An environmental resistance model to inform the biogeography of aquatic invasions in complex stream networks

An environmental resistance model to inform the biogeography of aquatic invasions in complex stream networks

Aim Freshwater invasions are a global conservation issue. Emerging tools for biogeographical analyses can provide critical information for their effective management and monitoring. Here, we propose a method to assess the distribution of environmental resistance of stream ecosystems to biological in...

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Bibliographic Details
Published in:Journal of biogeography Vol. 50; no. 8; pp. 1422 - 1436
Main Authors: Olivos, J. Andrés, Arismendi, Ivan, Penaluna, Brooke E., Flitcroft, Rebecca, Huertas Herrera, Alejandro, Firman, Julie, Giannico, Guillermo
Format: Journal Article
Language:English
Published: Oxford Wiley Subscription Services, Inc 01-08-2023
Subjects:
aquatic
Aquatic mammals
Biogeography
Castor canadensis
Climatic data
complementarity
Complementation
Drainage basins
Environment models
Environmental modeling
Habitats
Heterogeneity
hydrogeomorphology
Indigenous species
Introduced species
invasibility
Invasions
Invasive species
lotic
non‐native
Oncorhynchus kisutch
Oncorhynchus tshawytscha
Quality assessment
resistance
risk
riverscapes
Salmon
suitability
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Summary:Aim Freshwater invasions are a global conservation issue. Emerging tools for biogeographical analyses can provide critical information for their effective management and monitoring. Here, we propose a method to assess the distribution of environmental resistance of stream ecosystems to biological invasions by coupling multi‐stage habitat potential models for non‐native species. Location Andean Patagonia (Chile and Argentina). Taxa North American beaver (Castor canadensis), Chinook salmon (Oncorhynchus tshawytscha) and coho salmon (O. kisutch). Methods Environmental resistance to invasive species was mapped throughout a large region of Patagonia by stacking multi‐stage habitat relationships for each target species and assessing the complementation between critical habitats at multiple scales. We generated an environmental model of stream networks derived from high‐resolution topographic and climatic data representing 15,406 drainage basins (>1 km2) covering an area of 369,791 km2. We quantified the intrinsic potential of stream‐reaches (100‐m and 1000‐m) to sustain high‐quality habitats and assessed habitat complementation (i.e., abundance and proximity) at the sub‐basin scale as a proxy for environmental resistance. Results Our model revealed high heterogeneity in the distribution of environmental resistance to invasions throughout the study region, providing case‐specific insights for the research and management of invaders. Main Conclusions Environmental resistance modelling is a novel method to study the biogeography of riverine invasions. Our approach is compatible with additional sources of information about species and the environment and shows versatility to diverse invasion scenarios and data sources. This method can be useful in prioritising research and management of incipient and spreading invasions, especially for large and data‐poor regions.
ISSN:0305-0270
1365-2699
DOI:10.1111/jbi.14621