<scp>TimeFISH</scp>: Long‐term assessment of reef fish assemblages in a transition zone in the <scp>Southwestern Atlantic</scp>

Quimbayo, Juan P.; Nunes, Lucas T.; Silva, Fernanda C.; Anderson, Antônio B.; Barneche, Diego R.; Canterle, Angela M.; Cord, Isadora; Dalben, Andrea; Ferrari, Débora Silva; Fontoura, Luisa; Fiuza, Thiago M J; Liedke, Ana M. R.; Longo, Guilherme O.; Morais, Renato A.; Siqueira, Alexandre C.; Floeter, Sergio R.

doi:10.1002/ecy.3966

Ecology

2023

DOI: 10.1002/ecy.3966

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TimeFISH: Long‐term assessment of reef fish assemblages in a transition zone in the Southwestern Atlantic

Juan P. Quimbayo

Lucas T. Nunes

Fernanda C. Silva

et al.

Abstract: The TimeFISH database provides the first public time‐series dataset on reef fish assemblages in the southwestern Atlantic (SWA), comprising 15 years of data (2007–2022) based on standardized Underwater Visual Censuses (UVCs). The rocky reefs covered by our dataset are influenced by pronounced seasonal cycles of ocean temperatures with warm tropical waters from the Brazil Current in the summer (~27°C) and colder waters from the La Plata River Plume discharge and upwelling from the South Atlantic Central Water i… Show more

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Revealing uncertainty in the status of biodiversity change

Johnson,

Beckerman,

Childs

et al. 2024

Nature

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Biodiversity faces unprecedented threats from rapid global change1. Signals of biodiversity change come from time-series abundance datasets for thousands of species over large geographic and temporal scales. Analyses of these biodiversity datasets have pointed to varied trends in abundance, including increases and decreases. However, these analyses have not fully accounted for spatial, temporal and phylogenetic structures in the data. Here, using a new statistical framework, we show across ten high-profile biodiversity datasets2–11 that increases and decreases under existing approaches vanish once spatial, temporal and phylogenetic structures are accounted for. This is a consequence of existing approaches severely underestimating trend uncertainty and sometimes misestimating the trend direction. Under our revised average abundance trends that appropriately recognize uncertainty, we failed to observe a single increasing or decreasing trend at 95% credible intervals in our ten datasets. This emphasizes how little is known about biodiversity change across vast spatial and taxonomic scales. Despite this uncertainty at vast scales, we reveal improved local-scale prediction accuracy by accounting for spatial, temporal and phylogenetic structures. Improved prediction offers hope of estimating biodiversity change at policy-relevant scales, guiding adaptive conservation responses.

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Revealing uncertainty in the status of biodiversity change

Johnson,

Beckerman,

Childs

et al. 2024

Nature

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No Sign of Homogenisation in Reef Fish Communities Across an Ecological Transition Zone Exposed to Warming

Silva,

Quimbayo,

Spanheeden Dencker

et al. 2024

Diversity and Distributions

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AimMarine organisms are responding to warming by altering their distribution ranges, causing biogeographic range shifts and in some cases, favouring the community homogenisation. Transition zones can act as natural laboratories to explore the consequences of homogenisation. However, these habitats are relatively poorly studied in coastal areas. In this study, we aimed to investigate biotic homogenisation and changes in reef fish community composition from both a taxonomic and trait‐based perspective.LocationSeven islands in the South‐western Atlantic transition zone.MethodsWe used a long‐term survey data set of reef fish species abundances and traits of communities to calculate beta‐diversity indices. By analysing the data, we derived temporal trends of beta‐diversity values by separately comparing the North and South regions of the transition zone and performed pairwise comparisons to explore their dynamics when considered together.ResultsContrary to previous expectations, we found no sign of homogenisation. The colder islands (Southern) experienced a decrease in taxonomic and trait richness metrics, whereas for the warmer islands (Northern), the taxonomic and trait richness fluctuated without any significant temporal trends.Main ConclusionsWhile taxonomic composition may change over time, the trait composition is generally more conserved, highlighting the trait redundancy in South‐western Atlantic communities and supporting the idea that these communities can maintain a range of ecological processes despite changes in taxonomic composition. Finally, the study revealed that despite non‐homogenisation, the species that contribute most to variation, especially in the South, have common trait combinations indicating an increase in the trait redundancy of fish communities over time. We underline that local‐scale conservation efforts may be particularly effective in preserving and protecting species and ecological functions in areas experiencing unique and fast changes in biodiversity.

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Warming-induced changes in reef fish community traits in the Southwestern Atlantic transition zone

Silva¹,

Floeter²,

Lindegren³

et al. 2023

Mar. Ecol. Prog. Ser.

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Marine communities are subject to alterations in environmental conditions, due to both natural variability and climate change. For instance, a rapid increase in sea surface temperature (SST) can modify spatial distribution patterns and abundances of reef fishes and therefore alter the overall diversity, structure, and functioning of these communities. Trait-based approaches may accurately detect community responses to such environmental changes, because species traits should reflect resource and habitat requirements. Here, we investigated temporal variability in reef fish trait composition and thermal affinity and assessed whether shifts are linked to recent ocean warming. We combined species traits related to feeding, growth, and survival with abundance data on reef fish from underwater visual census at 7 islands of the Southwestern Atlantic subtropical transition zone. All islands exhibited gradual trait reorganization from fish assemblages dominated by large-size species at the beginning of the time period to small, cryptobenthic species towards the end. The temporal changes in community weighted mean traits and the community thermal index were related to SST, indicating a numerical response of species to climatic variations. Tropical species are slowly becoming more abundant over time, while temperate species are becoming less abundant, reflecting an initial change in fish composition in this transition zone. These results have ecological implications leading communities to a faster turnover, lower food-chain complexity, and higher vulnerability to change. We highlight the importance of integrating traits and abundance time series data for a holistic understanding of reef dynamics and community responses to environmental variation, including global warming.

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TimeFISH: Long‐term assessment of reef fish assemblages in a transition zone in the Southwestern Atlantic

Cited by 3 publications

References 0 publications

Revealing uncertainty in the status of biodiversity change

Revealing uncertainty in the status of biodiversity change

No Sign of Homogenisation in Reef Fish Communities Across an Ecological Transition Zone Exposed to Warming

Warming-induced changes in reef fish community traits in the Southwestern Atlantic transition zone

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