On the use of climate covariates in aquatic species distribution models: are we at risk of throwing out the baby with the bath water?

McGarvey, Daniel J.; Menon, Mitra; Woods, Taylor; Tassone, Spencer J.; Reese, Jessica; Vergamini, Marie; Kellogg, Erik W.

doi:10.1111/ecog.03134

Cited by 41 publications

(36 citation statements)

References 95 publications

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“…However, the incorporation of fine-scale biological data into national assessments is not possible due to insufficient data. In addition, incorporating variables that represent instream conditions is recommended to calibrate SDMs for freshwater species, but recent research showed that predictions do not fundamentally differ for climate versus instream-based models (McGarvey et al 2018). Second, despite our efforts to remove any potential sampling biases through careful geographical and environmental filtering of the occurrence records, uneven spatial distribution of collection efforts may have truncated the full range of suitable areas, especially for species for which available data are few and opportunistic (Beck et al 2014).…”

Section: Discussionmentioning

confidence: 99%

“…The accelerating establishment and spread of nonnative species will undoubtedly continue to homogenize China's freshwater fish fauna and further accentuate the loss of distinctiveness across communities in the future (Liu et al 2017a). In addition, incorporating variables that represent instream conditions is recommended to calibrate SDMs for freshwater species, but recent research showed that predictions do not fundamentally differ for climate versus instream-based models (McGarvey et al 2018). This, in turn, could facilitate the establishment of other invaders and exacerbate the magnitude of invasion-related impacts ('invasional meltdown'; sensu Simberloff 2006).…”

Section: Establishment Threat Under Current Scenario (%)mentioning

confidence: 99%

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Current and projected future risks of freshwater fish invasions in China

et al. 2019

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Biological invasions are a primary threat to global biodiversity, supporting mounting calls for the development of early‐warning systems to manage existing and emerging invaders. Here, we evaluated the geographical pattern of invasion risks of currently established and potentially emerging nonnative freshwater fishes in China by jointly considering the threats of introduction and establishment under climate change. Introduction threats were estimated according to proxies of human activities and propagule pressure for two primary pathways (aquaculture or ornamental). Establishment threats for 51 current and 64 potential invaders (based on whether having established or not self‐sustaining populations) were assessed using an ensemble of species distribution models under current (1960–1990) and future [2041–2060 (2050s) and 2061–2080 (2070s)] climate scenarios. Geographical patterns of invasion risk were then assessed by overlaying the threats of introduction and establishment for each species group both in present‐day and in the future. We found that eastern China displayed the highest threat of introduction. By contrast, southeastern and northwestern regions were identified as the most suitable for the establishment of both current and potential invaders. Under a changing climate, 83 out of 115 species displayed an increase in habitat suitability, resulting in an overall increase of 4.8% by 2050s and 7.1% by 2070s in the extent of suitable habitat for nonnative freshwater fishes. Taken together, invasion risk was found to be highest in southeastern China and lowest in the Tibet Plateau. Our research highlights the importance of assessing invasion risk by integrating the threats associated with the introduction and establishment stages. In particular, our findings revealed convergent patterns of invasion risk between current and potential nonnative freshwater fishes under climate change. Geographic patterns in hotspots of existing and emerging invasions provide critical insights to guide the allocation of resources to monitor and control existing and emerging invasions in China.

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Section: Discussionmentioning

confidence: 99%

Section: Establishment Threat Under Current Scenario (%)mentioning

confidence: 99%

Current and projected future risks of freshwater fish invasions in China

et al. 2019

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“…The use of such variables for modelling freshwater species may, however, be counterintuitive, given that their distributions are typically limited by instream conditions (e.g., hydrology, water temperature). While high‐resolution instream data are currently unavailable on a global scale, there has been evidence (e.g., McGarvey et al., 2018) demonstrating that climatic variables, in conjunction with physical habitat data, can serve as reasonable surrogates for instream variables, given that these distal variables are often causally linked to proximal drivers of freshwater species distributions (e.g., air temperature directly affecting water temperature; altitude and slope directly influencing channel morphology) (Zeng et al., 2016).…”

Section: Methodsmentioning

confidence: 99%

Predictor complexity and feature selection affect Maxent model transferability: Evidence from global freshwater invasive species

Low

Zeng

Tan

et al. 2020

Diversity and Distributions

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Aim Ecological niche models (ENMs) are widely used to address urgent real‐world problems such as climate change effects or invasive species; however, the generality of models when projected through space and/or time, that is transferability, remains a key challenge. Here, we explored the effects of complex predictors and feature selection on ENM transferability in a widely employed algorithm, Maxent, using five globally invasive freshwater species as case studies. Location Global. Methods We modelled the global distributions of five notorious freshwater invasive species (African sharptooth catfish Clarias gariepinus, Mozambique tilapia Oreochromis mossambicus, American bullfrog Lithobates catesbeianus, red swamp crayfish Procambarus clarkii, and Australian redclaw crayfish Cherax quadricarinatus), using three predictor datasets of varying complexities derived from two commonly used climatic data sources (WorldClim and IPCC) and three methods of model tuning that differentially incorporated feature selection. Spatially explicit transferability assessments were then conducted using a suite of evaluation metrics previously used to quantify Maxent model performance. Results We show that in the absence of detailed biological knowledge of focal species, simpler predictor datasets produce models that are more accurate than those calibrated using comprehensive “bioclimatic” datasets. Additionally, we find that tuning models for both optimal regularization parameters as well as feature‐class combinations led to the greatest increases in transferability and geographic niche conservatism. Results indicate a tenuous link between model transferability and Akaike's information criterion corrected for small sample sizes (AICc), suggesting that the indiscriminate use of AICc as an estimate of model parsimony may lead to erratic model performance. Main conclusions Our findings demonstrate that methodological considerations can drastically affect the reliability of spatial and possibly temporal projections, which has severe implications when ENMs are used to infer species’ niches, and quantify ecological or evolutionary change across impacted landscapes.

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“…In brief, SDMs correlate the occurrence of a given species with the environmental conditions, usually climatic, of the sites it inhabits in order to locate areas that are most susceptible to invasion (Guisan and Thuiller 2005). While direct indicators of water conditions (water temperature and river flow) are preferable over indirect climate surrogates (air temperature and precipitation), multiple studies have demonstrated the prominent role of climate over geological (Quinn et al 2014), hydrological (McGarvey et al 2017) or socio-economic aspects (Gallardo and Aldridge 2013a) on the distribution of aquatic organisms at the global scale. Climate surrogates are especially useful when modelling invasive species because they allow using information from the entire global range of distribution of invasive species (native and invasive).…”

Section: Methodsmentioning

confidence: 99%

Inter-basin water transfers and the expansion of aquatic invasive species

Gallardo

Aldridge

2018

Preprint

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Inter-basin Water Transfers (IBWT) are recognized as one of the major pathways of freshwater invasion. They provide a direct link between previously isolated catchments and may modify the habitat conditions of the receiving waters such that they become more favourable for the establishment of invasive species. Combined, IBWT and invasive species will intensify the stress upon native species and ecosystems. Using the Severn and Thames Rivers-two of the largest river systems in Great Britain—as a case study, here we assess the potential influence of IBWT on the expansion of invasive species and thus their impact on biodiversity conservation. The Thames Valley is subject to extensive water abstraction, and an increasing population means that supplemented flow from the River Severn is being considered. Multi-scale Suitability Models, based on climate and water chemistry respectively, provided novel evidence that there is serious risk for further spread of invasive species in the focus area, particularly of the quagga mussel, a recent invader of the Thames River. Native freshwater mussels are particularly vulnerable to changing environmental conditions, and may suffer the decrease in alkalinity and increase in sedimentation associated with an IBWT from the lower Severn to the upper Thames. Regional models suggest considerable overlap between the areas suitable for three vulnerable native freshwater mussels and the expansion of invasive species that negatively impact upon the native mussels. This study illustrates the use of novel spatially-explicit techniques to help managers make informed decisions about the risks associated with introducing aquatic invasive species under different engineering scenarios. Such information may be especially important under new legislation (e.g. EU Invasive Species Regulation No 1143/2014) which increases the responsibility of water managers to contain and not transfer invasive species into new locations.

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On the use of climate covariates in aquatic species distribution models: are we at risk of throwing out the baby with the bath water?

Cited by 41 publications

References 95 publications

Current and projected future risks of freshwater fish invasions in China

Current and projected future risks of freshwater fish invasions in China

Predictor complexity and feature selection affect Maxent model transferability: Evidence from global freshwater invasive species

Inter-basin water transfers and the expansion of aquatic invasive species

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