E. P. Anderson, C. N. Jenkins, S. Heilpern, J. A. Maldonado-ocampo, F. M. Carvajal-vallejos et al., Fragmentation of Andes-toAmazon connectivity by hydropower dams, Sci. Adv, vol.4, p.1642, 2018.

K. A. Anderson, K. A. Hobbie, and B. W. Smith, Chemical profiling with modeling differentiates wild and farmraised salmon, J. Agr. Food Chem, vol.58, pp.11768-11774, 2010.

C. C. Arantes, L. Castello, D. J. Stewart, M. Cetra, and H. L. Queiroz, Population density, growth and reproduction of arapaima in an Amazonian river-floodplain, Ecol. Freshw. Fish, vol.19, pp.455-465, 2010.

J. Araripe, P. S. Rêgo, . Do, H. Queiroz, I. Sampaio et al., Dispersal Capacity and Genetic Structure of Arapaima gigas on Different Geographic Scales Using Microsatellite Markers, PLoS One, vol.8, p.54470, 2013.

C. A. Araujo-lima, B. R. Forsberg, R. Victoria, and L. Martinelli, Energy sources for detritivorous fish in the Amazon, Science, vol.234, pp.1256-1258, 1986.

C. Baffi, P. Trincherini, A. Barats, C. Pécheyran, D. Amouroux et al., Matrix-matched quantitative analysis of trace-elements in calcium carbonate shells by laserablation ICP-MS: application to the determination of daily scale profiles in scallop shell (Pecten maximus), Food traceability using the 87 Sr/ 86 Sr isotopic ratio mass spectrometry, vol.242, pp.1131-1140, 2007.

R. Barnett-johnson, T. E. Pearson, F. C. Ramos, C. B. Grimes, and R. B. Macfarlane, Tracking natal origins of salmon using isotopes, otoliths, and landscape geology, Limnol. Oceanogr, vol.53, pp.1633-1642, 2008.

R. Barnett-johnson, D. J. Teel, and E. Casillas, Genetic and otolith isotopic markers identify salmon populations in the Columbia River at broad and fine geographic scales, Environ. Biol. Fish, vol.89, pp.533-546, 2010.

J. G. Bell, T. Preston, R. J. Henderson, F. Strachan, J. E. Bron et al., Discrimination of wild and cultured European sea bass (Dicentrarchus labrax) using chemical and isotopic analyses, J. Agr. Food Chem, vol.55, pp.5934-5941, 2007.

S. R. Brennan and D. E. Schindler, Linking otolith microchemistry and dendritic isoscapes to map heterogeneous production of fish across river basins, Ecol. Appl, vol.27, pp.363-377, 2017.

S. Campana, Chemistry and composition of fish otoliths:pathways, mechanisms and applications, Mar. Ecol. Prog. Ser, vol.188, pp.263-297, 1999.

J. Carnicer, J. Sardans, C. Stefanescu, A. Ubach, M. Bartrons et al., The biodiversity of species and their rates of extinction, distribution, and protection, Science, vol.344, p.1246752, 2015.

F. Carvalho, M. Power, B. R. Forsberg, L. Castello, E. G. Martins et al., Trophic Ecology of Arapaima sp. in a ria lake -river-floodplain transition zone of the Amazon, Ecol. Freshw. Fish, vol.27, pp.237-246, 2018.

L. Castello, A method to count pirarucu Arapaima gigas: fishers, assessment, and management, North Am, J. Fish. Manag, vol.24, pp.379-389, 2004.

L. Castello, Lateral migration of Arapaima gigas in floodplains of the Amazon, Ecol. Freshw. Fish, vol.17, pp.38-46, 2008.

L. Castello and M. N. Macedo, Large-scale degradation of Amazonian freshwater ecosystems, Glob. Change Biol, vol.22, pp.990-1007, 2016.

L. Castello, D. G. Mcgrath, L. L. Hess, M. T. Coe, P. A. Lefebvre et al., The vulnerability of Amazon freshwater ecosystems, Conserv. Lett, vol.6, pp.217-229, 2013.

F. Claverie, B. Fernández, C. Pécheyran, J. Alexis, and O. F. Donard, Elemental fractionation effects in high repetition rate IR femtosecond laser ablation ICP-MS analysis of glasses, J. Anal. Atom. Spectrom, vol.24, pp.849-988, 2009.
URL : https://hal.archives-ouvertes.fr/hal-01590313

B. H. Comyns, C. F. Rakocinski, M. S. Peterson, and A. M. Shiller, Otolith chemistry of juvenile spotted seatrout Cynoscion nebulosus reflects local natal regions of coastal Mississippi, USA, Mar. Ecol. Prog. Ser, vol.371, pp.243-252, 2008.

M. J. Deniro and S. Epstein, Influence of diet on the distribution of carbon isotopes in animals, Geochim. Cosmochim. Ac, vol.42, pp.495-506, 1978.

T. F. Domingues, N. M. Crossa, J. P. Ometto, L. A. Martinelli, and J. R. Ehleringer, Feeding history assessed from scales of two Amazonian fish using Carbon and Nitrogen stable isotopes, 2006.

F. Duponchelle, M. Pouilly, C. Pécheyran, M. Hauser, J. Renno et al., Trans-Amazonian natal homing in giant catfish, J. Appl. Ecol, vol.53, pp.1511-1520, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01308113

T. A. Feio and G. Mendes, Commercialization of Fish at the Fairs of Manaus, Amazonia, During the Closed and Unclosed Seasons, Agr. Biol. Sci. J, vol.3, pp.7-11, 2017.

E. S. Figueiredo, M. Jenkins, and C. N. , Proliferation of hydroelectric dams in the andean amazon and implications for andes-amazon connectivity, Biologia, conservação e manejo participativo de pirarucus na Pan -Amazônia, vol.278, 2012.

B. R. Forsberg, C. A. Araujo-lima, L. A. Martinelli, R. L. Victoria, and J. A. Bonassi, Autotrophic carbon sources for fish of the central Amazon, Ecology, vol.74, pp.643-652, 1993.

B. R. Forsberg, J. M. Melack, T. Dunne, R. B. Barthem, M. Goulding et al., The potential impact of new Andean dams on Amazon fluvial ecosystems, vol.12, pp.643-652, 2017.

J. Gaillardet, B. Dupré, C. J. Allegre, and P. Négrel, Chemical and physical denudation in the Amazon River Basin, Chem. Geol, vol.142, pp.141-173, 1997.

R. C. Garcez, R. Humston, D. Harbor, and C. E. Freitas, Otolith geochemistry in young-of-the-year peacock bass Cichla temensis for investigating natal dispersal in the Rio Negro (Amazon -Brazil) river system, Ecol. Freshw. Fish, vol.24, pp.242-251, 2015.

R. J. Gibbs, The geochemistry of the Amazon River system: Part I. The factors that control the salinity and the composition and concentration of the suspended solids, Bull. Geol. Soc. Am, vol.78, pp.1203-1232, 1967.

B. M. Gillanders, Temporal and spatial variability in elemental composition of otoliths: implications for determining stock identity and connectivity of populations, Can. J. Fish. Aquat. Sci, vol.59, pp.669-679, 2002.

M. Hauser, Migração dos grandes bagres Amazônicos pela perspectiva dos isótopos de Estrôncio em otólitos, 2018.

J. C. Hegg, T. Giarrizzo, and B. P. Kennedy, Diverse early lifehistory strategies in migratory Amazonian catfish: Implications for conservation and management, PLoS One, vol.10, 2015.

T. W. Hermann, D. J. Stewart, K. E. Limburg, and L. Castello, Unravelling the life history of Amazonian fishes through otolith microchemistry, R. Soc. Open Sci, vol.3, p.160206, 2016.

T. Hrbek, M. Crossa, and I. P. Farias, Conservation strategies for Arapaima gigas (Schinz, 1822) and the Amazonian várzea ecosystem, Braz. J. Biol, vol.67, pp.909-917, 2007.

D. B. Jepsen and K. O. Winemiller, Basin geochemistry and isotopic ratios of fishes and basal production sources in four neotropical rivers, Ecol. Freshw. Fish, vol.16, pp.267-281, 2007.

L. J. Jordaan, V. Wepener, and J. M. Huizenga, The strontium isotope distribution in water and fish within major South African catchments, Water SA, vol.42, pp.213-224, 2016.

W. Junk, P. B. Bayley, and R. E. Sparks, The flood pulse concept in river-floodplain-systems, Can. J. Fish. Aquat. Sci, vol.106, pp.110-127, 1989.

B. P. Kennedy, C. L. Folt, J. D. Blum, and C. P. Chamberlain, Natural isotope markers in salmon, Nature, vol.387, pp.766-767, 1997.

B. P. Kennedy, J. D. Blum, C. L. Folt, and K. H. Nislow, Using natural strontium isotopic signatures as fish markers: methodology and application, Can. J. Fish. Aquat. Sci, vol.57, pp.2280-2292, 2000.

B. P. Kennedy, A. Klaue, J. D. Blum, C. L. Folt, and K. H. Nislow, Reconstructing the lives of fish using Sr isotopes in otoliths, Can. J. Fish. Aquat. Sci, vol.59, pp.925-929, 2002.

B. P. Kennedy, C. P. Chamberlain, J. D. Blum, K. H. Nislow, and C. L. Folt, Comparing naturally occurring stable isotopes of nitrogen, carbon, and strontium as markers for the rearing locations of Atlantic salmon (Salmo salar), Can. J. Fish. Aquat. Sci, vol.62, pp.48-57, 2005.

L. A. Kerr and S. E. Campana, Chemical Composition of Fish Hard Parts as a Natural Marker of Fish Stocks, Stock Identif, Methods Appl. Fish. Sci, vol.1, pp.205-234, 2013.

H. Kim, K. Suresh-kumar, and K. H. Shin, Applicability of stable C and N isotope analysis in inferring the geographical origin and authentication of commercial fish (Mackerel, Yellow Croaker and Pollock), Food Chem, vol.172, pp.523-527, 2015.

E. M. Latrubesse, E. Y. Arima, T. Dunne, E. Park, V. R. Baker et al., Damming the rivers of the Amazon basin, Nature, vol.546, pp.363-369, 2017.

L. A. Pereira, Commercial traceability of Arapaima spp
URL : https://hal.archives-ouvertes.fr/hal-02148752

A. C. Lees, C. A. Peres, P. M. Fearnside, M. Schneider, . Jansen et al., Hydropower and the future of Amazonian biodiversity, Biodivers. Conserv, vol.25, pp.451-466, 2016.

L. Li, C. E. Boyd, and Z. Sun, Authentication of fishery and aquaculture products by multi-element and stable isotope analysis, Food Chem, vol.194, pp.1238-1244, 2016.

B. G. Marshall, B. R. Forsberg, and M. J. Thomé-souza, Autotrophic energy sources for Paracheirodon axelrodi (Osteichthyes, Characidae) in the middle, Hydrobiologia, vol.596, pp.95-103, 2008.

D. G. Mcgrath, L. Castello, O. T. Almeida, and G. M. Estupiñán, Market Formalization, Governance, and the Integration of Community Fisheries in the Brazilian Amazon, Soc. Nat. Resour, vol.28, pp.513-529, 2015.

G. Miranda-chumacero, R. Wallace, H. Calderón, G. Calderón, P. Willink et al., Distribution of arapaima (Arapaima gigas) (Pisces: Arapaimatidae) in Bolivia: implications in the control and management of a non-native population, BioInvasions Rec, vol.1, pp.129-138, 2012.

J. M. Mortillaro, M. Pouilly, M. Wach, C. E. Freitas, G. Abril et al., Trophic opportunism of central Amazon floodplain fish, Freshw. Biol, vol.60, pp.1659-1670, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01913401

J. Núñez-rodríguez, F. Duponchelle, M. Cotrina-doria, J. F. Renno, C. Chavez-veintimilla et al., Movement patterns and home range of wild and re-stocked Arapaima gigas (Schinz, 1822) monitored by radio-telemetry in Lake Imiria, J. Appl. Ichthyol, vol.31, pp.10-18, 2015.

A. C. Oliveira, M. G. Soares, L. A. Martinelli, and M. Z. Moreira, Carbon sources of fish in an Amazonian floodplain lake, Aquat. Sci, vol.68, pp.229-238, 2006.

E. Oliveira, Les régimes hydrologiques de l ' Amazone et de ses affluents, L'hydrologie Trop. géoscience Outil. développement, 1996.

E. A. Ono and J. Kehdi, Manual de Boas Práticas de Produção do Pirarucu em Cativeiro, 2013.

M. Palmer and J. Edmond, Controls over the strontium isotope composition of river water, Geochim. Cosmochim. Ac, vol.56, pp.2099-2111, 1992.

P. Payan, H. Pontual, . De, A. Edeyer, G. Borelli et al., Effects of stress on plasma homeostasis, endolymph chemistry, and check formation during otolith growth in rainbow trout (Oncorhynchus mykiss), Can. J. Fish. Aquat. Sci, vol.61, pp.1247-1255, 2004.

L. A. Pereira, M. Pouilly, R. Ventura-santos, and M. Hauser, Commercial traceability of Arapaima spp. fisheries in the Amazon basin: can biogeochemical tags be useful?, p.19, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02148752

M. Pouilly, D. Point, F. Sondag, M. Henry, and R. V. Santos, Geographical origin of Amazonian freshwater fishes fingerprinted by 87 Sr/ 86 Sr ratios on fish otoliths and scales, Environ. Sci. Technol, vol.48, pp.8980-8987, 2014.

B. M. Pracheil, J. D. Hogan, J. Lyons, P. B. Mcintyre, and H. L. Queiroz, Using Hard-Part Microchemistry to Advance Conservation and Management of North American Freshwater Fishes, Fisheries, vol.39, pp.451-465, 2000.

R. L. Radtke, P. Lenz, W. Showers, and E. Moksness, Environmental information stored in otoliths: insights from stable isotopes, Mar. Biol, vol.127, pp.161-170, 1996.

J. M. Rojas, F. Serra, I. Giani, V. M. Moretti, F. Reniero et al., The use of stable isotope ratio analyses to discriminate wild and farmed gilthead sea bream (Sparus aurata), Rapid Commun. Mass. Sp, vol.21, pp.207-211, 2007.

L. S. Sant'ana, C. Ducatti, and D. G. Ramires, Seasonal variations in chemical composition and stable isotopes of farmed and wild Brazilian freshwater fish, Food Chem, vol.122, pp.74-77, 2010.

R. V. Santos, F. Sondag, G. Cochonneau, C. Lagane, P. Brunet et al., Source area and seasonal

, Sr/ 86 Sr variations in rivers of the Amazon basin, Hydrol. Process, vol.29, pp.187-197, 2015.

R. G. Sousa, R. Humston, and C. E. Freitas, Movement patterns of adult peacock bass Cichla temensis between tributaries of the middle Negro River basin (Amazonas -Brazil): an otolith geochemical analysis, Fish. Manag. Ecol, vol.23, pp.76-87, 2016.

R. F. Stallard, Major element geochemistry of the amazon river system, Massachusetts Institute of Technology, woods Hole Oceanographic Institution, 1980.

R. F. Stallard and J. M. Edmond, The Influence of Geology and Weathering Environment on the Dissolved Load, J. Geophys. Res, vol.88, pp.9671-9688, 1983.

D. J. Stewart, A New Species of Arapaima (Osteoglossomorpha: Osteoglossidae) from the Solimões River, pp.470-476, 2013.

D. J. Stewart and R. Stone, Re-description of Arapaima agassizii (Valenciennes), a Rare Fish from Brazil (Osteoglossomorpha: Osteoglossidae), Science, vol.316, pp.1684-1688, 2007.

A. M. Sturrock, C. N. Trueman, A. M. Darnaude, and E. Hunter, Can otolith elemental chemistry retrospectively track migrations in fully marine fishes?, J. Fish Biol, vol.81, pp.766-795, 2012.

A. M. Sturrock, C. N. Trueman, J. A. Milton, C. P. Waring, M. J. Cooper et al., Physiological influences can outweigh environmental signals in otolith microchemistry research, Mar. Ecol. Prog. Ser, vol.500, pp.245-264, 2014.

H. Tabouret, G. Bareille, F. Claverie, C. Pécheyran, P. Prouzet et al., Simultaneous use of strontium:calcium and barium:calcium ratios in otoliths as markers of habitat: Application to the European eel (Anguilla anguilla) in the Adour basin, Mar. Environ. Res, vol.70, pp.35-45, 2010.
URL : https://hal.archives-ouvertes.fr/hal-01557314

R. E. Thresher, Elemental composition of otholits as a stock delineator in fishes, Fish. Res, vol.43, pp.165-204, 1999.

G. M. Turchini, G. P. Quinn, P. L. Jones, G. Palmeri, and G. Gooley, Traceability and Discrimination among Differently Farmed Fish?: A Case Study on Australian Murray Cod Traceability and Discrimination among Differently Farmed Fish?: A Case Study on Australian Murray, Society, pp.274-281, 2009.

P. A. Van-damme, F. M. Carvajal-vallejos, and C. , Los peces y delfines de la Amazonía boliviana: hábitats, potencialidades y amenazas, 2011.

J. P. Viana, L. Castello, J. M. Damasceno, E. S. Amaral, G. M. Estupiñan et al., Manejo Comunitário do Pirarucu Arapaima gigas na Reserva de Desenvolvimento Sustentável Mamirauá-Amazonas, Brasil, Áreas aquáticas protegidas como instrumento de gestão pesqueira, Série Áreas Protegidas do Brasil, vol.4, pp.125-130, 2006.

B. D. Walther and S. R. Thorrold, Continental-scale variation in otolith geochemistry of juvenile American shad (Alosa sapidissima), Can. J. Fish. Aquat. Sci, vol.65, pp.2623-2635, 2008.

B. D. Walther, T. Dempster, M. Letnic, M. T. Mcculloch, and R. K. Unsworth, Movements of Diadromous Fish in Large Unregulated Tropical Rivers Inferred from Geochemical Tracers, PLoS One, vol.6, 2011.

L. C. Watson, D. J. Stewart, and M. A. Teece, Trophic ecology of Arapaima in Guyana: Giant omnivores in Neotropical floodplains, Neotrop. Ichthyol, vol.11, pp.341-349, 2013.

K. O. Winemiller, P. B. Mcintyre, L. Castello, E. Fluet-chouinard, T. Giarrizzo et al., Sustainable water management under future uncertainty with eco-engineering decision scaling, Nat. Clim. Change, vol.6, pp.25-34, 2016.

J. Woodhead, S. Swearer, J. Hergt, and R. Maas, In situ Sr-isotope analysis of carbonates by LA-MC-ICP-MS: interference corrections, high spatial resolution and an example from otolith studies, J. Anal. Atom. Spectrom, vol.20, pp.22-27, 2005.