Abstract

Lagoa do São Bento is a coastal restinga wetland, remnant of a paleolake, located in Maricá, RJ. The study aimed to inventory native aquatic plants, make a floristic comparison with other coastal lagoons and analyze the regeneration of this community after anthropic impacts. In the floristic analysis of aquatic plants, 45 species were listed, 39 of which are Angiosperms and six are Ferns. Aeschynomene paniculata, Hymenachne amplexicaulis, Montrichardia linifera and Torenia thouarsii are new records for the municipality and Tabebuia cassinoides is threatened. Emerging plants (21 spp.) stand out, followed by amphibians (16 spp.), free floating (4 spp.), fixed floating (3 spp.) and tolerant (1 sp.). The comparison showed greater similarity with the Jacarepiá lagoon, in Saquarema, sharing 21 species. The phytosociological inventory listed 87 species, 83 of which were Angiosperms and four Ferns. The species with the highest IVI were: Fuirena umbellata, Pleroma gaudichaudianum, Xyris jupicai, Typha domingensis, Salvinia aff. auriculata, Eleocharis interstincta, Rhynchospora gigantea, Nymphoides humboldtiana, Nymphaea caerulea and Clitoria laurifolia. Shannon, Simpson and equity indexes were 3.83, 0.03 and 0.85, respectively. Native aquatic species represent the majority of the total inventoried (54%), with a considerable supply of exotic and ruderal, whose colonization reflects the anthropic interventions.

Key words:
conservation; phytosociology; regeneration; restinga; wetlands

Resumo

A Lagoa do São Bento é uma área úmida costeira de restinga, resquício de uma paleolagoa, localizada em Maricá, RJ. O estudo objetivou inventariar as plantas aquáticas nativas, fazer a comparação florística com outras lagoas costeiras e analisar a regeneração dessa comunidade após impactos antrópicos. Na análise florística de plantas aquáticas foram listadas 45 espécies, das quais 39 são Angiospermas e seis são Samambaias. Aeschynomene paniculata, Hymenachne amplexicaulis, Montrichardia linifera e Torenia thouarsii são novos registros para o município e Tabebuia cassinoides é ameaçada de extinção. Sobressaem as plantas emergentes (21 spp.), seguida de anfíbias (16 spp.), flutuante livres (4 spp.), flutuante fixas (3 spp.) e tolerantes (1 sp.). A comparação mostrou maior similaridade com a lagoa de Jacarepiá, em Saquarema, compartilhando 21 espécies. O inventário fitossociológico listou 87 espécies, sendo 83 Angiospermas e quatro Samambaias. As espécies com maior IVI foram: Fuirena umbellata, Pleroma gaudichaudianum, Xyris jupicai, Typha domingensis, Salvinia aff. auriculata, Eleocharis interstincta, Rhynchospora gigantea, Nymphoides humboldtiana, Nymphaea caerulea e Clitoria laurifolia. Os índices de Shannon, Simpson e equabilidade foram 3,83, 0,03 e 0,85, respectivamente. As aquáticas nativas representam a maior parte do total inventariado (54%), havendo um aporte considerável de exóticas e ruderais, cuja colonização reflete as intervenções antrópicas.

Palavras-chave:
conservação; fitossociologia; regeneração; restinga; áreas úmidas

Introduction

Wetlands are ecosystems arranged at the interface between terrestrial and aquatic, continental or coastal, natural or artificial environments, endowed with soaked soils permanently or periodically flooded by shallow, sweet, brackish or salty waters, with communities of plants and animals adapted to the hydrous dynamics (Junk et al. 2011Junk WJ, Piedade MTF, Schöngart J, Cohn-Haft M, Adeney JM & Wittmann F (2011) A classification of major naturally-occurring Amazonian lowland wetlands. Wetlands 31: 623-640. <https://doi.org/10.1007/s13157-011-0190-7>.
https://doi.org/10.1007/s13157-011-0190-... ). They comprise approximately 20% of the Brazilian territory (Junk et al. 2011Junk WJ, Piedade MTF, Schöngart J, Cohn-Haft M, Adeney JM & Wittmann F (2011) A classification of major naturally-occurring Amazonian lowland wetlands. Wetlands 31: 623-640. <https://doi.org/10.1007/s13157-011-0190-7>.
https://doi.org/10.1007/s13157-011-0190-... ) but are still shortly known in terms of biological diversity. Despite the important ecological and economic functions, these environments have suffered from the action of various human activities over time (Bozelli et al. 2018Bozelli RL, Farias DS, Lima SKAF, Lira RTS, Casa Nova C, Setubal RB & Sodré EO (2018) Pequenas áreas úmidas: importância para a conservação e gestão da biodiversidade brasileira. Diversidade e Gestão 2: 122-138.). Due to the socio-environmental importance of these environments, groups of nations established in 1971 the Ramsar Convention on Wetlands of International Importance especially as Waterfowl Habitat (Secretariado da Convenção Ramsar 2004Secretariado da Convenção Ramsar (2004) The Ramsar Convention Manual: a guide to the Convention on Wetlands (Ramsar, Iran, 1971). 3rd. Secretariado da Convenção Ramsar, Gland. 78p.). Brazil is a signatory to this convention, since 1975 (Brasil 1992Brasil (1992) Decreto Legislativo n° 33, de 16 de junho de 1992. Aprova o texto da convenção sobre Zonas Úmidas de Importância Internacional, especialmente como Habitat de Aves Aquáticas, concluída em Ramsar, Irã, a 2 de fevereiro de 1971. Diário Oficial da República Federativa do Brasil. Poder Executivo, Brasília, DF. Available at <http://www2.camara.leg.br/legin/fed/decleg/1992/decretolegislativo-33-16-junho-1992-358327-exposicaodemotivos-145419-pl.html>. Access on 18 January 2021.
http://www2.camara.leg.br/legin/fed/decl... , 1996Brasil (1996) Decreto n° 1.905, de 16 de maio de 1996. Promulga a Convenção sobre Zonas Úmidas de Importância Internacional, especialmente como habitat de aves aquáticas, conhecida como Convenção de Ramsar, de 2 de fevereiro de 1971. Available at <http://www.planalto.gov.br/ccivil_03/decreto/1996/D1905.htm>. Access on 18 January 2021.
http://www.planalto.gov.br/ccivil_03/dec... ), expanding the protection of wetlands, previously legally protected only in protected areas (Tavares et al. 2012Tavares DC, Moura JF & Siciliano S (2012) As aves das áreas úmidas. Ciência Hoje 50: 42-47.).

The plants which constitute this type of environment are aquatic macrophytes, defined as macroscopic forms of aquatic vegetation, whose photosynthetically active parts are permanently, or for some months of the year submerged in the water body or floating on the water surface (Irgang & Gastal Jr. 1996Irgang BE & Gastal Jr. CVS (1996) Macrófitas aquáticas da planície costeira do RS. Edição própria dos autores, Porto Alegre. 290p.). This vegetation is composed of hydrophytes, plants that are periodically submerged at different levels and amphibious species (Bove et al. 2003Bove CP, Gil ASB, Moreira, CB & Anjos RFB (2003) Hidrófitas fanerogâmicas de ecossistemas aquáticos temporários da planície costeira do estado do Rio de Janeiro, Brasil. Acta Botanica Brasilica 17: 119-135. <https://doi.org/10.1590/S0102-33062003000100009>.
https://doi.org/10.1590/S0102-3306200300... ). These plants play important ecological functions: cycling the organic matter from this environment; favoring the increase of fauna diversity; reducing the erosion and filtering the material of allochthonous origin (Esteves & Camargo 1986Esteves FA & Camargo AFM (1986) Sobre o papel das macrófitas aquáticas na estocagem e ciclagem de nutrientes. Acta Limnologica Brasiliensia 1: 273-278.).

Brazil has the largest hydrographic network in the world with 55.5 km² (Medeiros et al. 2011Medeiros R, Young CEF, Pavese H, Araújo FFS, Pereira GS, Rodrigues CGO, Valverde Y, Pinto EM, Stein B, Gurgel HC, Santos FRP & Neves LH (2011) Unidades de conservação e desenvolvimento: a contribuição do SNUC para economia nacional. In: MMA - Ministério do Meio Ambiente (org.) Dez anos do Sistema Nacional de Unidades de Conservação da natureza: lições do passado, realizações presentes e perspectivas para o futuro. Ministério do Meio Ambiente/MMA, Brasília. Pp. 55-88.), with well-represented ecosystems in rivers and permanent or temporary lakes (Cervi et al. 2009Cervi AC, Bona C, Moço MCC & Von Linsingen L (2009) Macrófitas aquáticas do município de General Carneiro, Paraná, Brasil. Biota Neotropica 9: 215-222. <https://doi.org/10.1590/S1676-06032009000300022>.
https://doi.org/10.1590/S1676-0603200900... ). However, despite their large dimensions and the diversity of these ecosystems, the floristic and structural inventories of aquatic macrophytes need to be further intensified (Rodrigues et al. 2017Rodrigues MEF, Souza VC & Pompêo MLM (2017) Levantamento florístico de plantas aquáticas e palustres na Represa Guarapiranga, São Paulo, Brasil. Boletim de Botânica da Universidade de São Paulo 35: 1-64. <https://doi.org/10.11606/issn.2316-9052.v35i0p1-64>.
https://doi.org/10.11606/issn.2316-9052.... ). To help filling part of this gap in studies that focus on aquatic plants, Pivari et al. (2019)Pivari MOD, Melo PHA, Souza FS, Stehmann JR, Moura Júnior EG, Moreira SN, Pott VJ, Pott A, Lopes A, Moço MCC, Oliveira LS, Lins ALA, Arruda R, Morais IL, Silva GS & Ferreira RM (2019) New initiatives for Brazilian aquatic plant data management. Acta Botanica Brasilica 33: 78-87. <https://doi.org/10.1590/0102-33062018abb0280>.
https://doi.org/10.1590/0102-33062018abb... presented the data repository and an online platform, created specifically for the management of information about these plants in Brazil, with the first results for the Southeast Region.

In the state of Rio de Janeiro few inventories of aquatic plants have been carried out, however, there are some studies, with different approaches, carried out in restingas that also included these species in their listings (Tab. 1). A more comprehensive study was carried out by Bove et al. (2003)Bove CP, Gil ASB, Moreira, CB & Anjos RFB (2003) Hidrófitas fanerogâmicas de ecossistemas aquáticos temporários da planície costeira do estado do Rio de Janeiro, Brasil. Acta Botanica Brasilica 17: 119-135. <https://doi.org/10.1590/S0102-33062003000100009>.
https://doi.org/10.1590/S0102-3306200300... , listing the species of the coastal plain, presenting their biological forms and habitat. Another contribution was to the organization of the Flora of Rio de Janeiro, registering 17 families with aquatic plants (Coelho et al. 2017Coelho MAN, Baumgratz JFA, Lobão AQ, Sylvestre LS, Trovó M & Silva LAE (2017) Flora of Rio de Janeiro state: an overview of Atlantic Forest diversity. Rodriguésia 68: 1-11. <https://doi.org/10.1590/2175-7860201768101>.
https://doi.org/10.1590/2175-78602017681... ; Lourenço & Bove 2019Lourenço AR & Bove CP (2019) Flora do Rio de Janeiro: Lemnoideae (Araceae). Rodriguésia 70: e02312016. <https://doi.org/10.1590/2175-7860201970042>.
https://doi.org/10.1590/2175-78602019700... ).

A greater intensification of urbanization, since it was possible to establish a road relationship with large urban centers, resulted in the growth of irregular and illegal allotments in the municipality (Aliprandi et al. 2014Aliprandi DC, Capote G, Faria JRF, Neves EM & Sá R (2014) Análise tipomorfológica da paisagem e do sistema de espaços livres urbanos do município de Maricá (RJ): escala urbana - bacia. Paisagem e Ambiente 33: 83-96. <https://doi.org/10.11606/issn.2359-5361.v0i33p83-96>
https://doi.org/10.11606/issn.2359-5361.... ). This form of occupation proved to be disordered and with no commitment to conservation. In the municipality of Maricá, water bodies, especially the lagoon system and wetlands have been exposed to environmental degradation in recent decades, either through pollution or landfilled for real estate occupation and which have historically been filled and drained, as in the district of Itaipuaçu (e.g., Lamego 1946Lamego AR (1946) O homem e a restinga. Conselho Nacional de Geografia/IBGE, Rio de Janeiro. 227p. <https://biblioteca.ibge.gov.br/visualizacao/livros/liv27287_v2.pdf>.
https://biblioteca.ibge.gov.br/visualiza... ; Ramadon 1996Ramadon LF (1996) Ecossistemas em agonia: história ambiental de Maricá. Available at <http://www.accamtas.com.br/p/historia.html>. Access on 18 January 2021.
http://www.accamtas.com.br/p/historia.ht... ; Eirin & Bento 2005Eirin MT & Bento BB (2005) APA - Área de Proteção Ambiental. In: Lambraki A (org.) Compêndios da história de Maricá. Cop Editora e Gráfica Ltda., Rio de Janeiro. Pp. 25-36.; Coyunji 2013Coyunji MA (2013) Urbanização e ambiente: análise urbano-ambiental do processo de expansão urbana de Maricá, RJ e seus impactos socioambientais. Revista Olam Ciência & Tecnologia 13: 56-78.; Fernandez et al. 2018Fernandez E, Moraes M, Nogueira PM, Margon H, Bajgielman T, Wimmer F, Pougy N, Martins E, Loyola R, Silveira Filho TB & Martinelli G (2018) Histórico de ocupação e vetores de pressão no estado do Rio de Janeiro. In: Martinelli G, Martins E, Moraes M, Loyola R & Amaro R (org.) Livro vermelho da flora endêmica do estado do Rio de Janeiro. Andrea Jakobsson, Instituto de Pesquisas Jardim Botânico do Rio de Janeiro, Rio de Janeiro. Pp. 25-32.; Pontes et al. 2020Pontes JAL, Giannini MCM, Mello FAP, Barros AAM, Machado DNS & Marques PRB (2020) Lagoa do São Bento: proposta para a criação de unidade de conservação e infraestrutura de visitação no município de Maricá, estado do Rio de Janeiro, Brasil. Anais do Uso Público em Unidades de Conservação 8: 11-26. <https://doi.org/10.47977/2318-2148.2020.v8n13p11>.
https://doi.org/10.47977/2318-2148.2020.... ). This form of urban development was considered a milestone in the struggle for civilization, as in the state capital (Godoy et al. 2011Godoy VF, Silva AFG & Menezes PML (2011) Cartografia histórica e navegação virtual do centro do Rio de Janeiro. In: Centro de Referência em Cartografia Histórica, Universidade Federal de Minas Gerais. Anais do I Simpósio Brasileiro de Cartografia Histórica. Centro de Referência em Cartografia Histórica da Universidade Federal de Minas Gerais, Paraty. Pp. 1-16.). Currently, the biggest threat to the remaining restingas of Itaipuaçu and the Barra de Maricá is the possibility of building a Portuguese-Spanish residential and tourist complex (Souza 2015Souza EMS (2015) Um resort na restinga de Maricá/RJ: modernização do território e destruição da pesca artesanal em uma área de proteção ambiental. Espaço & Economia 6: 1-18. Available at <http://journals.openedition.org/espacoeconomia/1713>. Access on 18 January 2021.
http://journals.openedition.org/espacoec... ; Diniz et al. 2015Diniz FKB, Silva ALG, Dias BC, Assis LS, Lopes MS, Souza MC, Castro RO & Pimentel DS (2015) Levantamento de pesquisas realizadas na APA de Maricá - RJ. Revista Eletrônica Uso Público em Unidades de Conservação 3: 94-103. <https://doi.org/10.47977/2318-2148.2015.v3n5p94>.
https://doi.org/10.47977/2318-2148.2015.... ; Cantarelli et al. 2019Cantarelli EVF, Santos FM, Carvalho GCB & Carvalho L (2019) Implantação de um resort e seu impacto socioambiental - Maricá - RJ. In: XIII SEGeT, AEDB. Pp. 1-10. Available at: <https://www.aedb.br/seget/arquivos/artigos16/19424184.pdf>. Access on 18 January 2021.
https://www.aedb.br/seget/arquivos/artig... ). Its destruction results in the extinction of species, including endemic and endangered species (Araujo 2008Araujo DSD (2008) A vegetação da Restinga de Maricá: sua importância no contexto de preservação da flora fluminense. In: Processo n° 02000.000555/2008-42 - Propõe ao MMA a criação da Reserva de Desenvolvimento Sustentável da Restinga de Maricá, Ilha Cardosa e Ponta do Fundão, Município de Maricá/RJ. Available at <https://livrozilla.com/doc/960763/import%C3%A2ncia-no-contexto>. Access on 18 January 2021.
https://livrozilla.com/doc/960763/import... ; Souza 2015Souza EMS (2015) Um resort na restinga de Maricá/RJ: modernização do território e destruição da pesca artesanal em uma área de proteção ambiental. Espaço & Economia 6: 1-18. Available at <http://journals.openedition.org/espacoeconomia/1713>. Access on 18 January 2021.
http://journals.openedition.org/espacoec... ).

With the mobilization of organized civil society, the local and academic communities, part of what remained of the typical vegetation was transformed into a conservation unity in the category of Environmental Protection Area (Rio de Janeiro 1984Rio de Janeiro (1984) Decreto Estadual nº 7230 de 23 de abril de 1984. Cria Área de Proteção Ambiental na região do sistema lagunar de Maricá e dá outras providências. Available at <http://www.inea.rj.gov.br/cs/groups/public/documents/document/zwew/mde4/~edisp/inea0018630.pdf>. Access on 18 January 2021.
http://www.inea.rj.gov.br/cs/groups/publ... ). Then, this restinga has been historically studied by several areas of academic knowledge, being considered one of the most researched in Brazil (Cantarelli et al. 2019Cantarelli EVF, Santos FM, Carvalho GCB & Carvalho L (2019) Implantação de um resort e seu impacto socioambiental - Maricá - RJ. In: XIII SEGeT, AEDB. Pp. 1-10. Available at: <https://www.aedb.br/seget/arquivos/artigos16/19424184.pdf>. Access on 18 January 2021.
https://www.aedb.br/seget/arquivos/artig... ).

The restingas and the wetlands have very particular characteristics and any environmental change can generate different responses, negatively impacting them (Minshall & Rugenski 2007Minshall GW & Rugenski A (2007) Riparian processes and interactions. In: Hauer FR & Lamberti GA (eds.) Methods in stream ecology. 2nd ed. Academic Press, San Diego. Pp. 721-742.; Pompêo 2008Pompêo MLM (2008) Monitoramento e manejo de macrófitas aquáticas. Oecologia Brasiliensis 12: 406-424.). Few areas of restinga, still well preserved, remained in the middle of the urban advance outside the conservation unit in Maricá, especially wetlands (Aliprandi et al. 2014Aliprandi DC, Capote G, Faria JRF, Neves EM & Sá R (2014) Análise tipomorfológica da paisagem e do sistema de espaços livres urbanos do município de Maricá (RJ): escala urbana - bacia. Paisagem e Ambiente 33: 83-96. <https://doi.org/10.11606/issn.2359-5361.v0i33p83-96>
https://doi.org/10.11606/issn.2359-5361.... ; Castro 2015Castro PF (2015) Atlas das unidades de conservação do estado do Rio de Janeiro. 2a ed. Metalivros, São Paulo. 89p.).

A first intervention by the municipality of Maricá in the wetland known as Lagoa do São Bento, in the late 1990s, which aimed to transform it into a balneary, introduced exotic plant species and elements of urbanization. After public abandonment in the following years part of that area underwent a natural recovery of the environment. In 2017, a project was presented to city hall proposing to protect this lagoon as a fully municipal protected area “Refúgio de Vida Silvestre” (Brasil 2000Brasil (2000) Lei n° 9.985, de 18 de julho de 2000. Regulamenta o art. 225, § 1°, incisos I, II, III e VII da Constituição Federal, institui o Sistema Nacional de Unidades de Conservação da Natureza e dá outras providências. Diário Oficial da República Federativa do Brasil. Poder Executivo, Brasília, DF. Available at <http://www.planalto.gov.br/ccivil_03/leis/l9985.htm>. Access on 18 January 2021.
http://www.planalto.gov.br/ccivil_03/lei... ; Pontes et al. 2020Pontes JAL, Giannini MCM, Mello FAP, Barros AAM, Machado DNS & Marques PRB (2020) Lagoa do São Bento: proposta para a criação de unidade de conservação e infraestrutura de visitação no município de Maricá, estado do Rio de Janeiro, Brasil. Anais do Uso Público em Unidades de Conservação 8: 11-26. <https://doi.org/10.47977/2318-2148.2020.v8n13p11>.
https://doi.org/10.47977/2318-2148.2020.... ). This proposal was made by researchers based on local studies, which registered several animal and plant species, endemic and endangered [e.g., Parides ascanius (Cramer 1775); Tabebuia cassinoides (Lam.) DC.] (Pontes & Pontes 2016Pontes RCP & Pontes JAL (2016) Anfíbios da Serra da Tiririca: diversidade e conservação. In: Santos MG (org.) Biodiversidade e sociedade no Leste Metropolitano do Rio de Janeiro. Editora da Universidade do Estado do Rio de Janeiro, Rio de Janeiro. Pp. 19-68.; Duarte 2019Duarte MB (2019) A herpetofauna da Lagoa do São Bento, Itaipuaçu, Maricá, estado do Rio de Janeiro. Monografia de Graduação, Universidade Santa Úrsula, Rio de Janeiro. 73p.; Pontes et al. 2020Pontes JAL, Giannini MCM, Mello FAP, Barros AAM, Machado DNS & Marques PRB (2020) Lagoa do São Bento: proposta para a criação de unidade de conservação e infraestrutura de visitação no município de Maricá, estado do Rio de Janeiro, Brasil. Anais do Uso Público em Unidades de Conservação 8: 11-26. <https://doi.org/10.47977/2318-2148.2020.v8n13p11>.
https://doi.org/10.47977/2318-2148.2020.... ). In June 2018, despite the popular appeal and conservationist arguments, an intervention by the “Secretaria Municipal de Obras”, destroyed 40% of this wet area and part of the biota it held (Pontes 2018Pontes JAL (2018) Parecer e avaliação sobre a intervenção da Secretaria Municipal de Obras na Lagoa do São Bento, Barroco, Itaipuaçu, Maricá, RJ. Programa de Pós-graduação em Ensino de Ciências, Ambiente e Sociedade, Faculdade de Formação de Professores, UERJ, São Gonçalo. 14p. DOI: 10.13140/RG.2.2.12415.05288
https://doi.org/10.13140/RG.2.2.12415.05... , 2019Pontes JAL (2019) Parecer sobre o atual estado de conservação da Lagoa do São Bento e seu entorno, Itaipuaçu, Barroco, Maricá, RJ. Programa de Pósgraduação em Ensino de Ciências, Ambiente e Sociedade, Faculdade de Formação de Professores, UERJ, São Gonçalo. 34p. DOI: 10.13140/RG.2.2.22164.45444/1
https://doi.org/10.13140/RG.2.2.22164.45... ; Pontes et al. 2020Pontes JAL, Giannini MCM, Mello FAP, Barros AAM, Machado DNS & Marques PRB (2020) Lagoa do São Bento: proposta para a criação de unidade de conservação e infraestrutura de visitação no município de Maricá, estado do Rio de Janeiro, Brasil. Anais do Uso Público em Unidades de Conservação 8: 11-26. <https://doi.org/10.47977/2318-2148.2020.v8n13p11>.
https://doi.org/10.47977/2318-2148.2020.... ) (Fig. 1a-e).

The study aimed to inventory native aquatic plants occurring in Lagoa do São Bento, make a floristic comparison with other coastal lagoons in the state of Rio de Janeiro and analyze the regeneration of this community after anthropic impacts. In addition, estimate the amounts lost in terms of ecosystem services.

Materials and Methods

Study area

Lagoa do São Bento is located in Barroco, Itaipuaçu district, municipality of Maricá, state of Rio de Janeiro, approximately with 6.9 ha including unoccupied areas (23K 706951,85 E - 7459952,46 N, UTM, SIRGAS 2000), distant 9.9 km from Maricá lagoon system (Figs. 1a-e; 2). Although it is recognized locally as a “lagoon”, it is actually a remnant lake of a larger water body (paleolake), which was fed by rain and river drains that came from the local restinga and forested areas of the Serra da Tiririca slope. This wetland has been recovered naturally, after the end of the activities of mineral exploration, landfills, and drainage (Pontes 2018Pontes JAL (2018) Parecer e avaliação sobre a intervenção da Secretaria Municipal de Obras na Lagoa do São Bento, Barroco, Itaipuaçu, Maricá, RJ. Programa de Pós-graduação em Ensino de Ciências, Ambiente e Sociedade, Faculdade de Formação de Professores, UERJ, São Gonçalo. 14p. DOI: 10.13140/RG.2.2.12415.05288
https://doi.org/10.13140/RG.2.2.12415.05... , 2019Pontes JAL (2019) Parecer sobre o atual estado de conservação da Lagoa do São Bento e seu entorno, Itaipuaçu, Barroco, Maricá, RJ. Programa de Pósgraduação em Ensino de Ciências, Ambiente e Sociedade, Faculdade de Formação de Professores, UERJ, São Gonçalo. 34p. DOI: 10.13140/RG.2.2.22164.45444/1
https://doi.org/10.13140/RG.2.2.22164.45... ; Pontes et al. 2020Pontes JAL, Giannini MCM, Mello FAP, Barros AAM, Machado DNS & Marques PRB (2020) Lagoa do São Bento: proposta para a criação de unidade de conservação e infraestrutura de visitação no município de Maricá, estado do Rio de Janeiro, Brasil. Anais do Uso Público em Unidades de Conservação 8: 11-26. <https://doi.org/10.47977/2318-2148.2020.v8n13p11>.
https://doi.org/10.47977/2318-2148.2020.... ).

Phytophysiognomically it is characterized by restinga vegetation with a swampy margin, occupied by coastal vegetation, typical of these environments. Inside the lake body there are three dunes that form small islands in times of rain, upon which a shrub and herbaceous vegetation develops. It has 6.16 ha, with its marginal strip and a perimeter of 974 m, with a maximum depth of 1.60 m in periods of flood (Pontes 2018Pontes JAL (2018) Parecer e avaliação sobre a intervenção da Secretaria Municipal de Obras na Lagoa do São Bento, Barroco, Itaipuaçu, Maricá, RJ. Programa de Pós-graduação em Ensino de Ciências, Ambiente e Sociedade, Faculdade de Formação de Professores, UERJ, São Gonçalo. 14p. DOI: 10.13140/RG.2.2.12415.05288
https://doi.org/10.13140/RG.2.2.12415.05... , 2019Pontes JAL (2019) Parecer sobre o atual estado de conservação da Lagoa do São Bento e seu entorno, Itaipuaçu, Barroco, Maricá, RJ. Programa de Pósgraduação em Ensino de Ciências, Ambiente e Sociedade, Faculdade de Formação de Professores, UERJ, São Gonçalo. 34p. DOI: 10.13140/RG.2.2.22164.45444/1
https://doi.org/10.13140/RG.2.2.22164.45... ; Pontes et al. 2020Pontes JAL, Giannini MCM, Mello FAP, Barros AAM, Machado DNS & Marques PRB (2020) Lagoa do São Bento: proposta para a criação de unidade de conservação e infraestrutura de visitação no município de Maricá, estado do Rio de Janeiro, Brasil. Anais do Uso Público em Unidades de Conservação 8: 11-26. <https://doi.org/10.47977/2318-2148.2020.v8n13p11>.
https://doi.org/10.47977/2318-2148.2020.... ). The climate of the region, according to the Köppen-Geiger classification, is of the Aw type, that is, rainy tropical, with hot rainy summer and dry winter. The annual average temperature varies between 22 ºC and 24 ºC, with average of the total precipitation between 1,250 and 1,500 mm/year (Nimer 1989Nimer E (1989) Climatologia no Brasil. Instituto Brasileiro de Geografia e Estatística/IBGE, Rio de Janeiro. 421p.; Kottek et al. 2006Kottek M, Grieser J, Beck C, Rudolf B & Rubel F (2006) World map of the Köppen-Geiger climate classification updated. Meteorologische Zeitschrift 15: 259-263.).

Floristic inventory

The floristic inventory of Lagoa de São Bento was carried out from February 2018 to January 2020, and the walking method was used (Filgueiras et al. 1994Filgueiras TS, Nogueira PE, Brochado AL & Guala II GF (1994) Caminhamento: um método expedito para levantamentos florísticos qualitativos. Cadernos de Geociências 12: 39-43.). Both the surroundings and the interior of the lagoon were covered on foot to collect ideal material, according to techniques used in floristic inventories (Peixoto & Maia 2013Peixoto AL & Maia LC (2013) Manual de procedimentos para herbários. INCT - Herbário Virtual da Flora e dos Fungos. Editora Universitária da UFPE, Recife. 102p.). The samples were registered in the RFFP and RB herbaria [acronyms according to Thiers (continuously updated)Thiers B [continuously updated] Index Herbariorum: a global directory of public herbaria and associated staff. New York Botanical Garden’s Virtual Herbarium. Available at <http://sweetgum.nybg.org/science/ih/>. Access on 18 January 2021.
http://sweetgum.nybg.org/science/ih/... ]. For the identification of species, specialized bibliography was used, along with comparisons in the collection of RB and RFFP herbaria, in addition to consultation with specialists, when necessary. To complement the information, consultations were carried out at online scientific collections of herbaria from the state of Rio de Janeiro which have records for the studied region using the JABOT platform (JBRJ 2021JBRJ - Instituto de Pesquisas Jardim Botânico do Rio de Janeiro (2021) Jabot - Banco de Dados da Flora Brasileira. Disponível em: [http://jabot.jbrj.gov.br/]. Access on 10 January 2021.
http://jabot.jbrj.gov.br/... ). The spellings of the species were checked based on Flora do Brasil 2020Flora do Brasil 2020 (continuously updated) Flora do Brasil 2020. Jardim Botânico do Rio de Janeiro. Available at <http://floradobrasil.jbrj.gov.br/>. Access on 20 January 2021.
http://floradobrasil.jbrj.gov.br/... (continuously updated).

The floristic list was organized for families of Angiosperms based on APG IV (2016)APG IV - Angiosperm Phylogeny Group (2016) An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants: APG IV. Botanical Journal of the Linnean Society 181: 1-20. <https://doi.org/10.1111/boj.12385>.
https://doi.org/10.1111/boj.12385... and Ferns on PPG I (2016)PPG I (2016) A community-derived classification for extant lycophytes and ferns. Journal of Systematics and Evolution 54: 563-603. <https://doi.org/10.1111/jse.12229>.
https://doi.org/10.1111/jse.12229... , with Leguminosae following the LPWG (2017)LPWG (2017) A new subfamily classification of the Leguminosae based on a taxonomically comprehensive phylogeny. Taxon 66: 44-77. <https://doi.org/10.12705/661.3>.
https://doi.org/10.12705/661.3... proposal. The species were classified according to habits based on Barros (2009)Barros AAM (2009) Vegetação vascular litorânea da Lagoa de Jacarepiá, Saquarema, Rio de Janeiro, Brasil. Rodriguésia 60: 97-110. <https://doi.org/10.1590/2175-7860200960105>.
https://doi.org/10.1590/2175-78602009601... in herbs, shrubs and trees. The new occurrences for the municipality of Maricá were verified based on the consultation made in the R, RB, and RFFP herbaria, in the online databases JABOT and speciesLink and in the studies of Gil & Bove (2007)Gil ASB & Bove CP (2007) Eleocharis R. Br. (Cyperaceae) no estado do Rio de Janeiro, Brasil. Biota Neotropica 7: 36-45. <https://doi.org/10.1590/S1676-06032007000100020>.
https://doi.org/10.1590/S1676-0603200700... , Lourenço & Bove (2019)Lourenço AR & Bove CP (2019) Flora do Rio de Janeiro: Lemnoideae (Araceae). Rodriguésia 70: e02312016. <https://doi.org/10.1590/2175-7860201970042>.
https://doi.org/10.1590/2175-78602019700... , in addition to the volume 68 of Rodriguésia, which deals with 16 families occurring in aquatic environments in the state of Rio de Janeiro (Coelho et al. 2017Coelho MAN, Baumgratz JFA, Lobão AQ, Sylvestre LS, Trovó M & Silva LAE (2017) Flora of Rio de Janeiro state: an overview of Atlantic Forest diversity. Rodriguésia 68: 1-11. <https://doi.org/10.1590/2175-7860201768101>.
https://doi.org/10.1590/2175-78602017681... ). Data on endemic species in Brazil and distribution in the five regions were obtained from Flora do Brasil 2020Flora do Brasil 2020 (continuously updated) Flora do Brasil 2020. Jardim Botânico do Rio de Janeiro. Available at <http://floradobrasil.jbrj.gov.br/>. Access on 20 January 2021.
http://floradobrasil.jbrj.gov.br/... (continuously updated).

The aquatic species were classified according to their biological forms based on Irgang et al. (1984)Irgang BE, Pedralli G & Waechter JL (1984) Macrófitos aquáticos da Estação Ecológica do Taim, Rio Grande do Sul, Brasil. Roessleria 6: 395-404. and Novelo & Gallegos (1988)Novelo A & Gallegos M (1988) Estudio de la flora y la vegetación acuática relacionada con el sistema de Chinampas en el sureste del Valle de México. Biótica 13: 121-139., five categories being considered: amphibians - aquatic plants that are in the surroundings, able to withstand periods of drought and tolerate high humidity for a short time; emergent - with the root fixed to the substrate being partially submerged and the aerial part outside the water depth; fixed floating - with root fixed on the substrate and having or not floating stem, branches or leaves; free floating - floating plants not fixed to the substrate, even with the flowers protruding into the air; tolerant - terrestrial plants that have much of their life cycle in completely dry soils, but tolerate high moisture in the sediment for a short time.

Phytosociological inventory

After the 2018 anthropic intervention, floristic regeneration was evaluated with the present study. Thus, four equidistant points in Lagoa do São Bento were randomly selected, which had different physiognomic characteristics (Fig. 1e). Point 1 (22º57’22.38”S, 42º58’52.95”W) is permanently flooded and its substrate is organic on a sandy bottom. Point 2 (22º57’26.35”S, 42º58’54.34”W) is partially flooded (flood periods), with a predominantly organic soil. Point 3 (22º57’25.37”S, 42º59’01.08”W) was the most impacted, where residues from works discarded by residents are found; it is partially flooded, its end coinciding with one of the dunes remnants. Point 4 (22º57’18.91”S, 42º58’57.97”W) in addition to being impacted by the intervention, has an old concrete deck in the vicinity where an area with gym equipment was built, a remnant of the urbanization attempt undertaken in the 1990s; it is predominantly flooded and its end coincides with a small sandy island.

From each point, lines of 50 m were stretched towards the interior of the lagoon, perpendicular to the margin. Along each line, the surface sampling method (Boldrini et al. 2008Boldrini II, Trevisan R & Schneider AA (2008) Estudo florístico e fitossociológico de uma área às margens da lagoa do Armazém, Osório, Rio Grande do Sul, Brasil. Revista Brasileira de Biociências 6: 355-367.) was used, using plots of 1 m² (1 m × 1 m) (Fig. 3a-c). The coverage values of each species were estimated according to the Braun-Blanquet scale (Mueller-Dombois & Ellenberg 1974Mueller-Dombois D & Ellenberg H (1974) Aims and methods of vegetation ecology. John Wiley, New York. 580p.), four classes being considered: C1 (25% of the plot area); C2 (50%); C3 (75%) and C4 (100%). All collected data was entered in an Excel spreadsheet (version 2010) to calculate the phytosociological parameters of absolute coverage (AC), relative coverage (RC%), absolute frequency (AF), relative frequency (RF%) and the importance value (IV%) for each of the sampled species. 13 visits were made to the area, with the participation of four researchers, who spent a total sampling effort of 260 h.

In addition to native aquatic plants, ruderal and exotic plants were considered also in the phytosociological inventory. Ruderal species were separated according to Kissmann & Groth (1997Kissmann KG & Groth D (1997) Plantas infestantes e nocivas. 2ª ed. Tomo I. BASF, São Paulo. 824p., 1999Kissmann KG & Groth D (1999) Plantas infestantes e nocivas. 2ª ed. Tomo II. BASF, São Paulo. 978p., 2000Kissmann KG & Groth D (2000) Plantas infestantes e nocivas. 2ª ed. Tomo III. BASF, São Paulo. 722p.) and exotic species according to Flora do Brasil 2020Flora do Brasil 2020 (continuously updated) Flora do Brasil 2020. Jardim Botânico do Rio de Janeiro. Available at <http://floradobrasil.jbrj.gov.br/>. Access on 20 January 2021.
http://floradobrasil.jbrj.gov.br/... (continuously updated).

Statistical analysis

Shannon’s diversity indices (H’), equability (J’) and Simpson’s concentration (C) (Magurran 2011Magurran AE (2011) Medindo a diversidade biológica. Editora da Universidade Federal do Paraná, Curitiba. 261p.) were also calculated in the Microsoft Excel (2010). Rarefaction curves were generated based on individuals with a 95% confidence interval, using the rarecurve function of the R software (R Core Team 2017R Core Team (2017) R: a language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. Available at <http://www.R-project.org/>. Access on 18 January 2021.
http://www.R-project.org/... ), in order to compare the species richness. Cluster analysis was used to assess the similarity between the four lines and also among the floristic list of aquatic plants found in Lagoa do São Bento with other coastal lagoons in the state of Rio de Janeiro. In both situations, based on the occurrence of each species, a binary matrix was organized, and the cluster analysis was performed using the UPGMA method, considering the Jaccard Index as a measure of similarity (Mueller-Dombois & Ellenberg 1974Mueller-Dombois D & Ellenberg H (1974) Aims and methods of vegetation ecology. John Wiley, New York. 580p.). Statistical calculations were performed using the PAST software (Hammer et al. 2001Hammer Ø, Harper DAT & Ryan PD (2001) PAST: Paleontological statistical software package for education and data analysis. Paleontologia Electronica 4: 1-9.). Venn diagram was made to visualize species shared (Gotelli & Ellison 2016Gotelli NJ & Ellison AM (2016) Princípios de Estatística em Ecologia. Artmed, Porto Alegre. 527p.).

Additionally, the global value of ecosystem services provided by Lagoa do São Bento and the possible economic loss by the municipality, after the 2018 intervention, was calculated based on the immediate loss of 40% of the area, using ArcGIS and Photoshop software, on ESRI Basemap with resolution of 30 cm from the date before the impacts observed in 2018 (Pontes et al. 2020Pontes JAL, Giannini MCM, Mello FAP, Barros AAM, Machado DNS & Marques PRB (2020) Lagoa do São Bento: proposta para a criação de unidade de conservação e infraestrutura de visitação no município de Maricá, estado do Rio de Janeiro, Brasil. Anais do Uso Público em Unidades de Conservação 8: 11-26. <https://doi.org/10.47977/2318-2148.2020.v8n13p11>.
https://doi.org/10.47977/2318-2148.2020.... ). The values of the ecosystem services provided were calculated according to the table for wetlands in Costanza et al. (1997Costanza R, d’Arge R, Groot R, Farberk S, Grasso M, Hannon B, Limburg K, Naeem S, O’Neill RV, Paruelo J, Raskin RG, Suttonkk P & van den Belt M (1997) The value of the world’s ecosystem services and natural capital. Nature 387: 253-260. <https://doi.org/10.1038/387253a0>.
https://doi.org/10.1038/387253a0... , 2014Costanza R, Groot R, Braat L, Kubiszewski I, Fioramont L, Sutton P, Farber S & Turner RK (2014) Changes in the global value of ecosystem services. Global Environmental Change 26: 152-158. <https://doi.org/10.1016/j.gloenvcha.2014.04.002>.
https://doi.org/10.1016/j.gloenvcha.2014... , 2017Costanza R, Groot R, Sutton P, Ploeg, Anderson SJ, Kubiszewski I, Farber S & Grasso M (2017) Twenty years of ecosystem services: how far have we come and how far do we still need to go? Ecosystem Services 28: 1-16. <https://doi.org/10.1016/j.ecoser.2017.09.008>.
https://doi.org/10.1016/j.ecoser.2017.09... ), with adjustments to the US dollar and accumulated inflation (Pontes et al. 2020Pontes JAL, Giannini MCM, Mello FAP, Barros AAM, Machado DNS & Marques PRB (2020) Lagoa do São Bento: proposta para a criação de unidade de conservação e infraestrutura de visitação no município de Maricá, estado do Rio de Janeiro, Brasil. Anais do Uso Público em Unidades de Conservação 8: 11-26. <https://doi.org/10.47977/2318-2148.2020.v8n13p11>.
https://doi.org/10.47977/2318-2148.2020.... ).

Results and Discussion

Floristic analysis of aquatic plants

The floristic inventory registered 45 species, distributed in 26 families and 38 genera. Of which, 39 species are Angiosperms, belonging to 22 families and 32 genera. Six are Ferns, corresponding to four families and six genera (Tab. 2; Fig. 4a-f). Among the Angiosperms, the families with the greatest richness of species Cyperaceae (7 spp.), Araceae e Plantaginaceae (3 spp. each) stood out, representing 28.9% of the total richness. The genera Bacopa, Cyperus, Eleocharis, Ludwigia, Nymphaea, Polygonum and Rhynchospora (2 spp., each) were the most representative, being 31% of the total inventoried. The remaining 31 genera have one species each. Among the Ferns, Pteridaceae stood out with three species and the other families with one species each (Tab. 2).

The richness of aquatic macrophytes found in the study area is close to that inventoried in other regions of the state of Rio de Janeiro, as the Lagoa de Jacarepiá in Saquarema (42 spp.) (Barros 2009Barros AAM (2009) Vegetação vascular litorânea da Lagoa de Jacarepiá, Saquarema, Rio de Janeiro, Brasil. Rodriguésia 60: 97-110. <https://doi.org/10.1590/2175-7860200960105>.
https://doi.org/10.1590/2175-78602009601... ) and part of the lagoons of the PNRJ (Restinga de Jurubatiba National Park), conservation unit that covers Macaé, Carapebus and Quissamã, where the richness varied between 58 and 16 species (Lagoas do Amarra-Boi, Carapebus, Comprida, Jurubatiba, Paulista, Pires and Preta) (Bove & Paz 2009Bove CP & Paz J (2009) Guia de campo das plantas aquáticas do Parque Nacional da Restinga de Jurubatiba. Editora do Museu Nacional, Rio de Janeiro. 175p.). Areas with lesser aquatic macrophytes richness include PNRJ ponds (Encantada, Piripiri and Visgueiro), which are represented by one or two species (Bove & Paz 2009Bove CP & Paz J (2009) Guia de campo das plantas aquáticas do Parque Nacional da Restinga de Jurubatiba. Editora do Museu Nacional, Rio de Janeiro. 175p.).

When the PNRJ lagoons were analyzed together, the total richness found corresponds to 100 species, however when viewed individually, a variation in this parameter is observed. This difference is due to issues such as the different processes that originated each one, in addition to being very different in terms of chemical composition, extent and depth. Furthermore, Lagoas Encantada, Pires, Piripiri, Preta, Sea bass and Visgueiro are hypersaline, a limiting factor for the occurrence of aquatic macrophytes (Bove & Paz 2009Bove CP & Paz J (2009) Guia de campo das plantas aquáticas do Parque Nacional da Restinga de Jurubatiba. Editora do Museu Nacional, Rio de Janeiro. 175p.). On the other hand, the inventory carried out in Lagoa de Jacarepiá (Barros 2009Barros AAM (2009) Vegetação vascular litorânea da Lagoa de Jacarepiá, Saquarema, Rio de Janeiro, Brasil. Rodriguésia 60: 97-110. <https://doi.org/10.1590/2175-7860200960105>.
https://doi.org/10.1590/2175-78602009601... ) registered a richness greater than that pointed out in the present study (101 spp.), since it included typical species of sandy and ruderal plains. However, for comparison purposes, only aquatic macrophytes were considered, which justifies the differentiated richness value.

The inventoried Angiosperms are common to those found in other studies in the state of Rio de Janeiro, with 24 species also registered in the PNRJ lagoons (Bove & Paz 2009Bove CP & Paz J (2009) Guia de campo das plantas aquáticas do Parque Nacional da Restinga de Jurubatiba. Editora do Museu Nacional, Rio de Janeiro. 175p.) and 18 in the Lagoa de Jacarepiá (Barros 2009Barros AAM (2009) Vegetação vascular litorânea da Lagoa de Jacarepiá, Saquarema, Rio de Janeiro, Brasil. Rodriguésia 60: 97-110. <https://doi.org/10.1590/2175-7860200960105>.
https://doi.org/10.1590/2175-78602009601... ). The ferns found are in accordance with the knowledge of the pteridophytic flora of the restingas of the state (Santos & Araujo 2007Santos MG & Araujo DSD (2007) Lista anotada das pteridófitas das restingas do estado do Rio de Janeiro, Brasil. Revista Brasileira de Biociências 5: 378-380.).

Among the families highlighted in this study, Cyperaceae emerges with greater richness in the areas of Rio de Janeiro, a result that is also similar to that found in other studies in different regions in Brazil (Pott et al. 1989Pott VJ, Bueno NC, Pereira RAC, De Salis SM & Vieira NL (1989) Distribuição de macrófitas aquáticas numa lagoa na fazenda Nhumirim, Nhecolândia, Pantanal, MS. Acta Botanica Brasilica 3: 135-168. <https://doi.org/10.1590/S0102-33061989000300015>.
https://doi.org/10.1590/S0102-3306198900... - Midwest; Kita & Souza 2003Kita KK & Souza MC (2003) Levantamento florístico e fitofisionômico da Lagoa Figueira e seu entorno da planície alagável do alto Rio Paraná, Porto Rico, estado do Paraná, Brasil. Acta Scientiarum: Biological Sciences 25: 145-155. <https://doi.org/10.4025/actascibiolsci.v25i1.2091>.
https://doi.org/10.4025/actascibiolsci.v... - South; Matias et al. 2003Matias LQ, Amado ER & Nunes EP (2003) Macrófitas aquáticas da Lagoa de Jijoca de Jericoacoara, Ceará, Brasil. Acta Botanica Brasilica 17: 623-631. <https://doi.org/10.1590/S0102-33062003000400015>.
https://doi.org/10.1590/S0102-3306200300... - Northeast; Pivari et al. 2008Pivari MO, Pott VJ & Pott A (2008) Macrófitas aquáticas de ilhas flutuantes (baceiros) nas sub-regiões do Abobral e Miranda, Pantanal, MS, Brasil. Acta Botanica Brasilica 22: 563-571. <https://doi.org/10.1590/S0102-33062008000200023>.
https://doi.org/10.1590/S0102-3306200800... - Southeast; Pinheiro & Jardim 2015Pinheiro MNM & Jardim MAG (2015) Composição florística e formas biológicas de macrófitas aquáticas em lagos da Amazônia Ocidental, Roraima, Brasil. Biota Amazônia 5: 23-27. DOI: 10.18561/2179-5746/biotaamazonia.v5n3p23-27
https://doi.org/10.18561/2179-5746/biota... - North). This data is supported mainly by the genera Cyperus and Eleocharis, with Cyperus being the second richest in the family, occurring in different environments, while Eleocharis is found exclusively in humid areas (Gil & Bove 2007Gil ASB & Bove CP (2007) Eleocharis R. Br. (Cyperaceae) no estado do Rio de Janeiro, Brasil. Biota Neotropica 7: 36-45. <https://doi.org/10.1590/S1676-06032007000100020>.
https://doi.org/10.1590/S1676-0603200700... ; Gonçalves 2014Gonçalves JS (2014) A família Cyperaceae no município de Lavras, Minas Gerais. Dissertação de Mestrado. Universidade Federal de Lavras, Lavras. 102p.).

From the total inventoried, seven species are registered for the first time for the municipality of Maricá: Aeschynomene paniculata, Hymenachne amplexicaulis, Montrichardia linifera and Torenia thouarsii. These new occurrences are related to the sampled herbaceous form of life. The lack of data regarding floristic inventories in coastal lakes makes comparative analyses and records of characteristic species in these environments difficult. Rodrigues et al. (2017)Rodrigues MEF, Souza VC & Pompêo MLM (2017) Levantamento florístico de plantas aquáticas e palustres na Represa Guarapiranga, São Paulo, Brasil. Boletim de Botânica da Universidade de São Paulo 35: 1-64. <https://doi.org/10.11606/issn.2316-9052.v35i0p1-64>.
https://doi.org/10.11606/issn.2316-9052.... raise other issues as limitations for improving this knowledge such as the lack of collections in these water bodies, the large number of indeterminate or wrongly identified specimens, the lack of revisions in families and genera with almost exclusive occurrence in these environments, the great phenotypic plasticity they present, being easily modified by environmental conditions, and very small floral structures.

Montrichardia linifera is considered an endangered (EN) species in the state of Rio de Janeiro by Dutra Jr. et al. (2021)Dutra Jr. DLS, Machado DNS, Coelho MAN, Barros AAM & Pontes JAL (2021) Montrichardia linifera (Arruda) Schott (Araceae), uma espécie ameaçada de extinção no estado do Rio de Janeiro, Brasil. Pesquisas Botânica 75: 101-112.. Despite having a wide distribution in the north and northeast regions of Brazil, in Rio de Janeiro it occurs only in the estuary of the Paraíba do Sul river, in the northeast region of that state, and in the Lagoa do São Bento in Maricá, in an area threatened by the process of local urbanization. Another species is also categorized as endangered, Tabebuia cassinoides. Its removal or alteration of habitat is prohibited by Ordinance MMA 443/2014 (Brasil 2014Brasil (2014) Portaria do Ministério do Meio Ambiente n°. 443 de 17 de dezembro de 2014. Diário Oficial da União 245: 110-121.). The maintenance of water bodies and restingas is of fundamental importance for the conservation of these species with a reduced area of occupancy.

As for biological forms, emerging ones stood out (21 spp. - 46.7%), followed by amphibians (16 spp. - 35.5%), free floating (4 spp. - 8.9%), fixed floating (3 spp. - 6.7%) and tolerant (1 sp. - 2.2%). This distribution is different from that found in the PNRJ lagoons, where amphibious species obtained the highest percentage of biological forms (Bove & Paz 2009Bove CP & Paz J (2009) Guia de campo das plantas aquáticas do Parque Nacional da Restinga de Jurubatiba. Editora do Museu Nacional, Rio de Janeiro. 175p.). It is believed that this difference is due to the higher level of conservation in the PNRJ lagoons, as the Lagoa do São Bento has recently suffered several impacts (Pontes 2018Pontes JAL (2018) Parecer e avaliação sobre a intervenção da Secretaria Municipal de Obras na Lagoa do São Bento, Barroco, Itaipuaçu, Maricá, RJ. Programa de Pós-graduação em Ensino de Ciências, Ambiente e Sociedade, Faculdade de Formação de Professores, UERJ, São Gonçalo. 14p. DOI: 10.13140/RG.2.2.12415.05288
https://doi.org/10.13140/RG.2.2.12415.05... , 2019Pontes JAL (2019) Parecer sobre o atual estado de conservação da Lagoa do São Bento e seu entorno, Itaipuaçu, Barroco, Maricá, RJ. Programa de Pósgraduação em Ensino de Ciências, Ambiente e Sociedade, Faculdade de Formação de Professores, UERJ, São Gonçalo. 34p. DOI: 10.13140/RG.2.2.22164.45444/1
https://doi.org/10.13140/RG.2.2.22164.45... ). The dominance shown by these life forms has been associated with environmental factors such as seasonal floods, shallow waters, and species resistance to decreasing water volume (Alves et al. 2011Alves JAA, Tavares AS & Trevisan R (2011) Composição e distribuição de macrófitas aquáticas na lagoa da Restinga do Massiambu, Área de Proteção Ambiental Entorno Costeiro, SC. Rodriguésia 62: 785-801. <https://doi.org/10.1590/S2175-78602011000400007>.
https://doi.org/10.1590/S2175-7860201100... ).

Among the emerging ones, the Cyperaceae Eleocharis geniculata, Eleocharis interstincta and Fuirena umbellata species, present in abundance in the most inland part of the lagoon, are fully submerged in flood periods. In addition to these, Typha domingensis and Acrostichum danaeifolium are also common, the first being large in density on the banks of the pond. Montrichardia linifera occupies the south bank of the lagoon, in two parts, one closer to the edge and the other more to the interior of the flooded portion, these being formed by the last specimens that remained after the 2018 anthropic intervention.

Among the amphibians, Cyperus ligularis and Pleroma gaudichaudianum were found close to the margins and in areas further inside, close to Xyris jupicai, but always in stretches with sandy soil. Among the floating ones, three species were observed with greater abundance: Nymphaea pulchella, Nymphoides humboldtiana and Salvinia aff. auriculata.

The negative environmental impacts on the ecosystem affected the composition of the community of Lagoa do São Bento, as species such as Leiothrix rufula, registered in the collection of the herbarium consulted for the locality, were not found during this study, even before the 2018 intervention; while Hydrocleys nymphoides was no longer seen after this disorder. Other species such as Matourea ocymoides, Bacopa lanigera, Barrosoa betonicaeformis, Begonia fischeri, Caperonia heteropetala, Ceratopteris thalictroides, Eicchornia crassipes, Montrichardia linifera, Pistia stratiotes, Sauvagesia erecta, Tabebuia cassinoides, Torenia thouarsii, Utricularia gibba had population reduction. The study carried out in the municipalities of Recife, Santa Cruz do Capibaribe and Toritama, in the state of Pernambuco, which border the Rio Capibaribe, showed a result similar to that presented in this study. The authors compared different points on the riverbank and concluded that urbanization significantly influenced the floristic composition and structure of macrophyte communities (Xavier et al. 2016Xavier LRCC, Scherner F, Burgos DC, Barreto RC & Pereira SMB (2016) Urbanization effects on the composition and structure of macrophytes communities in a lotic ecosystem of Pernambuco State, Brazil. Brazilian Journal of Biology 76: 888-897. <https://doi.org/10.1590/1519-6984.03515>.
https://doi.org/10.1590/1519-6984.03515... ).

These impacts may also have represented an economic loss of at least US$ 72,516.56 in the 12 months following the 2017 intervention of the municipal works department, as Lagoa do São Bento provides a total of US$ 181,291.40 per year in environmental services, for the municipality of Maricá. These values were based on studies by Costanza et al. (1997Costanza R, d’Arge R, Groot R, Farberk S, Grasso M, Hannon B, Limburg K, Naeem S, O’Neill RV, Paruelo J, Raskin RG, Suttonkk P & van den Belt M (1997) The value of the world’s ecosystem services and natural capital. Nature 387: 253-260. <https://doi.org/10.1038/387253a0>.
https://doi.org/10.1038/387253a0... , 2014Costanza R, Groot R, Braat L, Kubiszewski I, Fioramont L, Sutton P, Farber S & Turner RK (2014) Changes in the global value of ecosystem services. Global Environmental Change 26: 152-158. <https://doi.org/10.1016/j.gloenvcha.2014.04.002>.
https://doi.org/10.1016/j.gloenvcha.2014... , 2017Costanza R, Groot R, Sutton P, Ploeg, Anderson SJ, Kubiszewski I, Farber S & Grasso M (2017) Twenty years of ecosystem services: how far have we come and how far do we still need to go? Ecosystem Services 28: 1-16. <https://doi.org/10.1016/j.ecoser.2017.09.008>.
https://doi.org/10.1016/j.ecoser.2017.09... ) on the economy provided by ecosystem services in natural environments, and Pontes et al. (2020)Pontes JAL, Giannini MCM, Mello FAP, Barros AAM, Machado DNS & Marques PRB (2020) Lagoa do São Bento: proposta para a criação de unidade de conservação e infraestrutura de visitação no município de Maricá, estado do Rio de Janeiro, Brasil. Anais do Uso Público em Unidades de Conservação 8: 11-26. <https://doi.org/10.47977/2318-2148.2020.v8n13p11>.
https://doi.org/10.47977/2318-2148.2020.... for the locality.

Phytosociological inventory

The phytosociological inventory sampled 200 m² of Lagoa do São Bento, and 87 species were found, belonging to 39 families and 74 genera (Tab. 3). Of these, 83 species are Angiosperms, belonging to 37 families and 70 genera and four are Ferns, belonging to two families and four genera. Of the Angiosperm families, the richest were Leguminosae (12 spp.), Poaceae (11 spp.), Cyperaceae (10 spp.) and Asteraceae (7 spp.), representing 46% of the total, while of the Ferns, three are Pteridaceae and one is Salviniaceae (4.6%).

The ten species which stood out presenting the biggest indexes on importance value (IVI) were Fuirena umbellata (16.31%), Pleroma gaudichaudianum (14.30%), Xyris jupicai (13.12%), Typha domingensis (10.91%), Salvinia aff. auriculata (10.82%), Eleocharis interstincta (9.55%), Rhynchospora gigantea Link (8.80%), Nymphoides humboldtiana (7.87%), Nymphaea caerulea Savigny (7.40%) and Clitoria laurifolia Poir. (6.28%) (Fig. 5a-f; Tab. 3).

The richness found in this sample is considered close to that reported for other phytosociological studies carried out in different regions in Brazil, such as in the Midwest (Moreira et al. 2011 - 77 sppMoreira SN, Pott A, Pott VJ & Damasceno-Junior GA (2011) Structure of pond vegetation of a vereda in the Brazilian Cerrado. Rodriguésia 62: 721-729. <https://doi.org/10.1590/S2175-78602011000400002>.
https://doi.org/10.1590/S2175-7860201100... .), Northeast (Sabino et al. 2015 - 77 sppSabino JHF, Araújo ES, Cotarelli VM, Siqueira Filho JA & Campelo MJA (2015) Riqueza, composição florística, estrutura e formas biológicas de macrófitas aquáticas em reservatórios do semiárido nordestino, Brasil. Natureza on line 13: 184-194..) and South (Boldrini et al. 2008 - 77 sppBoldrini II, Trevisan R & Schneider AA (2008) Estudo florístico e fitossociológico de uma área às margens da lagoa do Armazém, Osório, Rio Grande do Sul, Brasil. Revista Brasileira de Biociências 6: 355-367.., Alves et al. 2011 - 62 sppAlves JAA, Tavares AS & Trevisan R (2011) Composição e distribuição de macrófitas aquáticas na lagoa da Restinga do Massiambu, Área de Proteção Ambiental Entorno Costeiro, SC. Rodriguésia 62: 785-801. <https://doi.org/10.1590/S2175-78602011000400007>.
https://doi.org/10.1590/S2175-7860201100... ., Kafer et al. 2011 - 82 sppKafer DS, Colares IG & Hefler SM (2011) Composição florística e fitossociologia de macrófitas aquáticas em um banhado continental em Rio Grande, RS, Brasil. Rodriguésia 62: 835-846. <https://doi.org/10.1590/S2175-78602011000400011>.
https://doi.org/10.1590/S2175-7860201100... .). Henriques et al. (1988)Henriques RPB, Araújo DSD, Esteves FA & Franco AC (1988) Análise preliminar das comunidades de macrófitas aquáticas da lagoa Cabiúnas, Rio de Janeiro, Brasil. Acta Limnológica Brasileira 2: 783-802. in the phytosociological study carried out in Lagoa de Jurubatiba, also known as Cabiúnas (Macaé, state of Rio de Janeiro), inventoried species found in the present study, such as Aeschynomene fluminensis, Cyperus ligularis, Eichhornia crassipes, Eleocharis interstincta, Nymphoides humboldtiana, Rhynchospora holoschoenoides, Salvinia auriculata and Typha domingensis. Among these, Nymphoides humboldtiana also stood out as the most frequent in the sampling made.

The Shannon diversity index (H’) was 3.83 and the Simpson concentration was 0.03, indicating that it is an area with relatively high diversity and low concentration of species. The Pielou equability value (J’) was 0.85, which shows the uniform distribution of individuals in populations of different species, that is, there is no domain in the community by a small group of species. These results were different from those inventoried for other Brazilian areas (Tab. 4). The rarefaction curves based on the richness and abundance obtained in this sample did not reach stability (Fig. 6). The stabilization of the curve indicates that an increase in the sampling effort will no longer increase the species richness, meaning that practically all the richness of the area has been sampled. However, it is very difficult to detect all species or individuals in a given area (Gotelli & Colwell 2001Gotelli NJ & Colwell R (2001) Quantifying biodiversity: procedures and pitfalls in the measurement and comparison of species richness. Ecology Letters 4: 379-391. <https://doi.org/10.1046/j.1461-0248.2001.00230.x>.
https://doi.org/10.1046/j.1461-0248.2001... ).

Among the species with the highest IVI, Fuirena umbellata stood out (Fig. 5a), a Cyperaceae with pantropical distribution (Prata 2002Prata AP (2002) Listagem florística das Cyperaceae do estado de Roraima, Brasil. Hoehnea 29: 93-107.) and occurring in the five regions of Brazil (Alves et al. 2021Alves KNL, Hall CF, Schneider LJC, Nunes CS, Maciel-Silva JF, Gil, ASB & Fernandes-Júnior AJ (2021) Fuirena in Flora do Brasil 2020 (continuously updated) Jardim Botânico do Rio de Janeiro. Available at <http://floradobrasil.jbrj.gov.br/reflora/floradobrasil/FB7210>. Access on 18 January 2021.
http://floradobrasil.jbrj.gov.br/reflora... ). The 2018 intervention in Lagoa do São Bento favored the expansion of this species, which is not as demanding as the others in relation to environmental conditions. This condition is also verified in areas degraded by mining (Neri et al. 2011Neri AV, Soares MP, Meira Neto JAA & Dias LE (2011) Espécies de cerrado com potencial para recuperação de áreas degradadas por mineração de ouro, Paracatu-MG. Revista Árvore 35: 907-918. <https://doi.org/10.1590/S0100-67622011000500016>.
https://doi.org/10.1590/S0100-6762201100... ), showing the favoring of certain species in anthropized environments.

Pleroma gaudichaudiana and Clitoria laurifolia (Fig. 5b-c) occupied the 2nd and 10th IVI values, respectively. They are common species in Restinga de Maricá (Araujo 2000Araujo DSD (2000) Análise florística e fitogeográfica das restingas do estado do Rio de Janeiro. Tese de Doutorado. Universidade Federal do Rio de Janeiro, Rio de Janeiro. 169p.), also occurring in Lagoa do São Bento, since this wetland corresponds to a remainder of a restinga flooded area. The presence of Clitoria laurifolia can help in the recovery of the local environment, since it has characteristics such as adaptability and rusticity, which allows the colonization of degraded areas with low fertility. In addition to propagating by seeds, the species also has vegetative development, forming underground stems, an attribute that expands the colonization of new stretches where it occurs (Rodrigues et al. 2007Rodrigues MA, Paoli AAS, Barbosa JM, Barbosa LM & Santos Junior NA (2007) Caracterização de aspectos do potencial biótico (capacidade reprodutiva) de espécies importantes para a recuperação de áreas degradadas de restinga. Revista Brasileira de Biociências 5: 633-635.).

Eleocharis interstincta, Nymphoides humboldtiana, Rhynchospora gigantea, Typha domingensis and Xyris jupicai are common species in the flooded areas inventoried in the state of Rio de Janeiro (Tab. 1), with occurrence also registered in the APA da Restinga de Maricá (Araujo 2000Araujo DSD (2000) Análise florística e fitogeográfica das restingas do estado do Rio de Janeiro. Tese de Doutorado. Universidade Federal do Rio de Janeiro, Rio de Janeiro. 169p.). Eleocharis interstincta and Typha domingensis are emerging species that are of great importance in aquatic environments, as they have a high rate of primary productivity (Santos & Esteves 2002Santos AM & Esteves FA (2002) Primary production and mortality of Eleocharis interstincta in response to water level fluctuations. Aquatic Botany 74: 189-199. DOI: 10.1016/S0304-3770(02)00082-7
https://doi.org/10.1016/S0304-3770(02)00... ; Marques 2015Marques MCH (2015) Typha domingensis Pers. (Typhaceae): do artesanato à fitorremediação de ambientes aquáticos continentais eutrofizados. Dissertação de Mestrado. Universidade Federal do Rio de Janeiro, Rio de Janeiro. 104p.) and serve as a nesting shelter for waterfowl species (Tavares 2003Tavares KS (2003) A comunidade de macrófitas aquáticas em reservatórios do Médio e Baixo Rio Tietê (SP) e em lagos da Bacia do Médio Rio Doce (MG). Dissertação de Mestrado, Universidade Federal de São Carlos, São Carlos. 138p.). Both have phytoremediation potential (Marques 2015Marques MCH (2015) Typha domingensis Pers. (Typhaceae): do artesanato à fitorremediação de ambientes aquáticos continentais eutrofizados. Dissertação de Mestrado. Universidade Federal do Rio de Janeiro, Rio de Janeiro. 104p.; Ribeiro 2015Ribeiro PRCC (2015) Seleção de espécies para fitorremediação de bário sob condições de alagamento. Dissertação de Mestrado. Universidade Federal do Espírito Santo, Vitória. 90p.), which makes them promising species for absorbing potentially toxic elements from the soil. In addition, Typha dominguensis also has the ability to control margin erosion (Tavares 2003Tavares KS (2003) A comunidade de macrófitas aquáticas em reservatórios do Médio e Baixo Rio Tietê (SP) e em lagos da Bacia do Médio Rio Doce (MG). Dissertação de Mestrado, Universidade Federal de São Carlos, São Carlos. 138p.). Rhynchospora gigantea and Xyris jupicai are two amphibious species, the first of which occurs in open margins, wet savannas and swamps, forming dense colonies and being an important element in the consolidation of floating islands (Guaglianone 2001Guaglianone ER (2001) Contribución al estudio del género Rhynchospora (Cyperaceae) V. Sección Longirostres en América austral. Darwiniana 39: 287-342. <https://doi.org/10.14522/darwiniana.2014.393-4.238>.
https://doi.org/10.14522/darwiniana.2014... ; Fedón & Colonnello 2004Fedón IC & Colonnello G (2004) Rhynchospora gigantea Link (Cyperaceae), nuevo registro para el estado Sucre y notas sobre su hábitat. Acta Botanica Venezuelica 27: 65-68.). The second (Fig. 5d) preferably inhabits swampy environments, reaching greater proportions as there is an increase in water saturation (Lozano 2015Lozano ED (2015) A família Xyridaceae C. Agardh no estado do Paraná. Dissertação de Mestrado. Universidade Federal do Paraná, Curitiba. 96p.).

Nymphoides humboldtiana and Salvinia aff. auriculata are normally observed in lentic environments (Barros 2009Barros AAM (2009) Vegetação vascular litorânea da Lagoa de Jacarepiá, Saquarema, Rio de Janeiro, Brasil. Rodriguésia 60: 97-110. <https://doi.org/10.1590/2175-7860200960105>.
https://doi.org/10.1590/2175-78602009601... ; Rodrigues et al. 2017Rodrigues MEF, Souza VC & Pompêo MLM (2017) Levantamento florístico de plantas aquáticas e palustres na Represa Guarapiranga, São Paulo, Brasil. Boletim de Botânica da Universidade de São Paulo 35: 1-64. <https://doi.org/10.11606/issn.2316-9052.v35i0p1-64>.
https://doi.org/10.11606/issn.2316-9052.... ) and in this study were among the ten species with the highest IVI, being categorized as fixed and free floating, respectively. Some studies carried out in the state of Rio de Janeiro (Tab. 1) had been identifying the collections of Nymphoides humboldtiana as Nymphoides indica, however Tippery & Les (2011)Tippery NP & Les DH (2011) Phylogenetic relationships and morphological evolution in Nymphoides (Menyanthaceae). Systematic Botany 36: 1101-1113. DOI: 10.1600/036364411X605092
https://doi.org/10.1600/036364411X605092... showed, based on nuclear molecular data, the distinction between Nymphoides indica and Nymphoides humboldtiana and that the first is related to the Paleotropical Region. Thus, Barcelos & Bove (2017)Barcelos FRB & Bove CP (2017) Flora do Rio de Janeiro: Menyanthaceae. Rodriguésia 68: 77-79. <https://doi.org/10.1590/2175-7860201768113>.
https://doi.org/10.1590/2175-78602017681... identified the specimens occurring in the state only as Nymphoides humboldtiana (Fig. 5e).

Similarity analysis

The cluster analysis (Fig. 7; Tab. 5) based on the floristic list of native aquatic plants gathered a total of 131 species, with presence and absence data for nine wetlands in the state of Rio de Janeiro. Out of the 131 species, twelve were more present in the wetlands analyzed, making up 9% of the total: Eleocharis geniculata, Ludwigia leptocarpa, Nymphoides humboldtiana, Salvinia biloba and Typha domingensis (8 areas each), Centella asiatica and Oldenlandia salzmannii (7 areas each), Bacopa monnieri, Coccocypselum capitatum, Nymphaea pulchella, Utricularia gibba and Xyris jupicai (6 areas each). On the other hand, 50 taxa, that is, 38% of all registered species, are present in a single occurrence area.

The dendrogram (Fig. 7) presents successive variations in the levels of similarities, showing two groups well supported by a cophenetic correlation coefficient of 0.86, with the cut-off line at 0.15. The analysis showed a high level of dissimilarity, highlighting the heterogeneity of these flooded environments in the state of Rio de Janeiro.

The first group united the Jacarepiá and São Bento lagoons. They are located in different regions of the state of Rio de Janeiro, but in neighboring municipalities. Lagoa de Jacarepiá is located in Saquarema, in the Baixadas Litorâneas region (formerly Região dos Lagos) and Lagoa do São Bento is in Maricá in the Metropolitan East. The second group is formed by seven lakes located in the Norte Fluminense region, between the municipalities of Macaé, Carapebus and Quissamã. This group is subdivided into a larger group (Amarra-Boi, Carapebus, Comprida, Jurubatiba and Paulista lakes) and a smaller group (Pires and Preta lakes).

The lagoons of Jacarepiá and São Bento are water bodies that have 30% of similarity to each other and are spaced about 60 km apart. They have 42 and 47 species, respectively, sharing 21 species (Fig. 8). Six species occur only in these lagoon bodies: Cyperus aggregatus, Pistia stratiotes, Pleroma gaudichaudianum, Rhynchanthera dichotoma, Salvinia auriculata and Tabebuia cassinoides. They presented species richness values close to or greater than those recorded in the PNRJ lakes.

The seven lakes in the North Fluminense Region are part of the Parque Nacional da Restinga de Jurubatiba (PNRJ), which represents the largest restinga area in the state of Rio de Janeiro and is the first National Park in Brazil to exclusively comprise this type of vegetation (Rocha et al. 2004Rocha CFD, Bergallo HG, Alves MAS & Van Sluys M (2004) A Restinga de Jurubatiba e a conservação dos ambientes de restinga do estado do Rio de Janeiro. In: Rocha CFD, Esteves FA & Scarano FR (eds.) Pesquisas de longa duração na Restinga de Jurubatiba - ecologia, história natural e conservação. RiMa Editora, São Carlos. Pp. 341-352.). These lagoon bodies are very variable in terms of their abiotic and biotic components, but all are considered shallow, not exceeding the maximum depth of 3.0 m. The subgroups formed show exactly the separation of the hypersaline lagoons (Pires and Preta) from the freshwater lagoons. These water bodies are 27% similar to one another and are adjacent. Both are parallel to the coastline and are located at the eastern end of the PNRJ, Preta lagoon being the second largest of all with 5.30 km², while Pires has 1.62 km². Both have an alkaline pH and, although Preta receives fluvial input from the Rio Preto, both are hypersaline (Bove & Paz 2009Bove CP & Paz J (2009) Guia de campo das plantas aquáticas do Parque Nacional da Restinga de Jurubatiba. Editora do Museu Nacional, Rio de Janeiro. 175p.), which is reflected in the composition of the aquatic plants present in these lagoon bodies.

The five lakes located in the extreme west of the PNRJ are grouped into Amarra-Boi/Carapebus (38% similarity) and Paulista/Jurubatiba (45%), with the Lagoa Comprida standing out. The latter has 45 species, eight of which are exclusive (Diodia gymnocephala, Eleocharis minima, Irlbachia purpurascens, Perama hirsuta, Potamogeton montevidensis, Rhynchospora hirta and Scleria soronia). It does not receive constant river input, but it is freshwater. It is rich in humic compounds, which is reflected in its acidic pH (Bove & Paz 2009Bove CP & Paz J (2009) Guia de campo das plantas aquáticas do Parque Nacional da Restinga de Jurubatiba. Editora do Museu Nacional, Rio de Janeiro. 175p.).

Amarra-Boi is the lake with one of the lowest levels of salinity and has the most acidic pH (about 3.91), being susceptible to drought in the dry season (Luz et al. 2011Luz JL, Mangolin R, Esbérard CEL & Bergallo HG (2011) Morcegos (Chiroptera) capturados em lagoas do Parque Nacional da Restinga de Jurubatiba, Rio de Janeiro, Brasil. Biota Neotropica 11: 161-168. DOI: 10.1590/S1676-06032011000400016). 21 species were recorded at the site (the second lowest richness value among the nine areas). Of the 21 species inventoried, in the Amarra-Boi lagoon 90% of the species (19 spp.) are common to the Carapebus lagoon, with which it obtained 38% similarity. The Carapebus lagoon is the largest in the PNRJ, although it is not the richest in species. It is subject to intense anthropogenic pressure, especially with regard to the discharge of domestic and industrial effluents, which increases the degree of local eutrophication (Paula 2014Paula LS (2014) Caracterização Geoquímica da Lagoa de Carapebus - RJ. Dissertação de Mestrado. Instituto Federal de Educação, Ciência e Tecnologia Fluminense, Macaé. 74p.). The opening of the bar in these lakes during periods of high precipitation by the surrounding community, as well as in Jurubatiba and Paulista, makes contact with sea water at that time.

Jurubatiba and Paulista are among the richest in the PNRJ, having 58 and 45 species, respectively, and sharing 32 species (45% similarity). Eleocharis equisetoides, Fuirena robusta, Mayaca fluviatilis and Najas arguta were inventoried only in these areas. They are lakes that extend perpendicularly to the coastline and have depths of 2.90 m, this being the deepest in the analysis (Jurubatiba), followed by Paulista with 2.20 m. According to Bove & Paz (2009)Bove CP & Paz J (2009) Guia de campo das plantas aquáticas do Parque Nacional da Restinga de Jurubatiba. Editora do Museu Nacional, Rio de Janeiro. 175p., the Jurubatiba lake is the richest in species due to the physical-chemical composition of the water and the evolutionary history of its formation.

The results indicate that the composition of aquatic plants in the evaluated coastal lakes can be influenced not only by biogeochemical factors, but also by human interventions. The current process of anthropization and decharacterization of water bodies is a preponderant factor to be discussed in comparative analyses and may guide questions of richness and beta diversity.

The cluster analysis (Fig. 9; Tab. 6) based on the species sampled in the phytosociological inventory was supported by the cophenetic correlation coefficient of 0.97 and indicated the formation of a group joining plots 1 and 4 with a similarity of 40%. These two areas were the most affected by anthropic interventions carried out by the city of Maricá, reducing species richness and selecting those that are more general. Plots 2 and 3 appeared isolated in the dendrogram, associating in approximately 30% and 20%, respectively, with the formed group. Although 87 species were sampled, the greatest richness was observed in plot 3 (45 spp.), that is, approximately half of the total inventoried. The major contribution to this result may have been due to the fact that 40 species (46% of the total inventoried) were only sampled in one of the four plots, while only seven (8%) occurred in all plots. The latter are precisely among the 10 with the highest IVI (Eleocharis interstincta, Fuirena umbellata, Nymphoides humboldtiana, Pleroma gaudichaudianum, Rhynchospora gigantea, Salvinia aff. auriculata and Xyris jupicai).

Exotic species in Lagoa do São Bento

The fixed floating Nymphaea caerulea (Fig. 5f) is of African origin but occurs as a subspontaneous in the Neotropical Region (Padgett & Les 2004Padgett DJ & Les DH (2004) Nymphaeaceae. In: Smith N, Mori SA, Henderson A, Stevenson DW & Heald SV (eds.) Flowering plants of the Neotropics. Princeton University Press, Princeton. Pp. 271-273.). This species was reported for the state of São Paulo (Amaral et al. 2008Amaral MCE, Bittrich V, Faria AD, Anderson LO & Aona LYS (2008) Guia de campo para plantas aquáticas e palustres do estado de São Paulo. Holos Editora, Ribeirão Preto. 452p.), Roraima (Pinheiro & Jardim 2015Pinheiro MNM & Jardim MAG (2015) Composição florística e formas biológicas de macrófitas aquáticas em lagos da Amazônia Ocidental, Roraima, Brasil. Biota Amazônia 5: 23-27. DOI: 10.18561/2179-5746/biotaamazonia.v5n3p23-27
https://doi.org/10.18561/2179-5746/biota... ) and recorded in two studies carried out in the state of Minas Gerais by Pivari et al. (2011)Pivari MO, Oliveira VB, Costa FM, Ferreira RM & Salino A (2011) Macrófitas aquáticas do sistema lacustre do Vale do Rio Doce, Minas Gerais, Brasil. Rodriguésia 62: 759-770. <https://doi.org/10.1590/S2175-78602011000400005>.
https://doi.org/10.1590/S2175-7860201100... and Tavares-Silva et al. (2018)Tavares-Silva P, Lima LV, Andrade RC, Cabral A, Paula MA & Ferreira FM (2018) Flora vascular exótica e daninha do Jardim Botânico da Universidade Federal de Juiz de Fora, Minas Gerais, Brasil. Pesquisas, Botânica 71: 47-61. in the lacustrine system of Vale do Rio Doce and in the Botanical Garden of Juiz de Fora, respectively. In the state of Rio de Janeiro there are records of collections of this species for the municipalities of Cachoeiras de Macacu, Campos dos Goytacazes, Itatiaia, Macaé, Magé and Vassouras (Moreira & Bove 2017Moreira ADR & Bove CP (2017) Flora do Rio de Janeiro: Nymphaeaceae. Rodriguésia 68: 91-97. <https://doi.org/10.1590/2175-7860201768116>.
https://doi.org/10.1590/2175-78602017681... ). In Lagoa do São Bento there is a report that it was introduced between the 1980s and 1990s, when there was an attempt to transform the lagoon into a balneary. The present study observed that Nymphaea caerulea benefited from the anthropic alteration process that occurred, presenting a high IVI. It is similar to Nymphaea pulchella, which also occurs in this wetland and also has a daytime floral anthesis, with N. caerulea being differentiated by the lilac-bluish coloration on the apex of the petals and leaves with margins from entire to slightly crenate. Nymphaea pulchella presents white petals and irregularly jagged leaves (Moreira & Bove 2017Moreira ADR & Bove CP (2017) Flora do Rio de Janeiro: Nymphaeaceae. Rodriguésia 68: 91-97. <https://doi.org/10.1590/2175-7860201768116>.
https://doi.org/10.1590/2175-78602017681... ).

Six other exotic plants were recorded in the sampling, such as Allamanda cathartica L., Eleusine indica (L.) Gaertn., Megathyrsus maximus (Jacq.) B.K.Simon & S.W.L.Jacobs, Syzygium cumini (L.) Skeels, Turnera ulmifolia L. and Urochloa plantaginea (Link) R.D.Webster, making up 8% of the total sample. These plants, along with 33 other ruderal species (38%) (Tab. 3) have significantly colonized the lagoon’s surroundings. The presence of these species in flooded environments has also been verified in other studies (Barros 2009Barros AAM (2009) Vegetação vascular litorânea da Lagoa de Jacarepiá, Saquarema, Rio de Janeiro, Brasil. Rodriguésia 60: 97-110. <https://doi.org/10.1590/2175-7860200960105>.
https://doi.org/10.1590/2175-78602009601... ; Xavier et al. 2016Xavier LRCC, Scherner F, Burgos DC, Barreto RC & Pereira SMB (2016) Urbanization effects on the composition and structure of macrophytes communities in a lotic ecosystem of Pernambuco State, Brazil. Brazilian Journal of Biology 76: 888-897. <https://doi.org/10.1590/1519-6984.03515>.
https://doi.org/10.1590/1519-6984.03515... ; Rodrigues et al. 2017Rodrigues MEF, Souza VC & Pompêo MLM (2017) Levantamento florístico de plantas aquáticas e palustres na Represa Guarapiranga, São Paulo, Brasil. Boletim de Botânica da Universidade de São Paulo 35: 1-64. <https://doi.org/10.11606/issn.2316-9052.v35i0p1-64>.
https://doi.org/10.11606/issn.2316-9052.... ). They are related to the anthropic disturbance that has been occurring in the flooded areas over the years and to characteristics such as propagule pressure, strong adaptation to low water depth, large seed production and resistance to environmental adversities (Havel et al. 2015Havel JE, Kovalenko KE, Thomaz SM, Amalfitano S & Kats LB (2015) Aquatic invasive species: challenges for the future. Hydrobiologia 750: 147-170. <https://doi.org/10.1007/s10750-014-2166-0>.
https://doi.org/10.1007/s10750-014-2166-... ).

A ipê-amarelo, Handroanthus serratifolius (Vahl) S.Grose, and an ingá-de-metro, Inga edulis Mart., which have no natural occurrence in the area and were planted by the lagoon, the first by the city hall and the second by a local resident. Around the area some exotic species were cultivated with the purpose of afforestation and landscaping (Cajanus cajan (L.) Millsp., Delonix regia (Hook.) Raf., Furcraea foetida (L.) Haw., Moquilea tomentosa Benth., Mangifera indica L., Morinda citrifolia L. and Syzygium cumini). In addition, the hemiepiphyte Syngonium podophyllum Schott, grown in the homes as an ornamental plant, was discarded as “garden garbage” on the margins of this wetland and, due to its vegetative propagation, has been growing on the trees.

Mucuna pruriens (L.) DC., Ricinus communis L. and Tithonia diversifolia (Hemsl.) A. Gray, although not sampled in the inventory, were observed occupying part of the south bank of the lagoon, where an extensive Montrichardia linifera imbezal occurred, destroyed in the intervention carried out in 2018. Several adult individuals of Albizia lebbeck (L.) Benth. and Terminalia catappa L. were also registered on the margins of this wetland. Albizia lebbeck occurs as an exotic invader and was maintained during the process of removing the vegetation cover. Terminalia catappa occurs as a result of the dispersion of its seeds by bats of the family Phyllostomidae. These animals, common in the region, are great seed dispersers of native and exotic species, as in the case of this species (Teixeira & Peracchi 1996Teixeira SC & Peracchi AL (1996) Morcegos do Parque Estadual da Serra da Tiririca, Rio de Janeiro, Brasil (Mammalia, Chiroptera). Revista Brasileira de Zoologia 13: 61-66. <https://doi.org/10.1590/S0101-81751996000100005>.
https://doi.org/10.1590/S0101-8175199600... ; Plucênio et al. 2013Plucênio, RM, Dechoum, MS & Castellani TT (2013) Invasão biológica em restinga: o estudo de caso de Terminalia catappa L. (Combretaceae). Biodiversidade Brasileira 3: 118-136.).

The presence of these species in this restinga wetland goes against conservation, as one of the factors that aggravate environmental degradation is biological contamination by exotic plants (Machado et al. 2020Machado DNS, Barros AAM & Ribas LA (2020) Exotic plants in a rocky outcrop area in the municipality of Niterói, Rio de Janeiro state, Brazil. Journal of Coastal Conservation 24: 1-13. <https://doi.org/10.1007/s11852-019-00719-6>.
https://doi.org/10.1007/s11852-019-00719... ). Among the species reported for the lagoon, six are mentioned with occurrence in the restingas of the Southeast Region: Delonix regia, Furcraea foetida, Megathyrsus maximus, Ricinus communis, Syzygium cumini and Terminalia catappa (Ribas 2018Ribas PM (2018) Origem e rota das introduções: um panorama da vegetação exótica presente no ecossistema de restinga do Sudeste brasileiro. Dissertação de Mestrado. Universidade Santa Cecília, Santos. 69p.). Furcraea foetida and Megathyrsus maximus show serious invasive behavior, as verified by Machado et al. (2020)Machado DNS, Barros AAM & Ribas LA (2020) Exotic plants in a rocky outcrop area in the municipality of Niterói, Rio de Janeiro state, Brazil. Journal of Coastal Conservation 24: 1-13. <https://doi.org/10.1007/s11852-019-00719-6>.
https://doi.org/10.1007/s11852-019-00719... in areas close to the lagoon in Serra da Tiririca. Havel et al. (2015)Havel JE, Kovalenko KE, Thomaz SM, Amalfitano S & Kats LB (2015) Aquatic invasive species: challenges for the future. Hydrobiologia 750: 147-170. <https://doi.org/10.1007/s10750-014-2166-0>.
https://doi.org/10.1007/s10750-014-2166-... point out that freshwater ecosystems have greater biodiversity per surface area than marine and terrestrial ecosystems and, at the same time, have been profoundly transformed by invasive exotic species linked to a wide variety of taxonomic groups.

The high richness of species associated with wetlands and the little knowledge of their ecological aspects demonstrate the importance of intensifying floristic and phytosociological studies in these environments. In the state of Rio de Janeiro, the swamps and coastal regions are subject to environmental impacts, as they are occupied by allotments and urban projects (Rocha et al. 2003Rocha CFD, Bergallo HG, Alves MAS & Van Sluys M (2003) A biodiversidade nos grandes remanescentes florestais do estado do Rio de Janeiro e nas restingas da Mata Atlântica. RiMa Editora, São Carlos. 134p.). The history of the capital of Rio de Janeiro is marked by the transformation of wetlands into landfills, which at the time was considered a symbol in the struggle for progress (Godoy et al. 2011Godoy VF, Silva AFG & Menezes PML (2011) Cartografia histórica e navegação virtual do centro do Rio de Janeiro. In: Centro de Referência em Cartografia Histórica, Universidade Federal de Minas Gerais. Anais do I Simpósio Brasileiro de Cartografia Histórica. Centro de Referência em Cartografia Histórica da Universidade Federal de Minas Gerais, Paraty. Pp. 1-16.).

Some of the species of aquatic plants inventoried in the present study had already been highlighted in lagoons in the city by Oliveira et al. (1955)Oliveira L, Nascimento RN, Krau L & Miranda A (1955) Observações biogeográficas e hidrobiológicas sobre a Lagoa de Maricá. Memórias do Instituto Oswaldo Cruz 53: 228-262., which drew attention to the first allotments implemented. Ramadon (1996)Ramadon LF (1996) Ecossistemas em agonia: história ambiental de Maricá. Available at <http://www.accamtas.com.br/p/historia.html>. Access on 18 January 2021.
http://www.accamtas.com.br/p/historia.ht... , Pontes (2018Pontes JAL (2018) Parecer e avaliação sobre a intervenção da Secretaria Municipal de Obras na Lagoa do São Bento, Barroco, Itaipuaçu, Maricá, RJ. Programa de Pós-graduação em Ensino de Ciências, Ambiente e Sociedade, Faculdade de Formação de Professores, UERJ, São Gonçalo. 14p. DOI: 10.13140/RG.2.2.12415.05288
https://doi.org/10.13140/RG.2.2.12415.05... , 2019Pontes JAL (2019) Parecer sobre o atual estado de conservação da Lagoa do São Bento e seu entorno, Itaipuaçu, Barroco, Maricá, RJ. Programa de Pósgraduação em Ensino de Ciências, Ambiente e Sociedade, Faculdade de Formação de Professores, UERJ, São Gonçalo. 34p. DOI: 10.13140/RG.2.2.22164.45444/1
https://doi.org/10.13140/RG.2.2.22164.45... ) and Pontes et al. (2020)Pontes JAL, Giannini MCM, Mello FAP, Barros AAM, Machado DNS & Marques PRB (2020) Lagoa do São Bento: proposta para a criação de unidade de conservação e infraestrutura de visitação no município de Maricá, estado do Rio de Janeiro, Brasil. Anais do Uso Público em Unidades de Conservação 8: 11-26. <https://doi.org/10.47977/2318-2148.2020.v8n13p11>.
https://doi.org/10.47977/2318-2148.2020.... indicated, precisely, the consequence of all these years of investee due to the occupation of Restinga de Itaipuaçu by real estate speculation. This area of sandy plain extended up to the slopes of Serra da Tiririca and the flooded environments were very common and endowed with a flora adapted to the characteristics of these swampy stretches. However, as highlighted by Araujo (2008)Araujo DSD (2008) A vegetação da Restinga de Maricá: sua importância no contexto de preservação da flora fluminense. In: Processo n° 02000.000555/2008-42 - Propõe ao MMA a criação da Reserva de Desenvolvimento Sustentável da Restinga de Maricá, Ilha Cardosa e Ponta do Fundão, Município de Maricá/RJ. Available at <https://livrozilla.com/doc/960763/import%C3%A2ncia-no-contexto>. Access on 18 January 2021.
https://livrozilla.com/doc/960763/import... and Neves et al. (2017)Neves DM, Dexter KG, Pennington RT, Valente ASM, Bueno ML, Eisenlohr PV, Fontes MAL, Miranda PLS, Moreira SN, Rezende VL, Saiter FZ & Oliveira-Filho AT (2017) Dissecting a biodiversity hotspot: the importance of environmentally marginal habitats in the Atlantic Forest Domain of South America. Diversity and Distributions 23: 898-909. <https://doi.org/10.1111/ddi.12581>.
https://doi.org/10.1111/ddi.12581... , the search for conservation goes beyond the inventory of biological diversity and lies mainly in the fact that these ecosystems peripheral to the Atlantic Forest have limiting characteristics to their colonization, so that 45% of all species in this biome occur only in these bank habitats, such as restinga. This means that the destruction or mischaracterization of these environments incurs the inestimable loss of a series of species, many endemic and threatened with extinction.

The richness of aquatic plants in this wetland is recorded in the present study and, concomitantly, it is presented, in the phytosociological analysis, a contribution of species that is mostly composed of native ones. However, the interventions that were carried out in Lagoa do São Bento, followed by the abandonment of the site, the lack of governmental commitment to an effective conservation project, in addition to the disposal of household and garden waste, have led to the population decline of many native species and favoring colonization by exotic and ruderal plants. This process of biological invasion expansion is registered in several areas of the state of Rio de Janeiro, and must be fought with public policies (Bergallo et al. 2021Bergallo HG, Silveira Filho TB & Ziller SR (2021) Primeira lista de referência de espécies exóticas invasoras no estado do Rio de Janeiro - Brasil: implicações para pesquisas, políticas e manejo. Bioinvasiones 8: 3-18.). The urbanization of the surroundings of Lagoa do São Bento facilitated the occupation, dispersion and introduction of invasive alien species on its banks by residents. Maricá does not yet have a protection policy for the area, nor for combating these species (Pontes et al. 2020Pontes JAL, Giannini MCM, Mello FAP, Barros AAM, Machado DNS & Marques PRB (2020) Lagoa do São Bento: proposta para a criação de unidade de conservação e infraestrutura de visitação no município de Maricá, estado do Rio de Janeiro, Brasil. Anais do Uso Público em Unidades de Conservação 8: 11-26. <https://doi.org/10.47977/2318-2148.2020.v8n13p11>.
https://doi.org/10.47977/2318-2148.2020.... ), as we see in Brazil (Ziller & Dechoum 2013Ziller SR & Dechoum MS (2013) Plantas e vertebrados exóticos invasores em unidades de conservação no Brasil. Biodiversidade Brasileira 3: 4-31.; Ziller et al. 2020Ziller SR, Dechoum MS, Silveira RAD, Rosa HM, Motta MS, Silvia LF, Oliveira BCM & Zenni RD (2020) A priority-setting scheme for the management of invasive non-native species in protected areas. Neobiota 62: 591-606. <https://doi.org/10.3897/neobiota.62.52633>.
https://doi.org/10.3897/neobiota.62.5263... ), especially in the state of Rio de Janeiro (Bergallo et al. 2021Bergallo HG, Silveira Filho TB & Ziller SR (2021) Primeira lista de referência de espécies exóticas invasoras no estado do Rio de Janeiro - Brasil: implicações para pesquisas, políticas e manejo. Bioinvasiones 8: 3-18.).

Due to the threats that it suffers and its relevant biota with the presence of species threatened with extinction of both flora and fauna, its legal protection is indicated as a restinga remnant, set amid a recently urbanized matrix. This instrument will allow the re-planning of actions aimed at local conservation, monitoring of fauna and the management of exotic and ruderal species in what is one of the last wetlands that remains in the municipality of Maricá.

Acknowledgements

We thank Cristiam Marins Marques Campos, Gabriel Bergiante Chermautt, Lucas Ferraz Pereira and Sara Kahwage Sarmento, for assistance in the collection of data; the team of Laboratório de Estudos Interdisciplinares Culturais e Ambientais (LEICA) and Faculdade de Formação de Professores, Universidade do Estado do Rio de Janeiro (FFP/ UERJ) and other collaborators; the taxonomists Andréia Donza Rezende Moreira, Diego Nunes da Silva, Eliane de Lima Jacques, Elsie Franklin Guimarães, Luiz José Soares Pinto, Marcelo Guerra Santos, Marcus Alberto Nadruz Coelho and Roberto Lourenço Esteves, for determining the material; drivers Carlos Roberto Miranda de Carvalho, Diogo Torquato and Wanderson Conceição de Oliveira; Daniel Lucas Gonçalves Bacellar, for translating the article to English; and to CETREINA-UERJ, for the complementary internship scholarships to the first author.

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