Estructura de las comunidades meiofaunales en una playa arenosa tropical urbana en Pernambuco, Brasil

Contenido principal del artículo

Mariana F Cavalcanti
https://orcid.org/0000-0002-3975-0699
Paula AS Chaddad
https://orcid.org/0000-0002-3273-8451
Érika Santos
https://orcid.org/0000-0002-9721-3007
Betânia C Guilherme
https://orcid.org/0000-0001-5459-2222

Resumen

Las playas arenosas son uno de los ecosistemas costeros más extensos de Brasil y constituyen importantes zonas de amortiguamiento entre el ambiente terrestre y el marino. El presente estudio tuvo como objetivo analizar la distribución y la variación espaciotemporal de la comunidad meiofaunal de una playa arenosa tropical urbana con particular énfasis en la nematofauna. Establecimos 4 transectos durante 2 periodos de muestreo para evaluar diferentes zonas de playa. La meiofauna estuvo compuesta por 8 taxones, y la nematofauna consistió en 5 órdenes, 16 familias y 45 géneros. Las comunidades meiofaunales siguieron los estándares cualitativos-cuantitativos de las de otras playas arenosas tropicales en el noreste de Brasil. La comunidad nematofaunal presentó variación en su composición y estructura trófica entre los meses secos y los lluviosos, los cuales no presentaron correlación significativa con las características granulométricas. Esto sugiere que otras variables pueden influir en la estructura de las comunidades nematofaunales en la playa de Gaibu. Se requieren urgentemente más estudios de investigación sobre la biodiversidad de las comunidades meiofaunales en las playas arenosas del noreste de Brasil debido a la falta de información disponible sobre estos ambientes y el estrés extremo bajo al que están sujetas.

Descargas

Los datos de descargas todavía no están disponibles.

Detalles del artículo

Cómo citar
Cavalcanti, M. F., Chaddad, P. A., Santos, Érika, & Guilherme, B. C. (2023). Estructura de las comunidades meiofaunales en una playa arenosa tropical urbana en Pernambuco, Brasil. Ciencias Marinas, 49. https://doi.org/10.7773/cm.y2023.3294
Sección
Artículo de investigación

Métrica

Citas

Albuquerque EF, Brandão-Pinto AP, Queiroz-Perez Ad’A, Gomes- Veloso V. 2007. Spatial and temporal changes in interstitial meiofauna on a sandy ocean beach of South America. Braz J Oceanogr. 55(2):121-131. https://doi.org/10.1590/s1679-87592007000200005

Alongi DM. 1990. Community dynamics of free-living nematodes in some tropical mangrove and sandflats. Bull Mar Sci. 46:358-373.

[APAC] Agência Pernambucana de Águas e Clima. 2014. Boletim do Clima, síntese climática. Recife (Brazil): APAC; accessed 2021 June. http://www.apac.pe.gov.br.

Barbosa de Araújo MC, Ferreira da Costa M. 2008. Environmental quality indicators for recreational beaches classification. J Coast Res. 246:1439-1449. https://doi.org/10.2112/06-0901.1

Bongers T, Ferris H. 1999. Nematode community structure as a bioindicator in environmental monitoring. Trends Ecol Evol. 14(6):224-228. https://doi.org/10.1016/s0169-5347(98)01583-3

Braga RAP, Cabral JJSP, Gusmão PT, Paiva ALR. 2003. Microbacias Costeiras do Cabo de Santo Agostinho-PE: Parte 1 - Conflitos Ambientais [Coastal Microbasins of Cabo de Santo Agostinho- PE: Part 1 - Environmental Conflicts]. In: Anais do II Congresso sobre Planejamento e Gestão da Zona Costeira dos Países de Expressão Portuguesa [Abstract book of the II Congress on Planning and Management of the Coastal Zone of Portuguesespeaking Countries; 12-19 Oct 2003, Recife, Brazil. Porto Alegre (Brazil): Associação Portuguesa de Recursos Hídricos e Associação Brasileira de Recursos Hídricos 1. p. 1-5.

Buchanan JB, Holme NA, McIntyre AD. 1984. Sediment analysis. In: Holme NA, McIntyre AD (eds.), Methods for the Study of Marine Benthos. Oxford (United Kingdom): Oxford Blackwell. p. 41-65.

Camargo MG. 2006. Sysgran: Um Sistema de Código Aberto para Análises Granulométricas do Sedimento. Revista Brasileira de Geociências. 36:371-378.

Castro FJV, Fonseca-Genevois V, Lira L, Cavalcanti-da Rocha, CM. 1999. Efeito da sedimentação sobre a distribuição de Battilipes pennaki Marcus, (1946) em zona tropical típica: Restinga do Paiva, Pernambuco, Brasil = The effects of morphodynamic processes on Batillipes pennaki Marcus (1946) abundance and distribution in tropical Regions: The Paiva sandbank, Pernambuco, Brazil. Trop Oceanogr. 27(2):89-102. https://doi.org/10.5914/tropocean.v27i2.2820

Clarke KR, Gorley RN. 2006. PRIMER V6: User Manual/Tutorial. PRIMER-E, Plymouth (UK): Playmouth Marine Laboratory. 192 p.

Corbisier TN, Moellman AM, Curvelo RR. 2008. Meiofauna In: Pires-Vanin AM (ed.), Oceanografia de um Ecossistema Tropical: Plataforma Interna de São Sebastião Parte IV – Sistema Bentônico. São Paulo (Brazil): Universidade de São Paulo. Imprensa oficial do estado. p. 10.

Coull BC. 2009. Role of meiofauna in estuarine soft-bottom habitats. Australian J Ecol. 24(4):327-343. https://doi.org/10.1046/j.1442-9993.1999.00979.x

Danovaro R, Gambi C. 2002. Biodiversity and trophic structure of nematode assemblages in seagrass systems: evidence for a coupling with changes in food availability. Mar Biol. 141(4):667- 677. https://doi.org/10.1007/s00227-002-0857-y

De Araújo ME, Ramalho CWN, de Melo PW. 2020. Artisanal fishers, consumers and the environment: immediate consequences of the oil spill in Pernambuco, Northeast Brazil. Cad Saúde Pública. 36(1):e00230319. https://doi.org/10.1590/0102-311X00230319

De Grisse AT. 1969. Redescription ou modification de quelques techniques utilises dans l’étudedes nematodes phytoparasitaires. Mededelingen Rijks Fakulteit Landbouwwetenschappen Gent. 34:251-369.

De Santana-Campelo RP, Mello-de Lima CD, Severino-de Santana C, da Silva AJ, Neumann-Leitão S, Padovanni-Ferreira B, de Oliveira-Soares M, de Melo-Júnior M, Mendes-de Castro Melo PA. 2021. Oil spills: The invisible impact on the base of tropical marine food webs. Mar Poll Bull. 167:112281. https://doi.org/10.1016/j.marpolbul.2021.112281

Dos santos-Reis R, Rizzo AE. 2019. Human trampling effect on benthic fauna of sandy beaches with different intensities of use in Rio de Janeiro, Brazil. Oecol Austr. 23(1):28-38. https://doi.org/10.4257/oeco.2019.2301.03

Elmgren R. 1976. Baltic benthos communities and the role of meiofauna. Contribution from the Askö Laboratory. 14:1-31.

Fabricio-Maria T, Pereira-Wandeness A, Morgado-Esteves A. 2016. State of the art of the meiofauna of Brazilian Sandy beaches. Braz J Oceanog. 64(sp2):17-26. https://doi.org/10.1590/S1679-875920160946064sp2

Ferris H, Bongers T. 2006. Nematode indicators of organic enrichment. J nematol. 38(1):3-12.

Folk RL, Ward WC. 1957. Brazos River bar: a study in the significance of grain size parameters. J Sediment Petrol. 27(1):3-26. https://doi.org/10.1306/74D70646-2B21-11D7-8648000102C1865D

Fonseca G, Maria TF, Kandratavicius N, Venekey V, Gheller PF, Gallucci F. 2014. Testing for nematode – granulometry relationships. Mar Biodivers. 44:435-443.

Gallucci F, Steyaert M, Moens T. 2005. Can field distributions of marine predacious nematodes be explained by sediment constraints on their foraging success? Mar Ecol Prog Ser. 304:167-178. https://doi.org/10.3354/meps304167

Guilherme BC, Alves PS, Cavalcanti MF. 2016. Structural variation of the meiofauna community from Guadalupe beach (Pernambuco - Brazil). Rev Nordestina Zool. 10(1):1-14.

Kotwicki L, Szymelfenig M, De Troch M, Urban-Malinga B, Węsławski JM. 2005. Latitudinal biodiversity patterns of meiofauna from sandy littoral beaches. Biodiver Conserv. 14(2):461-474. https://doi.org/10.1007/10531-004-6272-6

Manso VAV, Coutinho PN, Guerra NC, Soares-Junior CFA. 2006. Pernambuco. In: Muehe D (coord.), Erosão e Progradação no Litoral Brasileiro. 2nd ed. Brasília (Brazil): Ministério do Meio Ambiente. p. 180-196.

Moens T, Braeckman U, Derycke S, Fonseca G, Gallucci F, Gingold R, Guilini K, Ingels J, Leduc D, Vanaverbeke J, et al. 2013. Ecology of free-living marine nematodes. In: Schmidt-Rhaesa A (ed.), Nematoda, Vol. 2: Nematoda. Berlin (Germany): De Gruyter. p. 109-152. https://doi.org/10.1515/9783110274257.109

Moens T, Vincx M. 1997. Observations on the feeding ecology of estuarine nematodes. J Mar Biol Assos UK. 77(1):211–227. https://doi.org/10.1017/S0025315400033889

Moreno M, Ferrero TJ, Gallizia I, Vezzulli L, Albertelli G, Fabiano M. 2008. An assessment of the spatial heterogeneity of environmental disturbance within an enclosed harbour through the analysis of meiofauna and nematode assemblages. Estuar Coast Shelf Sci. 77:565-576.

Moreno M, Semprucci F, Vezzulli L, Balsamo M, Fabiano M, Albertelli G. 2011. The use of nematodes in assessing ecological quality status in the Mediterranean coastal ecosystems. Ecol Indic. 11(2):328-336. https://doi.org/10.1016/j.ecolind.2010.05.011

Nemys. 2002. Nemys: World Database of Nematodes. Belgium: University of Gent; accessed 2021 June. http://nemys.ugent.be. https//doi.org/10.14284/366

Pereira SMB, Oliveira-Carvalho MF, Angeiras JAP, Oliveira NMB, Torres J, Gestinari LMS, Bandeira-Pedrosa ME, Cocentino ALM, Santos MD, Nascimento PRF et al. 2002. Algas Marinhas Bentônicas do Estado de Pernambuco [Benthic Marine Algae of the State of Pernambuco]. In: Tabarelli M, Silva JMC (eds.), Diagnóstico da Biodiversidade de Pernambuco [Diagnosis of the Biodiversity of Pernambuco]. Recife (Brazil): Secretaria de Ciência, Tecnologia e Meio Ambiente. p. 97-124.

Pereira-Gomes de Melo T, Rosa-Fiho JS, Venekey V. 2013. Marine Nematoda from Ajuruteua Beach, Amazon Coast, Brazil. Rev Atlântica. 35(1):67-70. https://doi.org/10.5088/2013.35.1.67

Pinto TKO, Santos PJP dos. 2006. Meiofauna community structure variability in a brazilian tropical sandy beach. Rev Atlântica. [accessed 2021 February]; 28(2):117-127. http://repositorio.furg.br/handle/1/695.

Santos TMT, Petracco M, Venekey V. 2021. Recreational activities trigger changes in meiofauna and free-living nematodes on Amazonian macrotidal sandy beaches. Mar Environ Res. 167(105289):1-14. https://doi.org/10.1016/j.marenvres.2021.105289

Schlacher TA, Dugan J, Schoeman DS, Lastra M, Jones A, Scapini F, McLachlan A, Defeo O. 2007. Sandy beaches at the brink. Divers Distrib. 13(5):556-560. https://doi.org/10.1111/j.1472-4642.2007.00363.x

Schratzberger M, Ingels J. 2018. Meiofauna matters: the roles of meiofauna in benthic ecosystems. J Exp Mar Biol Ecol. 502:12-25. https://doi.org/10.1016/j.jembe.2017.01.007

Short AD, Klein AH. da F. 2016. Brazilian Beach Systems: Review and Overview. In: Short A, Klein AH da F (eds.), Brazilian Beach Systems. Coastal Research Library, vol 17. [place unknown]: Springer, Cham. p. 573-608. https://doi.org/10.1007/978-3-319-30394-9_20

Souza-Santos LP, Ribeiro VSS, Santos PJP, Fonseca-Genevois V. 2003. Seasonality of intertidal meiofauna on a tropical sandy beach in Tamandare Bay (Northeast Brazil). J Coast Res. 35(SI):369-377. https://www.jstor.org/stable/40928784

Suguio K. 1973. Geologia Sedimentar. São Paulo (Brazil): Edgard Blücher ltda/EDUSP. 400 p. Venekey V, Fonseca-Genevois VG, Santos PJP. 2010. Biodiversity of free-living marine nematodes on the coast of Brazil: a review. Zootaxa (Auckland). 2568(1):39-66. https://doi.org/10.11646/zootaxa.2568.1.2

Verçosa MM, Santos ECL, Souza JRB, Rocha CMCD. 2009. Distribuição de Stygactus bradypus Schulz, 1951 (Tardigrada, Heterotardigrada) na margem sul da ilha de Itamaracá (PE, Brasil) = Distribution of Stygactus bradypus Schulz, 1951(Tardigrada, Heterotardigrada) on the south bank of Itamaracá Island (PE, Brazil). Rev Atlântica. [accessed 2021 February]; 31(1):25-33. http://repositorio.furg.br/handle/1/553.

Warwick RM, Platt HM, Somerfield PJ. 1998. Free-living marine nematodes. Part III. Monhysterids. Synopsis of the British fauna (new series) N 53. Shrewsbury (UK): Field Studies Council. 296 p.

Wieser W. 1953. Die Beziehungzwischen Mundh ö hlengestalt, Ern ä hrungsweise und Vorkommenbei freileben den marinen Nematoden. Ark Zoo. 4:439-484. Wieser W. 1960. Benthic studies in Buzzards Bay. 2. The meiofauna. Limnol Oceanogr. 5(2):121-137. https://doi.org/10.4319/lo.1960.5.2.0121

Zacagnini-Amaral AC, Nascimento-Corte G, Rosa-Filho JS, Denadai MR, Colling LA, Borzone C, Veloso V, Pessoa-Omena E, Rosental-Zalmon I, Rocha-Barreira CA, et al. 2016. Brazilian sandy beaches: characteristics, ecosystem services, impacts, knowledge and priorities. Braz J Oceanogr. 64(spe2):5-16. https://doi.org/10.1590/S1679-875920160933064sp2