Impactos antrópicos aos ambientes manguezais em áreas de ocorrência do Peixe-boi-marinho trichechus manatus manatus no litoral brasileiro
uma revisão
DOI:
https://doi.org/10.37002/biodiversidadebrasileira.v13i4.2302Palavras-chave:
Carcinicultura, Salinas, Cana-de-açucar, Contaminantes, PlásticoResumo
O peixe-boi-marinho (Trichechus manatus manatus) é um mamífero aquático que habita mares, áreas de manguezais e estuários nas regiões Norte e Nordeste do Brasil. A espécie é categorizada como ‘Em Perigo' de extinção no Brasil devido à constante degradação e perda do seu habitat. O presente estudo trata de uma revisão bibliográfica sobre os impactos da carcinicultura, da salina, da plantação de cana-de-açúcar e da extração de gás e petróleo nos manguezais e estuários na área de ocorrência da espécie. A metodologia de busca foi definida tendo como ponto de partida o ano de 1980 até o ano de 2022 e limitando-se a análises na área de ocorrência do peixe-boi- marinho. A busca pelo Google Scholar resultou na obtenção de 36 estudos, os quais se distribuem desigualmente entre os estados brasileiros da região Norte e Nordeste. O estado do Ceará apresentou 81% do total de estudos sobre o impacto da carcinicultura, enquanto a busca por empreendimentos de qualquer natureza no Piauí resultou na ausência de estudos. Na discussão abordamos os potenciais impactos causados por tais atividades antrópicas na saúde ecossistêmica de manguezais e estuários e, consequentemente, na saúde e conservação do peixe-boi-marinho no Brasil, ressaltando a necessidade de reforço e ampliação das ações de proteção e fiscalização dessas áreas para a manutenção das populações de peixe-boi-marinho na costa brasileira.
Referências
ABCC (Associação Brasileira de Criadores de Camarão). 2012. Levantamento da infraestrutura produtiva e dos aspectos tecnológicos, econômicos, sociais e ambientais da carcinocultura marinha no Brasil em 2011. Relatório técnico. 82pp.
Abelenda MS, Arbestian MC, Ferreira T, Rivera-Monroy VH. The effect of nutrient-rich effluents from shrimp farming on mangrove soil carbon storage and geochemistry under semi-arid climate conditions in northern Brazil. Geoderma, 213: 551-559, 2014.
ANM (Agência Nacional de Mineração). 2018. Sumário Mineral Brasileiro. <https://www.gov.br/anm/pt-br/centrais-de-conteudo/publicacoes/serie-estatisticas-e-economia-mineral/sumario-mineral/pasta-sumario-brasileiro-mineral-2018/sal_sm_2018>. Acesso em 18/07/2022.
ANP (Agência Nacional do Petróleo, Gás Natural e Biocombustíveis). 2022. Blocos exploratórios sob concessão e campos de produção. . Acesso em 18/07/2022.
ANP (Agência Nacional do Petróleo, Gás Natural e Biocombustíveis). 2023. Boletim de Produção de Petróleo e Gás Natural. Disponível em <https://www.gov.br/anp/pt-br/centrais-de-conteudo/publicacoes/boletins-anp/boletins/arquivos-bmppgn/2023/boletim-janeiro.pdf> Acesso em 09/03/2023.
Alves RRN, Sassi R, Santana GG. The mangrove forest at the Bucatu Lagoon, Northeast Brazil: structural characterization and anthropic impacts. Tropical Conservation Science, 6(2): 254-267, 2013.
Alves MD. First abundance estimate of the Antillean manatee (Trichechus manatus manatus) in Brazil by aerial survey. Journal of the Marine Biological Association of the United Kingdom, 96(4): 955-966, 2016.
Alvite CMC. 2008. Population and ecological index for manatees (Trichechus manatus manatus) in two mangroves and salt-marshes areas of maranhão. Dissertação (Mestrado em Oceanografia e Limnologia). Universidade Federal do Maranhão. 120p.
Angel S, Parent J, Civco DL, Blei A, Potere D. The Dimensions of Global Urban Expansion: Estimates and Projections for all Countries, 2000-2050. Progress in Planning, 75: 53-107, 2011.
Anton A, Cebrian J, Heck KL, Duarte CM, Sheehan KL, Miller MEC, Foster CD. Decoupled effects (positive to negative) of nutrient enrichment on ecosystem services. Ecological Applications, 21: 991-1009, 2011.
Anzolin DG et al. Contaminant concentrations, biochemical and hematological biomarkers in blood of West Indian Manatees Trichechus manatus from Brazil. Marine Pollution Bulletin, 64: 1402-1408, 2012.
Arantes FP, Savassi LA, Santos HB, Gomes MVT, Bazzoli N. Bioaccumulation of mercury, cadmium, zinc, chromium, and lead in muscle, liver, and spleen tissues of a large commercially valuable catfish species from Brazil. Anais da Academia Brasileira de Ciências, 88(1): 137-147, 2016.
Araujo MP, Hamacher C, Farias CO, Soares MLG. Fecal sterols as sewage contamination indicators in Brazilian mangroves. Marine Pollution Bulletin, 165, 2021.
Attademo FLN, Balensiefer DC, Freire ACB, Sousa GP, Cunha FAGC, Luna FO. Debris ingestion by the Antillean Manatee (Trichechus manatus manatus). Marine Pollution Bulletin, 101(1): 284-287, 2015.
Attademo FLN et al. Guia de Itens Alimentares de Peixe-Boi-Marinho [Internet]. Brasília: ICMBio; 2022. 68 p. Disponível em https://www.icmbio.gov.br/cma/images/stories/Publica%C3%A7%C3%B5es/Guia_de_Itens_Alimentares_de_Peixe-Boi-Marinho_publica%C3%A7%C3%A3o_digital_compressed.pdf>
Balensiefer DC. Three Decades of Antillean Manatee (Trichechus manatus manatus) Stranding Along the Brazilian Coast. Tropical Conservation Science, 10: 1-9, 2017.
Barbier EB, Hacker SD, Kennedy C, Koch EW, Stier AC, Silliman BR. The value of estuarine and coastal ecosystem services. Ecological Monographs, 81(2): 169-193, 2011.
Barcellos D. Phosphorus enriched effluents increase eutrophication risks for mangrove systems in northeastern Brazilian Marine Pollution Bulletin, 142: 58-63, 2019.
Bartkowiak A. Influence of Heavy Metals on Quality of Raw Materials, Animal Products, and Human and Animal Health Status. <https://www.intechopen.com/online-first/80259> Acesso em: 28/03/2022.
Baudo R, Giesy J, Muntau H. 1990. Sediments: Chemistry and Toxicity of in-place Pollutants. CRC Press, 424p.
Belarmino PHP, Silva SM, Rufener MC, Araújo MCB. Resíduos sólidos em manguezal no rio Potengi (Natal/RN, Brasil): relação com a localização e usos. Journal of Integrated Coastal Zone Management, 14(3): 447-457, 2014.
Best RC, Teixeira DM. Notas sobre a distribuição e "status" aparente dos peixes-boi (Mammalia: Sirenia) nas costas amapaenses brasileiras. Boletim da Fundação Brasileira para Conservação da Natureza, 17: 41-47, 1982.
Bijsterveldt CEJ et al. Does plastic waste kill mangroves? A field experiment to assess the impact of macro plastic on mangrove growth, stress response and survival. Science of the Total Environment, 756: 143826, 2021.
Bonde RK, Aguirre AA, Powell J. Manatees as Sentinels of Marine Ecosystem Health: Are They the 2000-pound Canaries?. EcoHealth 1: 255-262, 2004.
Boori MS, Amaro VE. A Remote Sensing Approach for Vulnerability and Environmental Change in Apodi Valley Region, Northeast Brazil. International Journal of Geological and Environmental Engineering, 5(2): 93-103, 2011.
Bouillon S et al. 2008. Mangrove production and carbon sinks: a revision of global budget estimates. Global Biogeochem, 22, GB2013.
Brasil. 1981. Lei nº 6.902 de 27 de abril de 1981. Diário Oficial da União. Acesso em: 25/03/2022.
Brasil. 1998. Lei nº 9.905 de 12 de fevereiro de 1998. Diário Oficial da União. Acesso em: 18/07/2022.
Brasil. 2007. Decreto Federal nº 6.040 de 07 de fevereiro de 2007. Diário Oficial da União. Acesso em: 18/07/2022.
Brasil. 2012. Lei nº 12.651 de 25 de maio de 2012. Diário Oficial da União. Acesso em: 27/03/2022.
Brasil. 2019. Projeto de Lei 108/19. Câmara dos Deputados. <https://www.camara.leg.br/proposicoesWeb/fichadetramitacao?idProposicao=2190563> Acesso em: 31/03/2022.
Brockmeyer B. 2011. Dissolved and colloidal organic matter in a tropical lagoon-estuary system surrounded by sugar cane plantations. Tese (Doutorado em Ciências Naturais). Universidade de Hamburgo. 127p.
Burns KA, Codi S, Duke NC. Gladstone, Australia Field Studies: Weathering and Degradation of Hydrocarbons in Oiled Mangrove and Salt Marsh Sediments With and Without the Application of an Experimental Bioremediation Protocol. Marine Pollution Bulletin, 41: 392-402, 2000.
Carpenter EJ, Smith KL. Plastics on the Sargasso Sea surface. Science 175(4027): 1240-1241, 1972.
Carpenter SR, Caraco NF, Correll DL, Howarth RW, Sharpley AN, Smith VH. Nonpoint pollution of surface waters with phosphorus and nitrogen. Ecological Applications, 8: 559-568, 1998.
Carreira RS,Wagener ALR, Readman JW. Sterols as markers of sewage contamination in a tropical urban estuary (Guanabara Bay, Brazil): space-time variations. Estuarine, Coastal and Shelf Science, 60: 587-598, 2004.
Carreira RS, Araújo MP, Costa TLF, Spörl G, Knoppers BA. Lipids in the sedimentary record as markers of the sources and deposition of organic matter in a tropical Brazilian estuarine-lagoon system. Marine Chemistry, 127: 1-11, 2011.
Cavalcante RM, Sousa FW, Nascimento RF, Silveira ER, Freire GSS. The impact of urbanization on tropical mangroves (Fortaleza, Brazil): Evidence of PAH distribution in sediments. Journal of Environmental Management, 91: 328-335, 2009.
Celis-Hernández O, Ávila E, Ward RD, Rodríguez-Santiago M, Aguirre-Téllez JA. Microplastic distribution in urban vs pristine mangroves: using marine sponges as bioindicators of environmental pollution. Environment Pollution, 284: 117391, 2021.
Chalmin P. The history of plastics: from the Capitol to Tarpeian Rock. Field Actions Science Reports, 19: 6-11, 2019.
Chen C, White PA. The mutagenic hazards of aquatic sediments: a review. Mutation Research, 567: 151-225, 2004.
Chen L, Wang W, Zhang Y, Lin G. Recent progress in mangrove conservation, restoration and research in China. Journal of Plant Ecology, 2: 45-54, 2009.
Chhabra A, Geist H. 2006. Multiple Impacts of Land-Use/Cover Change. In: Lambin EF e Geist H. (orgs.). LandUse and Land-Cover Change: Local Processes and Global Impacts. Springer Berlin Heidelberg. 71116p.
Choi-Lima KF. 2017. Estimativa de abundância e impactos antrópicos sobre o peixe-boi marinho (Trichechus manatus) no estuário dos rios Timonha e Ubatuba, divisa dos estados do CE e PI. Tese (Doutorado em Ciências Marinhas Tropicais). Universidade Federal do Ceará. 125p.
Ciotti LL. 2012. Isópotos estáveis de carbono e nitrogênio aplicados ao estudo da ecologia trófica do peixe-boi-marinho (Trichechus manatus) no Brasil. Dissertação (Mestrado em Oceanografia). Universidade Federal do Rio Grande. 89p.
COEMA (Conselho Estadual do Meio Ambiente - CE). 2002. Resolução nº 2 de 27 de março de 2002. <https://www.legisweb.com.br/legislacao/?id=277205> Acesso em: 24/03/2022.
Costa BGB, Soares TM, Torres RF, Lacerda LD. Mercury Distribution in a Mangrove Tidal Creek Affected by Intensive Shrimp Farming. Bulletin of Environmental Contamination and Toxicology, 90: 537-541, 2013.
Covernton GA et al. A Bayesian analysis of the factors determining microplastics ingestion in fishes. Journal of Hazard Materials, 413: 125405, 2021.
Crowley BE, McGoogan KC, Lehman SM. 2012. Edge effects of Foliar Stable Isotope Values in a Madagascan Tropical Dry Forest. PlosONE, 7(9): e44538.
Curtis J, Metheny E, Sergent SR. 2021. Hydroncarbon Toxicity. StatPearls. <https://www.ncbi.nlm.nih.gov/books/NBK499883/> Acesso em: 14/04/2022.
da Silva MMN, Medeiros JD, Sousa Junior AM. 2015. ANÁLISE DA BACIA POTIGUAR: um estudo de caso acerca da produção petrolífera. p. 59-63. In: Anais do I Congresso Nacional de Engenharia de Petróleo, Gás Natural e Biocombustíveis.
Davias LA, Kornis MS, Breitburg DL. Environmental factors influencing C13 and N15 in three Chesapeake Bay fishes. ICES Journal of Marine Sciences, 71(3): 689-702, 2014.
de Almeida LG. 2010. Caracterização das áreas de pesca artesanal de lagosta na Praia da Redonda, Icapuí, Ceará. Dissertação (Mestrado em Ciências Marinhas Tropicais). Universidade Federal do Ceará. 93p.
Diniz MTM, Vasconcelos FP. Condicionantes naturais à produção de sal marinho no Brasil. Revista Mercator, 16: 16013, 2017.
Diniz MTM. 2013.Condicionantes socioeconômicos à produção de sal marinho no Brasil: as particularidades da principal região produtora. Tese (Doutorado em Geografia). Universidade Estadual do Ceará. 227p.
Duke NC et al. A world without mangroves? Science, 317: 41-42, 2007.
EcologyBrasil. 2022. Campo de Macau-Bacia Portiguar: Projeto de Descomissionamento da Plataforma Aratum PART2 e dos seus Sistemas Submarinos Associados. Disponível em <https://www.gov.br/anp/pt-br/assuntos/exploracao-e-producao-de-oleo-e-gas/seguranca-operacional-e-meio-ambiente/arq/ppdi/pdi_-conceitual-da-plataforma-aratum-part2.pdf> Acesso em 10/03/2023.
Ferreira AC, Lacerda LD. Degradation and conservation of Brazilian mangroves, status and perspectives. Ocean and Coastal Management, 125: 38-46, 2016.
Ferreira AC, Alencar CERD, Bezerra LEA. Interrelationships among ecological factors of brachyuran crabs, trees and soil in mangrove community assemblage in Northeast Brazil. Community Ecology, 20(3): 277-290, 2019.
Franco I, Araújo ARDAR, Franke CR. Aspectos Socioambientais da Aquicultura na Região do Baixo São Francisco, Sergipe, Brasil. Revista Meio Ambiente e Sustentabilidade, 14(7): 7-25, 2018.
Frena M, Bataglion GA, Tonietto AE, Eberlin MN, Alexandre MR, Madureira LAS. Assessment of anthropogenic contamination with sterol markers in surface sediments of a tropical estuary (Itajaí-Açu, Brazil). Science of the Total Environment, 544: 432-438, 2016.
GFRFB (Governo Federal da República Federativa do Brasil). 2014. <http://www.portosdobrasil.gov.br/assuntos-1/investimentos/acessos-portuarios> Acesso em: 05/04/2022.
Giarrizzo T et al. Amazonia: The new frontier for plastic pollution. Frontiers in Ecology and the Environment 17(6): 309-310, 2019.
Godoy MDP, Meireles AJA, Lacerda LD. Mangrove response to land use change in estuaries along the semiarid coast of Ceará. Brazilian Journal of Oceanography, 34: 524-533, 2018.
Guimarães AS, Travassos P, Souza Filho PWME, Gonçalves FD, Costa F. Impact of aquaculture on mangrove areas in the northern Pernambuco Coast (Brazil) using remote sensing and geographic information system. Aquaculture Research, 41(6): 828-838, 2010.
Hayashi SN, Souza-Filho PWM, Nascimento WR Jr, Fernandes MEB. The effect of anthropogenic drivers on spatial patterns of mangrove land use on the Amazon coast. PLoS ONE, 14(6): e0217754, 2019.
Instituto Brasileiro de Geografia e Estatística. 2022. Pesquisa da Pecuária Municipal - Produção da aquicultura, por tipo de produto. <https://sidra.ibge.gov.br/Tabela/3940> Acesso em 18/07/2022.
Instituto Brasileiro de Geografia e Estatística. 2022. Pesquisa da Indústria anual - PIA - produto por Estado. <https://cidades.ibge.gov.br/brasil/ap/pesquisa/10061/60058.> Acesso em 19/07/2022.
Instituto Chico Mendes de Conservação da Biodiversidade. 2014. Plano de Manejo Área de Proteção Ambiental da Barra do Rio Mamanguape e Área de Relevante Interesse Ecológico de Manguezais da Foz do Rio Mamanguape. Plano de Manejo. 349p.
Instituto Chico Mendes de Conservação da Biodiversidade. 2017. Plano de Manejo da Reserva Extrativista Marinha de Cururupu. <https://www.gov.br/icmbio/pt-br/assuntos/biodiversidade/unidade-de-conservacao/unidades-de-biomas/marinho/lista-de-ucs/resex-de-crurupu/arquivos/plano_de_manejo_da_resex_marinha_de_cururupu_resumo.pdf> Acesso em: 18/07/2022.
Instituto Chico Mendes de Conservação da Biodiversidade. 2018a. Atlas dos Manguezais do Brasil. Instituto Chico Mendes de Conservação da Biodiversidade. 176p.
Instituto Chico Mendes de Conservação da Biodiversidade. 2018b. Plano de Ação Nacional para a Conservação do Peixe-boi marinho. <https://www.icmbio.gov.br/portal/faunabrasileira/planos-de-acao/9327-plano-de-acao-nacional-para-a-conservacao-peixe-boi-marinho> Acesso em: 12/04/2022.
Instituto Socioambiental. 2023. Programa de Monitoramento de Áreas Protegidas. Disponível em <https://uc.socioambiental.org/mapa> Acesso em 08/03/2023.
IUCN (International Union for Conservation of Nature). 1993. Oil and Gas Exploration and Production in Mangrove Areas. E&P Forum. 47p.
Ivar do Sul JA, Costa MF. Plastic pollution risks in an estuarine Conservation Unit. Journal of Coastal Research, 65(1): 48-53, 2013.
Jablonski S, Filet M. Coastal management in Brazil - A political riddle. Ocean Coast Management, 51: 536-543, 2008.
Jauković ZD, Grujić SD, Matić IV, Laušević MD. Determination of sterols and steroid hormones in surface water and wastewater using liquid chromatographyatmospheric pressure chemical ionization-mass spectrometry. Microchemical Journal, 135: 39-47, 2017.
Jézéque R et al. Assessment of oil weathering and impact in mangrove ecosystem: PRISME Experiment. International Oil Spill Conference Proceedings, 2017(1): 634-656, 2017.
Kabata-Pendias A, Pendias H. 2001. Trace Elements in Soils and Plants. 3rd ed. CRC Press LLC. 331p.
Karami A, Golieskardi A, Ho YB, Larat V, Salamatinia B. Microplastics in eviscerated flesh and excised 119 organs of dried fish. Scientific Reports, 7: 5473, 2017.
Kidd KA, Blanchfield PJ, Mills KH, Flick RW. Collapse of a fish population after exposure to a synthetic estrogen. PNAS, 104: 8897-8901, 2007.
Kingston PF. Long-term Environmental Impact of Oil Spills. Spill Science & Technology Bulletin, 7: 53-61, 2002.
Knoppers B, Kjerfve B, Carmouze JP. Trophic state and water turn-over time in six choked coastal lagoons in Brazil. Biogeochemistry, 14: 149-166, 1991.
Lacerda LD. 2002. Mangrove Ecosystems: Function and Management. Springer Verlag. 298p.
Lacerda LD. Inputs of nitrogen and phosphorus to estuaries of northeastern Brazil from intensive shrimp farming. Brazilian Journal of Aquatic Science and Technology, 10(2): 13-27, 2006.
Lacerda LD, Santos JA, Madrid RM. Copper emission factors from intensive shrimp aquaculture. Marine Pollution Bulletin, 52: 1823-1826, 2006.
Lacerda LD, Menezes MOT, Molisani MM. Changes in mangrove extension at the Pacoti River estuary, CE, NE Brazil due to regional environmental changes between 1958 and 2004. Biota Neotropica, 7(3): 67-72, 2007.
Lacerda LD, Soares TM, Costa BGB, Godoy MDP. Mercury emission factors from intensive shrimp aquaculture and its relative importance to the Jaguaribe River Estuary. NE Brazil. Bulletin of Environmental Contamination and Toxicology, 87: 657-661, 2011.
Lambin EF, Meyfroidty P. 2014. Trends in Global Land-Use Competition. In: Seto KC, Reenberg A. Rethinking Global Land Use in an Urban Era. Strungmann Forum Reports. 1122p.
Latif R, Malek M, Mirmonsef H. Cadmium and lead accumulation in three endogeic earthworm species. Bulletin of Environmental Contaminants and Toxicology, 90(4): 456-459, 2013.
León-Cañedo JA, Alarcón-Silvas SG, Fierro-Sañudo JF, Mariscal Lagarda MM, Díaz-Valdés T, Páez-Osuna F. Assessment of environmental loads of Cu and Zn from intensive inland shrimp aquaculture. Environment Monitoring and Assessment, 189: 69-77, 2017.
Lima RP, Alvite CMC, Vergara-Parente JE. Protocolo de reintrodução de peixes-bois-marinhos no Brasil. São Luís: Editora IBAMA/MA & Instituto Chico Mendes, 62p, 2007.
Lima RP, Paludo D, Soavinski RJ, Silva KG, Oliveira EMA. Levantamento da distribuição, ocorrência e status de conservação do peixe-boi-marinho (Trichechus manatus, Linnaeus, 1758) no litoral nordeste do Brasil. Natural Resources, 1: 41-57, 2011.
Lima MDO, Schwamborn R, Borges JCG, Marmontel M, Costa AF, Schettini CAF et al. Aerial survey of manatees, dolphins and sea turtles off northeastern Brazil: Correlations with coastal features and human activities. Biological Conservation, 161: 91-100, 2013.
Lima TBB, Silva MRF, Carvalho RG. Artisanal fishing, shrimp farming and mangroves: perspectives on the Federal Law nº 12651/2012 and the use of "apicum" and "salgado" areas in Canguaretama/RN, Brazil. Sociedade e Natureza, 31: 1-11, 2019.
Lin P, Zhang YH, Yang ZW. Conservation and ecological restoration of mangrove forests on Xiamen coast. Natural Sciences Education, 1: 1-6, 2005.
Liu X, Liu H, Chen L, Wang X. Ecological interception effect of mangrove on microplastics. Journal of Hazardous Materials, 423: 127-131, 2022.
Luna FO et al. Ocorrência do peixe-boi-marinho (Trichechus manatus manatus) no litoral norte do Brasil. Boletim do Museu de Biologia Mello Leitão, 23: 37-49, 2008.
Luna FO, Passavante JZO. 2010a. Projeto Peixe-boi/ ICMBio: 30 anos de conservação de uma espécie ameaçada. Instituto Chico Mendes de Conservação da Biodiversidade, 108p.
Luna FO, Araújo JP, Oliveira EM, Hage LM, Passavante JZO. Distribuição do peixe-boi-marinho, Trichechus manatus manatus, no litoral norte do Brasil. Arquivos de Ciência do Mar, 43(2): 79-86, 2010b.
Luna FO, Balensiefer DC, Fragoso AB, Stephano A, Attademo FLN. 2018. Trichechus manatus Linnaeus, 1758, p. 103-109. In: Instituto Chico Mendes de Conservação da Biodiversidade (orgs). Livro Vermelho da Fauna Brasileira Ameaçada de Extinção: Volume II - Mamíferos. ICMBio/MMA. 625p.
Ma H, Pu S, Liu S, Bai Y, Mandal S, Xing B. Microplastics in aquatic environments: toxicity to trigger ecological consequences. Environment Pollution, 261: 114089, 2020.
Machado R, Oliveira LR, Montealegre-Quijano S. Incidental catch of South American sea lion in a pair trawl off southern Brazil. Neotropical Biology and Conservation, 10(1): 43-47, 2015.
Maciel-Souza MC, Macrae A, Volpon AGT, Ferreira PS, Mendonça-Hagler LC. Chemical and microbiological characterization of mangrove sediments after a large oil-spill in Guanabara Bay/RJ, Brazil. Brazilian Journal of Microbiology, 37(3): 262-266, 2006.
Magalhães KM, Barros KVS, Lima MCS, Rocha-Barreira CA, Rosa Filho JS, Soares MO. Oil spill + COVID-19: A disastrous year for Brazilian seagrass conservation. Science of Total Environment, 764: 142872, 2021.
Maghsodian Z, Sanati AM, Ramavandi B, Ghasemi A, Sorial GA. Microplastics accumulation in sediments and Periophthalmus waltoni fish, mangrove forests in southern Iran. Chemosphere, 264: 128543, 2021.
Magris RA, Barreto R. Mapping and assessment of protection of mangrove habitats in Brazil. Pan American Journal of Aquatic Science, 5(4): 546-556, 2010.
Magris RA, Giarrizzo T. Mysterious oil spill in the Atlantic Ocean threatens marine biodiversity and local people in Brazil. Marine Pollution Bulletin, 153 (110961), 2020.
Marins RV, Paula Filho FJ, Eschrique LA, Lacerda LD. Anthropogenic sources and distribution of phosphorus in sediments from the Jaguaribe River estuary, NE, Brazil. Brazilian Journal of Biology, 71(3): 673-678, 2011.
Marins RV, Lacerda LD, Araújo ICS, Fonseca LV, Silva ATF. Phosphorus and suspended matter retention in mangroves affected by shrimp farm effluents in NE Brazil. Anais da Academia Brasileira de Ciências, 92(3): e20200758, 2020.
McCaugley RD et al. Marine seismic surveys: a study of environmental implications. APPEA J., 40: 692-708, 2000.
Medeiros IDS et al. Spatiotemporal dynamics of mangrove forest and association with strandings of Antillean manatee (Trichechus manatus) calves in Paraíba, Brazil. Journal of the Marine Biological Association of the United Kingdom, 101(3): 503-510, 2021.
Meirelles ACO. Mortality of the Antillean manatee, Trichechus manatus manatus, in Ceará State, north-eastern Brazil. Journal of the Marine Biological Association of the United Kingdom, 88: 1133-1137, 2008.
MMA (Ministério do Meio Ambiente). 2008. Macrodiagnóstico da Zona Costeira e Marinha do Brasil. Relatório Técnico.
MMA (Ministério do Meio Ambiente). 2022. Portaria 148, de 07 de junho de 2022. Disponível em: https://www.in.gov.br/en/web/dou/-/portaria-mma-n-148-de-7-de-junho-de-2022-406272733.
Moore CJ, Moore SL, Leecaster MK, Weisberg SB. A comparison of plastic and plankton in the North Pacific central gyre. Marine Pollution Bulletin, 42(12): 1297-1300, 2001.
Murphy PP, Bates TS, Curl Jr. HC, Feely RA, Burguer RS. The transport and fate of a particulate hydrocarbon in an urban fjord-like estuary. Estuarine, Coastal and Shelf Sciences, 27: 461-482, 1988.
Naidoo G, Hiralal O, NaidooY. Hypersalinity effects on leaf ultrastructure and physiology in the mangrove Avicennia marina. Flora - Morphology, Distribution, Functional Ecology of Plants, 206(9): 814-820, 2011.
Nehemia A, Chen M, Kochzius M, Dehair F, Brion N. Ecological impact of salt farming in mangroves on the habitat and food sources of Austruca occidentalis and Littoraria subvittata. Environmental Law Alliance Worldwide, 111, 2019.
Normande IC, Malhado ACM, Reid J, Viana Júnior PC, Savaget PVS, Correia RA et al. Post-release monitoring of Antillean manatees: an assessment of the Brazilian rehabilitation and release programme. Animal Conservation, 19: 235-246, 2016.
Norris BK, Mullarney JC, Bryan KR, Henderson SM. The effect of pneumatophore density on turbulence: a field study in a Sonneratia dominated mangrove forest. Continental Shelf Research, 147(03): 114-127, 2017.
Oliveira EHC et al. Karyotypical Confirmation of Natural Hybridization between Two Manatee Species, Trichechus manatus and Trichechus inunguis. Life, 12(5): 616, 2022.
Organização das Nações Unidas. (2021) Challenges - 10 Ocean Decade Challenges for Collective Impact. Disponível em: https://www.oceandecade.org/challenges/
Paiva Jr LH, Luna FO, Attademo FLN, Costa AF, Davis RAH, Siciliano S. An infant West Indian manatee born contaminated by metals: A direct effect of the 2019-2020 oil spill in northeastern Brazil? Sirenews, (75): 10-13, 2022.
Pelage L, Domalain G, Lira AS, Travassos P, Frédou T. Coastal Land Use in Northeast Brazil: Mangrove Coverage Evolution Over Three Decades. Tropical Conservation Science, 12: 1-15, 2019.
Peterson BJ. Stable isotopes as tracers of organic matter input and transfer in benthic food webs: A review. Acta Oecologia, 20: 479-487, 1999.
United Nations Development Programme. 2013. Effective Conservation and Sustainable Use of Mangrove Ecosystems in Brazil (PIMS 3280). Relatório Técnico. 166p.
Precht WF, Gintert BE, Robbar ML, Fura R, Van Woesik. Unprecedented Disease-Related Coral Mortality in Southeastern Florida. Scientific Reports, 6: 31374, 2016.
Queiroz HM et al. Nitrogen mineralization and eutrophication risks in mangroves receiving shrimp farming effluents. Environmental Science and Pollution Research, 27: 34941-34950, 2020.
Radostits OM, Gay CC, Blood DC, Hinchcliff KW. 2002. Doenças causadas por substâncias químicas inorgânicas e produtos químicos utilizados nas fazendas, 1417-1471. In: Radostits OM, Gay CC, Blood DC, Hinchcliff KW (eds). Clínica Veterinária: um tratado de doenças dos bovinos, ovinos, suínos, caprinos e equinos. Guanabara Koogan, 2400p.
Rau GH, Sweeney RE, Kaplan IR, Mearns AJ, Young DR. Differences in animal C13 and N15, and D abundance between polluted and unpolluted coastal sites: Likely indicators of sewage uptake by a marine food web. Estuarine, Coastal and Shelf Science, 13: 7701-707, 1981.
Richardson SD, Ternes TA. Water analysis: emerging contaminants and current issues. Analytical Chemistry, 83(12): 4616-4648, 2011.
Rocha RM, Camara MR. 1992. Prediction, monitoring and management of detrimental algal blooms on solar saltworks, p.657-660. In: 7th International Symposium on Salt.
Rocha RM, Costa DFS, Lucena Filho MA. 2009. Tropical solar saltworks - influence and challenges in the coexistence with traditional populations in the Brazilian northeast region, p.167. In: Proceedings of the 2nd International Conference on the Ecological Importance of Solar Saltworks (CEISSA 2009).
Rocha IP, Barbosa M, Nogueira J. O Censo da Carcinicultura Nacional em 2011. Revista ABCC, 15(1), 2013.
Rochman CM et al. Anthropogenic debris in seafood: Plastic 127 debris and fibers from textiles in fish and bivalves sold for human consumption. Scientific Reports, 5: 14340, 2015.
Roger CS, Ramos-Scharrón CE. Assessing Effects of Sediment Delivery to Coral Reefs: A Caribbean Watershed Perspective. Frontiers Marine Science, 8: 773968, 2022.
Rumbeiha WK, Braselton WE, Donch D. A retrospective study on the disappearance of blood lead in cattle with accidental lead toxicosis. Journal of Veterinary Diagnostic Investigation 13: 373-378, 2001.
Sá TD, Sousa RR, Rocha IRCB, Lima GC, Costa FHF. Brackish shrimp farming in Northeastern Brazil: the environmental and socioeconomic impacts and sustainability. Natural Resources Research, 4: 538-550, 2013.
Sanders CJ et al. Elevated rates of organic carbon, nitrogen,and phosphorus accumulation in a highly impacted mangrove wetland. Geophysics Research Letters, 41: 2475-2480, 2014.
Santos CNC, Vilar JWC, Oliveira ACC. The Brazilian Forestry Code - the shrimp farming and the social and environmental impacts in Indiaroba/SE. In: Encontro Nacional de Geografia Agrária - ajuste espacial x soberania(s): a multiplicidade das lutas e estratégias de reprodução no campo. Sergipe, 2016.
Santos FR et al. Influence of anthropogenic activities and risk assessment on protected mangrove forest using traditional and emerging molecular markers (Ceará coast, northeastern Brazil). Science of the Total Environment, 656: 877-888, 2019.
Satarug S et al. A global perspective on cadmium pollution and toxicity in a non-occupationally exposed population. Toxicology Letters, 137(1): 65-83, 2003.
Schaeffer-Novelli Y. Grupo de ecossistemas: manguezal, marisma e apicum. Caribbean Ecological Research, 2000.
Schaeffer-Novelli Y, Cintrón-Molero G, Molero G, Soares ML, De-Rosa MMPT. Brazilian mangroves. Aquatic Ecosystems Health Management, 3: 561-570, 2000.
Schaeffer-Novelli Y, Rovai AS, Coelho-Jr C., Manghini RP, Almeida R. Alguns impactos do PL 30/2011 sobre os manguezais brasileiros. In: Souza G. Brasília: SOS Mata Atlântica. Comitê Brasil, 2012, p. 18-27.
Schmidt AJ, Bemvenuti CE, Diele K. Sobre a definição da zona de apicum e sua importância ecológica para populações de caranguejo-uçá Ucides cordatus (LINNAEUS, 1763). Boletim Técnico Científico, 19(1): 9-25, 2013.
Seltenrich N. New link in the food chain? Marine plastic pollution and seafood safety. Environment Health Perspectives, 123: A34, 2015.
Silva CAR, Rainbow PS, Smith BD. Biomonitoring of trace metal contamination in the Potengi estuary, Natal (Brazil), using the oyster Crassostrea rhizophorae, a local food source. Water Research, 35: 4072-4078, 2001.
Silva CAR, Rainbow PS, Smith BD. Biomonitoring of trace metal contamination in mangrove-lined Brazilian coastal systems using oyster Crassostrea rhizophorae: comparative study of regions affected by oil, salt pond and shrimp farming activities. Hydrobiologia 501: 199-206, 2003.
Soares TCM, Coutinho DA, Lacerda LD, Moraes MO, Rebelo MF. Mercury accumulation and metallothionein expression from aquafeeds by Litopenaeus vannamei Boone, 1931 under intensive aquaculture conditions. Brazilian Journal of Biology, 71: 131-137, 2011.
Soares MO, Teixeira CEP, Bezerra LEA, Rossi S, Tavares T, Cavalcante RM. Brazil oil spill response: Time for coordination. Science, 367(6474), 2020.
Sojinu SO, Sonibare OO, Ekundayo O, Zeng EY. Science of the Total environment assessing anthropogenic contamination in surface sediments of Niger Delta, Nigeria with fecal sterols and n -alkanes as indicators. Science of Total Environment, 441: 89-96, 2012.
Sosa-Villalobos C, Castañeda-Chávez MR, Amaro-Espejo IA, Galaviz-Villa I, Lango-Reynoso F. Diagnosis of the current state of aquaculture production systems with regard to the environment in México. Latin American Journal of Aquatic Research, 44: 193-201, 2016.
Statista. 2020. Production of processed plastics in Brazil from 2010 to 2019. <https://www.statista.com/statistics/486298/processed-plastics-production-in-brazil/> Acesso em: 06/04/2022.
Swarup D et al. Changes in plasma hormones profile and liver function in cows naturally exposed to lead and cadmium around different industrial areas. Research in Veterinary Science, 82: 16-21, 2007.
Takahashi MA, Nishida AK. Traditional knowledge and variations in capture techniques used for blue land crab (Cardisoma guanhumi, L. 1825) along the coast of Paraíba, Brazil. Acta Scientiarum, 40: e37743, 2018.
Theron AJ, Tintinger GR, Anderson R. Harmful interactions of non-essential heavy metals with cells of the innate immune system. Clinical Toxicology, 2012: 1-10, 2012.
Thirulogachandar AME, Rajeswari M, Ramya S. Assessment of heavy metals in Gallus and their impact on humans. International Journal of Scientific and Research tions, 4: 1-8, 2014.
Thompson RC et al. Lost at sea: Where is all the plastic? Science, 304(5672): 838, 2004.
Trainer VI, Baden DG. High affinity binding of red tide neurotoxins to marine mammal brain. Aquatic Toxicology 46: 139-148, 1999.
Unica (Brazilian Sugar Cane Industry Association). 2010. Brazilian sugar cane production. <http://english.unica.com.br/dadosCotacao/estatistica/> Acesso em: 27/03/2022.
Valiela I, Cole ML. Comparative evidence that salt marshes and mangroves may protect seagrass meadows from land-derived nitrogen loads. Ecosystems, 5: 92-102, 2002.
Wang G et al. Endocrine disrupting chemicals in New Orleans surface waters and Mississippi sound sediments. Journal of Environmental Monitoring, 14: 1353-1364, 2012.
Ward R, Burnside N, Joyce C, Sepp K. Importance of microtopography in determining plant community distribution in Baltic coastal wetlands. Journal of Coastal Research, 32: 1062-1070, 2016.
Worthy GA. Nutrition and energetics. In: Dierauf LA, Gulland FMD. Marine Mammal Medicine. Boca Raton: CRC Press; 2001. p.791-827.
Zagatto PA, Bertoletti E. Ecotoxicologia Aquática - princípios e aplicações. Rima. 478p., 2006.
Zhang Z, Ren N, Kannan K, Nan J, Liu L, Ma W. Occurrence of endocrine disrupting phenols and estrogens in water and sediment of the Songhua river, northeastern China. Archives of. Environment Contamination and Toxicology, 66(3): 361-369, 2014.
Publicado
Edição
Seção
Licença
Copyright (c) 2023 Os autores mantêm os direitos autorais de seus artigos sem restrições, concedendo ao editor direitos de ção não exclusivos.
Este trabalho está licenciado sob uma licença Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Os artigos estão licenciados sob uma licença Creative Commons Atribuição-NãoComercial-SemDerivações 4.0 Internacional (CC BY-NC-ND 4.0). O acesso é livre e gratuito para download e leitura, ou seja, é permitido copiar e redistribuir o material em qualquer mídia ou formato.