Composition and distribution of benthic molluscs on intertidal flats of Paranaguá Bay (Paraná, Brazil)

Boehs, Guisla; Absher, Theresinha Monteiro; Cruz-Kaled, Andrea da

doi:10.3989/scimar.2004.68n4537

Cited by 36 publications

(26 citation statements)

References 14 publications

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“…Therefore, although this gastropod can also inhabit estuarine sandy beaches (Petracco, personal observation), its occurrence seems to be more restricted than O. minuta. In fact, besides the frequent occurrence in sheltered, and in reflective and dissipative exposed sandy beaches (Denadai et al 2005;Petracco et al 2014;Rocha-Barreira et al 2005), O. minuta is also frequently recorded in tidal flats and estuaries (e.g., Boehs et al 2004;Rolemberg et al 2008).…”

Section: Resultsmentioning

confidence: 96%

Evaluation of the use of Olivella minuta (Gastropoda, Olividae) and Hastula cinerea (Gastropoda, Terebridae) as TBT sentinels for sandy coastal habitats

Petracco

Camargo

Berenguel

et al. 2015

Environ Monit Assess

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Tributyltin (TBT) contamination is still recorded in the environment even after its ban in antifouling paints. Since most biomonitors of TBT contamination, through imposex evaluation, are hard-bottom gastropods, the identification of soft-bottom sentinels has become useful for regions where rocky shores and coral reefs are absent. Thus, an evaluation of Olivella minuta and Hastula cinerea as monitors of TBT contamination was performed in two sandy beaches located under influence area of São Sebastião harbor (São Paulo state, Brazil), where previous and simultaneous studies have reported environmental contamination by TBT. In addition, the imposex occurrence in H. cinerea was assessed in an area with low marine traffic (Una beach), also located in São Paulo State. A moderate imposex incidence in O. minuta was detected in Pernambuco (% I = 9.36, RPLI = 4.49 and RPLIstand = 4.27) and Barequeçaba (% I = 2.42, RPLI = 0.36 and RPLIstand = 0.81) beaches, indicating TBT contamination. In contrast, more severe levels of imposex were recorded for H. cinerea in Una beach (% I = 12.45) and mainly in Barequeçaba beach (% I = 98.92, RPLI = 26.65). Our results suggest that O. minuta and H. cinerea have good potential as biomonitors for TBT based on their wide geographical distribution, common occurrence in different coastal sediment habitats, easy collection, and association with TBT-contaminated sediments.

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Section: Resultsmentioning

confidence: 96%

Evaluation of the use of Olivella minuta (Gastropoda, Olividae) and Hastula cinerea (Gastropoda, Terebridae) as TBT sentinels for sandy coastal habitats

Petracco

Camargo

Berenguel

et al. 2015

Environ Monit Assess

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“…A similar pattern was found by (Dankers & Beukema, 1981) in the Wadden Sea, but Edgar and Barrett (2002) found that in Tasmanian estuaries the number of species and abundance continued to increase as they moved down shore to 0.7 m below low water mark. Honkoop et al (2006) found greater numbers of individuals and species at lower tidal levels in northwestern Australia, and Boehs et al (2004) found that molluscs decreased in abundance and diversity at higher tidal levels, i.e. between mid-and high tide.…”

Section: Spatial Variationmentioning

confidence: 97%

“…Many studies have investigated the distribution (Chainho et al, 2006;Rodrigues et al, 2006), abundance Dittman, 2002b), diversity (Boehs et al, 2004) and biomass (Masero et al, 1999;Silva et al, 2006) of invertebrates on intertidal flats. There have also been many studies that examine the effect of environmental variables on invertebrate abundance and community composition (Anderson, 1972;Castel et al, 1989;Edgar & Barrett, 2002).…”

Section: Introductionmentioning

confidence: 99%

Spatial variation of intertidal macroinvertebrates and environmental variables in Robbins Passage wetlands, NW Tasmania

2007

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Macroinvertebrate composition, abundance and biomass were investigated at four intertidal sites throughout the Robbins Passage wetlands, Tasmania, over a 12-month period, in order to identify differences among and within sites, and to determine whether environmental variables could explain these differences. As this region is the most important shorebird area in Tasmania, we wanted to quantify the potential food source for shorebirds within the wetlands. Thirty-five taxa from 28,928 individuals were identified, with a mean abundance of 6026.6 ind m -2 and biomass of 27.1 gDW m -2 . Bivalves and gastropods dominated the assemblage in terms of abundance and biomass (79% and 60%, respectively). There was a significant interaction among tidal level, site and season for invertebrate abundance and diversity, while biomass differed significantly among sites. In general, the mid-intertidal stratum had the greatest invertebrate density and diversity, while the low intertidal stratum had the greatest biomass. Community composition varied among the four sites, with the bivalve Paphies elongata dominating at two of the sites, while gastropods and polychaetes were more abundant at the other sites. Differences in invertebrate composition and abundance could partly be explained by seagrass biomass, i.e., dry mass of seagrass leaves and roots. Areas with seagrass had increased invertebrate abundance and diversity, but mean sediment particle size, % organic carbon and % seagrass cover had no significant effect. These results will assist in the investigation of habitat use by shorebirds and the identification of important shorebird feeding areas within the wetlands.

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“…(Rios, 1994). É uma das espécies de molu sco mais frequentes nas praias abrigadas do Canal de São Sebastião, litoral norte do Estado de São Paulo (Denadai et al 2005), e uma das espécies mais abundantes na praia de Barequeçaba (Shimizu, 1991) (Severeyn et al 2003;Boehs et al 2004), a sua distribuição espacial (Shimizu, 1991;Viana et al 2005;) a 9 mm 1m 1,5m…”

Section: Introdução Geralunclassified

“…No entanto, a exemplo de Barequeçaba, a maioria dos estudos da macrofauna de praias arenosas são desenvolvidos com espécies exclusivas da porção emersa da praia, do pós-praia ou migradores mareais (ver Severeyn et al 2003;Arruda e Amaral, 2003;Boehs et al 2004;Denadai et al 2005;Camargo, 2012 Possui aproximadamente 1200 metros de extensão, delimitada por dois costões rochosos, perfil suave (~0,78°) e sedimento composto por areia fina e muito fina, com baixo conteúdo de matéria orgânica (~0,75%) (Nucci et al 2001;Denadai et al 2005, Tominaga et al 2006. Barequeçaba recebe constantemente descargas de água doce, provenientes de um riacho permanente localizado na porção Leste da praia e de um número variado de pequenos cursos da água temporários (Shimizu, 1991).…”

Section: Introdução Geralunclassified

Distribuição espaço-temporal de Olivella minuta (LINK, 1807) (Mollusca, Gastropoda, Olividae) na praia de Barequeçaba, Litoral Norte do Estado de São Paulo

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Composition and distribution of benthic molluscs on intertidal flats of Paranaguá Bay (Paraná, Brazil)

Cited by 36 publications

References 14 publications

Evaluation of the use of Olivella minuta (Gastropoda, Olividae) and Hastula cinerea (Gastropoda, Terebridae) as TBT sentinels for sandy coastal habitats

Evaluation of the use of Olivella minuta (Gastropoda, Olividae) and Hastula cinerea (Gastropoda, Terebridae) as TBT sentinels for sandy coastal habitats

Spatial variation of intertidal macroinvertebrates and environmental variables in Robbins Passage wetlands, NW Tasmania

Distribuição espaço-temporal de Olivella minuta (LINK, 1807) (Mollusca, Gastropoda, Olividae) na praia de Barequeçaba, Litoral Norte do Estado de São Paulo

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