Impact of predicted climate change scenarios on a coral reef meiofauna community

Sarmento, Visnu Cunha; Pinheiro, Bárbara Ramos; Montes, Manuel de Jesús Flores; Santos, Paulo Jorge Parreira dos

doi:10.1093/icesjms/fsw234

Cited by 18 publications

(15 citation statements)

References 47 publications

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“…Strong community‐based shifts in the species composition of benthic sediment systems can be driven by decreased seawater pH (Alsterberg et al., ; Fabricius et al., ; Kroeker et al., ; Sarmento et al., , ; Widdicombe et al., ). Infaunal amphipods and ostracods were more abundant in elevated p CO 2 mesocosms, as shown previously (Kroeker et al., ; Sarmento et al., ).…”

Section: Discussionmentioning

confidence: 99%

“…As global seawater pH continues to decline, calcification by corals—the primary ecosystem providers—will become increasingly difficult (Albright et al., ; Andersson & Gledhill, ; Dove et al., ; Hoegh‐Guldberg et al., ; Shaw, Phinn, Tilbrook, & Steven, ). As shown in field (Albright et al., ; Shamberger et al., ; Shaw et al., ; Silverman et al., ) and mesocosm (Alsterberg, Eklöf, Gamfeldt, Havenhand, & Sundbäck, ; Dove et al., ; Page et al., ; Sarmento, Pinheiro, Montes, & Santos, ; Sarmento, Souza, Esteves, & Santos, ) studies, significant changes to reef chemistry, structure and benthic communities are already occurring with further negative prospects for reef resilience expected for the coming decades (Intergovernmental Panel on Climate Change [IPCC], ; Spalding & Brown, ). Predicting the impacts of changing ocean conditions on marine ecosystems requires a better understanding of community–habitat interactions, and the potential for compensatory mechanisms through ecological interactions to resist deleterious regime shifts in a future ocean (Alsterberg et al., ; Anthony, Diaz‐Pulido, Verlinden, Tilbrook, & Andersson, ; Dove et al., ; Ghedini, Russell, & Connell, ; Kleypas, Anthony, & Gattuso, ; Kroeker, Micheli, Gambi, & Martz, ; Nagelkerken & Munday, ; Page et al., ; Vinebrooke et al., ).…”

Section: Introductionmentioning

confidence: 91%

“…Some species of meiofauna with poorly calcified exoskeletons (e.g. amphipods, polychaetes, nematodes) are not greatly affected by reduced pH since they are less dependent on the availability of calcium carbonate minerals than more heavily calcified species (Cigliano, Gambi, Rodolfo‐Metalpa, Patti, & Hall‐Spencer, ; Hale, Calosi, McNeill, Mieszkowska, & Widdicombe, ; Kroeker et al., ; Kurihara, Ishimatsu, & Shirayama, ; Sarmento et al., , ; Whiteley, ). Thus, ocean acidification will likely drive shifts in the community composition of meiofauna, thereby simplifying benthic food webs and impacting trophic functioning (Alsterberg et al., ; Dashfield, Somerfield, Widdicombe, Austen, & Nimmo, ; Kroeker et al., ; Kurihara et al., ; Sarmento et al., , ; Widdicombe et al., ).…”

Section: Introductionmentioning

confidence: 99%

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Altered sediment biota and lagoon habitat carbonate dynamics due to sea cucumber bioturbation in a high‐pCO₂ environment

Wolfe

Vidal-Ramirez

Dove

et al. 2017

Global Change Biology

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The effects of global change on biological systems and functioning are already measurable, but how ecological interactions are being altered is poorly understood.Ecosystem resilience is strengthened by ecological functionality, which depends on trophic interactions between key species and resilience generated through biogenic buffering. Climate-driven alterations to coral reef metabolism, structural complexity and biodiversity are well documented, but the feedbacks between ocean change and trophic interactions of non-coral invertebrates are understudied. Sea cucumbers, some of the largest benthic inhabitants of tropical lagoon systems, can influence diel changes in reef carbonate dynamics. Whether they have the potential to exacerbate or buffer ocean acidification over diel cycles depends on their relative production of total alkalinity (A T ) through the dissolution of ingested calcium carbonate (CaCO 3 ) sediments and release of dissolved inorganic carbon (C T ) through respiration and trophic interactions. In this study, the potential for the sea cucumber, Stichopus herrmanni, a bêche-de-mer (fished) species listed as vulnerable to extinction, to buffer the impacts of ocean acidification on reef carbonate chemistry was investigated in lagoon sediment mesocosms across diel cycles. Stichopus herrmanni directly reduced the abundance of meiofauna and benthic primary producers through its depositfeeding activity under present-day and near-future pCO 2 . These changes in benthic community structure, as well as A T (sediment dissolution) and C T (respiration) production by S. herrmanni, played a significant role in modifying seawater carbonate dynamics night and day. This previously unappreciated role of tropical sea cucumbers, in support of ecosystem resilience in the face of global change, is an important consideration with respect to the bêche-de-mer trade to ensure sea cucumber populations are sustained in a future ocean.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 91%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Altered sediment biota and lagoon habitat carbonate dynamics due to sea cucumber bioturbation in a high‐pCO₂ environment

Wolfe

Vidal-Ramirez

Dove

et al. 2017

Global Change Biology

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“…The ASUs selected for this study were rectangles of 10 × 5 cm synthetic grass that adequately mimic the turf algae environment and have been used in experimental laboratory studies investigating the anthropogenic impacts on meiofauna communities in reef environments [9,46].…”

Section: Methodsmentioning

confidence: 99%

Anthropogenic Impacts on Coral Reef Harpacticoid Copepods

et al. 2018

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The number of studies demonstrating the susceptibility of benthic reef communities to anthropogenic impacts is growing. However, for some of the components of reef fauna, such as meiobenthic harpacticoid copepods, information is still lacking. Here, different diversity and taxonomic distinctness indexes and multivariate analyses were used to test whether the assemblage of harpacticoid copepods colonizing Artificial Substrate Units (ASUs) is an appropriate tool for the identification of reefs subjected to different levels of anthropogenic pressure. Furthermore, we also evaluate if diffused, persistent, anthropogenic impacts generate the homogenization and simplification of Harpacticoida assemblages. Six reefs were organized into two groups along the coast, depending on their proximity to very large urban centers. ASUs were used for meiofauna colonization and, for each reef, 320 Harpacticoida individuals were separated for identification at the species level. Abiotic parameters were analyzed, and significant differences were found between the two groups of reefs, with an increase in dissolved inorganic nutrients found in areas near large urban centers. Both the multivariate analyses and the indexes of diversity showed a clear separation between the reefs closer to the urban zones and those further away, as a response to the anthropogenic pressure. As hypothesized, in the impacted reef areas, there was a strong simplification and homogenization of the harpacticoid copepod assemblages. However, the results of the indexes, based on taxonomic distinctness, suggest that there was no phylogenetic signal of anthropogenic impact on coral reef harpacticoid copepods.

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“…Experimentos manipulativos de campo (Faraco y Lana 2003, Mayer-Pinto y Junqueira 2003Gandra et al 2006;Botter-Carvalho et al 2011) y de laboratorio (Silva et al 2013;Sarmento et al 2017) demostraron la resiliencia de L. acuta y de otras especies de las familias Nereididae, Goniadidae, Nephytidae y Pilargidae en situaciones de estrés súbitos. La tolerancia y la rápida tasa de recolonización fue constatada durante la exposición a diesel (Faraco y Lana 2003;Gandra et al 2006;Egres et al 2012), a toxinas de algas (Silva et al 2013), en simulaciones de hipóxia y anóxia (Botter-Carvalho et al 2011) y de cambios climáticos (Sarmento et al 2017). Además de estas familias, los Spionidae también revelaron su papel bioindicador por la formación de tubos mucosos cuando fueron transplantados a áreas poluídas (Mayer-Pinto y Junqueira 2003).…”

Section: Atlántico Sudamericanounclassified

Los poliquetos como indicadores biológicos en Latinoamérica y el Caribe

et al. 2020

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Los poliquetos (Annelida) son organismos en íntimo contacto con el sedimento donde viven y el agua sobrenadante. El estrés ambiental genera rápidas respuestas en estos organismos que se reflejan en los individuos y sus poblaciones, por lo que se utilizan como indicadores biológicos de disturbios y de calidad ambiental. Los poliquetos han sido ampliamente utilizados en monitoreo ambiental y en bioensayos, y muchos estudios ecotoxicológicos se realizan con poliquetos. En casi todos los hábitats bentónicos estos organismos juegan un papel muy importante en la organización y estructura de las comunidades bentónicas y redes tróficas. Son un ítem fundamental en la alimentación de otros invertebrados y de aves migratorias y peces. Los poliquetos también tienen importancia económica para la industria farmacéutica, y de alimentos concentrados para especies marinas de cultivo (peces y crustáceos), en el campo médico y en la bioingeniería, además de la recreativa (acuarofilia, carnada) y por supuesto para el consumo humano. Varios de los índices de impacto ambiental y calidad ambiental existentes se basan en las características de tolerancia/sensibilidad de los organismos bentónicos, y muchos de ellos son poliquetos. Existen unos pocos trabajos de revisión de estos organismos como indicadores, pero todos en idioma inglés. Este trabajo muestra una actualización de los datos referidos a Latinoamérica y el Caribe, e incluye una amplia revisión bibliográfica.

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Impact of predicted climate change scenarios on a coral reef meiofauna community

Cited by 18 publications

References 47 publications

Altered sediment biota and lagoon habitat carbonate dynamics due to sea cucumber bioturbation in a high‐pCO₂ environment

Altered sediment biota and lagoon habitat carbonate dynamics due to sea cucumber bioturbation in a high‐pCO₂ environment

Anthropogenic Impacts on Coral Reef Harpacticoid Copepods

Los poliquetos como indicadores biológicos en Latinoamérica y el Caribe

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Impact of predicted climate change scenarios on a coral reef meiofauna community

Cited by 18 publications

References 47 publications

Altered sediment biota and lagoon habitat carbonate dynamics due to sea cucumber bioturbation in a high‐pCO2 environment

Altered sediment biota and lagoon habitat carbonate dynamics due to sea cucumber bioturbation in a high‐pCO2 environment

Anthropogenic Impacts on Coral Reef Harpacticoid Copepods

Los poliquetos como indicadores biológicos en Latinoamérica y el Caribe

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Altered sediment biota and lagoon habitat carbonate dynamics due to sea cucumber bioturbation in a high‐pCO₂ environment

Altered sediment biota and lagoon habitat carbonate dynamics due to sea cucumber bioturbation in a high‐pCO₂ environment