about
Does aquaculture add resilience to the global food system?To what extent do food preferences explain the trophic position of heterotrophic and mixotrophic microbial consumers in a Sphagnum peatland?Meeting the food and nutrition needs of the poor: the role of fish and the opportunities and challenges emerging from the rise of aquaculture.Prawn biomonitors of nutrient and trace metal pollution along Asia-Pacific coastlines.Trophic transfer of essential elements in the clownfish Amphiprion ocellaris in the context of ocean acidification.First description of the neuro-anatomy of a larval coral reef fish Amphiprion ocellaris.Aquatic live animal radiotracing studies for ecotoxicological applications: Addressing fundamental methodological deficiencies.Trophic transfer of 134Cs in the Manila clam Ruditapes philippinarum.Influence of food on the assimilation of selected metals in tropical bivalves from the New Caledonia lagoon: qualitative and quantitative aspects.Metal and metalloid bioconcentration capacity of two tropical bivalves for monitoring the impact of land-based mining activities in the New Caledonia lagoon.Delineation of heavy metal contamination pathways (seawater, food and sediment) in tropical oysters from New Caledonia using radiotracer techniques.Allometric relationships in the bioconcentration of heavy metals by the edible tropical clam Gafrarium tumidum.Bioconcentration of Ag, Cd, Co, Mn and Zn in the Mangrove Oyster (Crassostrea gasar) and Preliminary Human Health Risk Assessment: A Radiotracer Study.Differential bioaccumulation of (134)Cs in tropical marine organisms and the relative importance of exposure pathways.The tropical brown alga Lobophora variegata (Lamouroux) Womersley: a prospective bioindicator for Ag contamination in tropical coastal waters.Accumulation of nine metals and one metalloid in the tropical scallop Comptopallium radula from coral reefs in New Caledonia.Comparing single-feeding and multi-feeding approaches for experimentally assessing trophic transfer of metals in fish.210Po bioaccumulation and trophic transfer in marine food chains in the northern Arabian Gulf.Seasonal survey of contaminants (Cd and Hg) and micronutrients (Cu and Zn) in edible tissues of cephalopods from Tunisia: assessment of risk and nutritional benefits.Gills as a glutathione-dependent metabolic barrier in Pacific oysters Crassostrea gigas: Absorption, metabolism and excretion of a model electrophile.Delineation of ¹³⁴Cs uptake pathways (seawater and food) in the variegated scallop Mimachlamys varia.Trace element bioaccumulation in reef fish from New Caledonia: influence of trophic groups and risk assessment for consumers.Aquaculture feed and food safety.Dietary Zn and the subsequent organotropism in fish: No influence of food quality, frequency of feeding and environmental conditions (pH and temperature).Fishing for feed or fishing for food: increasing global competition for small pelagic forage fish.Trophic transfer of (110m)Ag in the turbot Scophthalmus maximus through natural prey and compounded feed.Interspecific and geographical variations of trace metal concentrations in cephalopods from Tunisian waters.Investigations of temperature and pH variations on metal trophic transfer in turbot (Scophthalmus maximus).Metal and metalloid bioaccumulation in the Pacific blue shrimp Litopenaeus stylirostris (Stimpson) from New Caledonia: laboratory and field studies.An ocean of surprises – Trends in human use, unexpected dynamics and governance challenges in areas beyond national jurisdictionMetal bioconcentration in the scleractinian coral Stylophora pistillata: investigating the role of different components of the holobiont using radiotracersThree necessary conditions for establishing effective Sustainable Development Goals in the AnthropoceneComparative study of trophic transfer of the essential metals Co and Zn in two tropical fish: A radiotracer approachInfluence of food on the assimilation of essential elements (Co, Mn, and Zn) by turbot Scophthalmus maximusCharacterization of 241Am and 134Cs bioaccumulation in the king scallop Pecten maximus: investigation via three exposure pathwaysAssessment of metal, metalloid, and radionuclide bioaccessibility from mussels to human consumers, using centrifugation and simulated digestion methods coupled with radiotracer techniquesBioaccumulation of essential metals (Co, Mn and Zn) in the king scallop Pecten maximus: seawater, food and sediment exposuresBiokinetics of Hg and Pb accumulation in the encapsulated egg of the common cuttlefish Sepia officinalis: Radiotracer experimentsDelineation of Pb contamination pathways in two Pectinidae: The variegated scallop Chlamys varia and the king scallop Pecten maximusDelineation of heavy metal uptake pathways (seawater and food) in the variegated scallop Chlamys varia, using radiotracer techniques
P50
Q30587342-DA30AD1C-AF92-4732-A871-89EA97E653E0Q31122793-021D0B79-0732-4DBB-B59A-16B50547754DQ34819598-E1B13A31-A191-443D-BEFA-89A3EBD7CD79Q35959741-3AF25046-5800-499A-82AD-9784210D020BQ36343422-F867BB78-F532-492A-8750-AB366ECA8325Q38408703-3BBB6BBB-998D-46A9-B0DE-A8BBFAEB6EBBQ38669192-40924266-4BCC-4E8A-8306-222DA1A330A0Q38689205-F352EC02-0EBC-4263-A513-88B45095081BQ39090697-92FD1B66-D74C-4967-910D-5548838CB391Q39090704-6F82D71D-0248-4A51-B5BF-71BDEF14555CQ39090709-14D84C10-35B8-46C1-B635-50893FEB1CB4Q39090728-76D3A7AD-95FA-4BC6-B2E9-F7B191A3B5ADQ39152835-8BAEDFC6-0970-46A7-AAC0-188524AADBBAQ39247672-D3E7EA4C-3B7F-4366-B379-167112E3AFAFQ39247678-63D9BA2E-2A5E-424D-837A-6594914FADC8Q39247681-A39E6A1B-BB3D-4FF3-9896-F7571E53EE12Q39321691-C7F549C1-7908-48EB-BB1A-429A2CA48792Q39350001-6762591F-9428-4D8A-A9B1-8D958ABD21ABQ39401145-EE0A0785-9608-4E4D-A8EE-E784DCBD0BDEQ40010986-4C733431-EEDD-427F-AD87-B1D2ADB7B665Q40777134-FD91F927-925F-4E84-BB80-6B297BA5B614Q45363726-C2280138-D374-4DCB-B432-6678A3B7E354Q46258362-C6C098A0-CEEE-46BC-9499-1C5BFD3B3F4CQ46357861-BE09E1B9-A115-4B33-8F6C-9BF09497A138Q46563678-C219E36C-EFA0-40E6-89E2-FE7EEE81B326Q46672808-E55639BB-B221-45FD-99F8-134D39122AE9Q46928475-8CA4B877-E8F6-4316-A4D2-C53970EC3C3BQ48045376-93010C82-2DC6-42B7-AC3D-3CC15FCD0BB7Q50443559-04DE0F76-0588-47D3-869F-E3C3FDA5C032Q58383413-1960EEE9-7320-47E6-A301-A5ADEC65365CQ60302906-EE5F3A54-29EC-45A3-BD0E-DF709185A5F7Q60536146-2D2E3ABE-E583-4B43-B2B8-1C4189934B77Q62568996-9FDAD987-1FD6-4B9D-BC4B-021A8639C199Q62569004-4445606E-4578-49D8-9BD5-BF3AE9871D1AQ62569021-1095229B-3EE0-4A4D-9BB2-C6CFFBB17B16Q62569027-AABBB6E7-49B0-4FF8-8DA5-E2756AB0063FQ62569028-D6D88063-5D78-4442-9343-05DC5EE5CECFQ62569030-8E84ACF4-C027-42D3-9911-2BEA95D7A3EAQ62569031-4BBFDC7C-2E5D-41F9-84CE-D982E6B7B454Q62569032-CD45EED6-988E-4657-A435-0FC1A00A2B3A
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Marc Metian
@ast
Marc Metian
@en
Marc Metian
@es
Marc Metian
@nl
type
label
Marc Metian
@ast
Marc Metian
@en
Marc Metian
@es
Marc Metian
@nl
prefLabel
Marc Metian
@ast
Marc Metian
@en
Marc Metian
@es
Marc Metian
@nl
P106
P1153
13402858200
P21
P31
P496
0000-0003-1485-5029