Protection gaps in Amazon floodplains will increase with climate change: Insight from the world's largest scaled freshwater fish

Dubos, Nicolas; Lenormand, Maxime; Castello, Leandro; Oberdorff, Thierry; Guisan, Antoine; Luque, Sandra

doi:10.1002/aqc.3877

Cited by 4 publications

(1 citation statement)

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“…Arapaima gigas , known as Pirarucú in Brazil and as Paiche in Peru and Bolivia, reaches 3 m in length and up to 200 kg in weight (Saint‐Paul, 2017). Arapaima gigas natural distribution is broad and includes different sub‐basins of the Amazon, Tocantins‐Araguaia and Essequibo Rivers that flow across Brazil, Ecuador, Colombia, Guyana and Peru (Castello & Stewart, 2010; Dubos et al, 2022). However, A. gigas natural distribution does not include any area of the Bolivian Amazon (i.e.…”

Section: Introductionmentioning

confidence: 99%

The introduced Arapaima gigas in the Bolivian Amazon: Trophic position and isotopic niche overlap with native species

Rejas

Oberdorff

Declerck

et al. 2023

Ecology of Freshwater Fish

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Non‐native fish species may generate major ecological impacts on native assemblages. This study aims to assess the potential impact of the introduced Arapaima gigas on native fish assemblages in two oxbow lakes of the Bolivian Amazon. Stable isotope data were used to determine trophic position (TP) and isotopic niche overlap, to evaluate potential predation and competition interactions, respectively. Results suggest that A. gigas is more an omnivore than a top predator, as often claimed. Arapaima gigas occupied an intermediate TP between detritivore/herbivore and piscivore fish species and showed broader isotopic niche compared to most native species analysed. The isotopic niche of A. gigas significantly overlapped with most native fish species in one lake (i.e. Lake Mentiroso), while there was low niche overlap in the second (i.e. Lake Miraflores). Given its omnivorous tendencies, the predation impact of A. gigas on other fish species is likely less than currently claimed and likely varies with the food web structure of the ecosystem. More precise data on resource availability and use are necessary to infer whether niche overlap will have negative impacts on native fish species through potential competitive interactions. Increasing our understanding on the processes generating impact of these introductions on resident communities through food web ecology will pave the way for better resource management and conservation efforts.

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Section: Introductionmentioning

confidence: 99%

The introduced Arapaima gigas in the Bolivian Amazon: Trophic position and isotopic niche overlap with native species

Rejas

Oberdorff

Declerck

et al. 2023

Ecology of Freshwater Fish

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Predicting future conservation areas while avoiding competition in two alpine urodele amphibians severely threatened by climate change

Dubos

Havard

Crottini

et al. 2023

Preprint

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Climate change will cause important declines in species distributions, especially when living at high altitudes. The Critically Endangered Salamandra lanzai from SW Alps may be severely exposed to future climate change effects and its suitable climate may shrink or shift. Another Alpine salamander (S. atra) is present in the region, which in case of spatial overlap may represent a competitor for S. lanzai. It is urgent to estimate the effect of future climate change on these species and identify priority areas for conservation while accounting for competition between both species. With a Species Distribution Modelling (SDM) approach, we projected the current and future climate suitability of both salamander species. We accounted for uncertainty related to the methods (model replicates) and climate projections (data source, global circulation model and scenario) to provide a consensus map for practitioners. This map also takes into account potential competition with S. atra by penalizing the suitability scores of S. lanzai by the scores of S. atra. We predict a severe effect of climate change on both species. Most of the current habitats are projected to become largely unsuitable by 2070, regardless of the climatology and scenario. We identified important spatial disagreements between projections based on different data sources, mostly due to precipitation projections and daily temperature variation. This highlights the need to account for multiple climatologies in mountainous environments. Both species' habitats are highly fragmented, which is expected to prevent distributional shifts through natural dispersion. We suggest to explore the possibility of translocation for the most threatened populations and simultaneously develop captive breeding programs. Biotic interactions are rarely accounted for in SDMs, and we encourage the documentation of species with similar ecological requirements to improve the relevance of SDMs for future conservation planning.

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Invasion risk to the United States from Arapaima spp. hinges on climate suitability

Wyman-Grothem,

Castello,

Catâneo

et al. 2024

Aquacult. Environ. Interact.

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Fish in the South American genus Arapaima Müller, 1843 (hereafter referred to as arapaimas) have attracted interest for commercial aquaculture development thanks to their rapid growth rate and high market value. However, management agencies in the United States have expressed concerns about importing and culturing arapaimas due to records of non-native establishment in certain other countries where arapaimas were released or escaped from captivity. We used the Freshwater Fish Injurious Species Risk Assessment Model (FISRAM) to estimate the probability that arapaimas would be injurious (able to cause harm) to native ecosystems, humans, or the economy of the contiguous United States. Risk assessment model inputs were elicited from arapaima experts around the world. Model results were sensitive to the estimation of climate suitability for arapaimas within the contiguous United States, with predicted probability of injuriousness ranging from 0.784 down to 0.321 with different climate suitability inputs. Expert assessors predicted that competition and predation on native species would be the most likely mechanism of impact and expressed a high degree of uncertainty about potential for impacts from pathogens and parasites. We concluded that due to the cold sensitivity of these tropically adapted fish, establishment within the contiguous United States would be highly restricted geographically, limiting potential impacts if introduced outside climatically suitable areas. Existing regulations already mitigate risk of escape from aquaculture in areas where establishment is plausible, but further research into arapaima parasites and pathogens would help reduce uncertainties and suggest opportunities to enhance biosecurity measures if needed.

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Protection gaps in Amazon floodplains will increase with climate change: Insight from the world's largest scaled freshwater fish

Cited by 4 publications

References 103 publications

The introduced Arapaima gigas in the Bolivian Amazon: Trophic position and isotopic niche overlap with native species

The introduced Arapaima gigas in the Bolivian Amazon: Trophic position and isotopic niche overlap with native species

Predicting future conservation areas while avoiding competition in two alpine urodele amphibians severely threatened by climate change

Invasion risk to the United States from Arapaima spp. hinges on climate suitability

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