds for Good Environmental Status.

Author

Matiddi M, deLucia GA, Silvestri C, Darmon G, Tomás J, Pham CK, Camedda A, Vandeperre F, Claro F, Kaska Y, Kaberi H, Revuelta O, Piermarini R, Daffina R, Pisapia M, Genta D, Sözbilen D, Bradai MN, Rodríguez Y, Gambaiani D, Tsangaris C, Chaieb O, Moussier J, Loza AL, and Miaud C

Subjects
Animals, Eating, Gastrointestinal Tract physiology, Data Collection, Ecosystem, Environmental Monitoring, Turtles physiology
Abstract

The following protocol is intended to respond to the requirements set by the European Union's Marine Strategy Framework Directives (MSFD) for the D10C3 Criteria reported in the Commission Decision (EU), related to the amount of litter ingested by marine animals. Standardized methodologies for extracting litter items ingested from dead sea turtles along with guidelines on data analysis are provided. The protocol starts with the collection of dead sea turtles and classification of samples according to the decomposition status. Turtle necropsy must be performed in authorized centers and the protocol described here explains the best procedure for gastrointestinal (GI) tract isolation. The three parts of the GI (esophagus, stomach, intestine) should be separated, opened lengthways and contents filtered using a 1 mm mesh sieve. The article describes the classification and quantification of ingested litter, classifying GI contents into seven different categories of marine litter and two categories of natural remains. The quantity of ingested litter should be reported as total dry mass (weight in grams, with two decimal places) and abundance (number of items). The protocol proposes two possible scenarios to achieve the Good Environmental Status (GES). First: "There should be less than X% of sea turtles having Y g or more plastic in the GI in samples of 50-100 dead turtles from each sub-region", where Y is the average weight of plastic ingested and X% is the percentage of sea turtles with more weight (in grams) of plastic than Y. The second one, which considers the food remain versus plastic as a proxy of individual health, is: "There should be less than X% of sea turtles having more weight of plastic (in grams) than food remains in the GI in samples of 50-100 dead turtles from each sub-region".

Published
2019
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12. Intra- and interspecific differences in diet quality and composition in a large herbivore community.

Author

Redjadj C, Darmon G, Maillard D, Chevrier T, Bastianelli D, Verheyden H, Loison A, and Saïd S

Subjects
Animals, Body Mass Index, Diet methods, Ecosystem, Feeding Behavior physiology, Poaceae, Residence Characteristics, Seasons, Species Specificity, Deer physiology, Herbivory physiology
Abstract

Species diversity in large herbivore communities is often explained by niche segregation allowed by differences in body mass and digestive morphophysiological features. Based on large number of gut samples in fall and winter, we analysed the temporal dynamics of diet composition, quality and interspecific overlap of 4 coexisting mountain herbivores. We tested whether the relative consumption of grass and browse differed among species of different rumen types (moose-type and intermediate-type), whether diet was of lower quality for the largest species, whether we could identify plant species which determined diet quality, and whether these plants, which could be "key-food-resources" were similar for all herbivores. Our analyses revealed that (1) body mass and rumen types were overall poor predictors of diet composition and quality, although the roe deer, a species with a moose-type rumen was confirmed as an "obligatory non grazer", while red deer, the largest species, had the most lignified diet; (2) diet overlap among herbivores was well predicted by rumen type (high among species of intermediate types only), when measured over broad plant groups, (3) the relationship between diet composition and quality differed among herbivore species, and the actual plant species used during winter which determined the diet quality, was herbivore species-specific. Even if diets overlapped to a great extent, the species-specific relationships between diet composition and quality suggest that herbivores may select different plant species within similar plant group types, or different plant parts and that this, along with other behavioural mechanisms of ecological niche segregation, may contribute to the coexistence of large herbivores of relatively similar body mass, as observed in mountain ecosystems.

Published
2014
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