AI Article Synopsis
- Climate change effects, particularly deoxygenation of aquatic environments, significantly impact the ecological dynamics between invasive alien species (IAS) like the round goby and native species such as the bullhead.
- The study found that low oxygen levels lead to higher feeding rates in the invasive species compared to the native fish, which can destabilize ecological balances and exacerbate the decline of native populations.
- Results show that the Relative Total Impact Potential (RTIP) of the invasive fish is notably higher at low oxygen levels, especially during stages of invasion, suggesting a dual threat from both climate stressors and invasive species on native ecosystems.
Article Abstract
Unlabelled: The influence of climate change on the ecological impacts of invasive alien species (IAS) remains understudied, with deoxygenation of aquatic environments often-overlooked as a consequence of climate change. Here, we therefore assessed how oxygen saturation affects the ecological impact of a predatory invasive fish, the Ponto-Caspian round goby (), relative to a co-occurring endangered European native analogue, the bullhead () experiencing decline in the presence of the IAS. In individual trials and mesocosms, we assessed the effect of high, medium and low (90%, 60% and 30%) oxygen saturation on: (1) functional responses (FRs) of the IAS and native, i.e. per capita feeding rates; (2) the impact on prey populations exerted; and (3) how combined impacts of both fishes change over invasion stages (Pre-invasion, Arrival, Replacement, Proliferation). Both species showed Type II potentially destabilising FRs, but at low oxygen saturation, the invader had a significantly higher feeding rate than the native. Relative Impact Potential, combining fish per capita effects and population abundances, revealed that low oxygen saturation exacerbates the high relative impact of the invader. The Relative Total Impact Potential (RTIP), modelling both consumer species' impacts on prey populations in a system, was consistently higher at low oxygen saturation and especially high during invader Proliferation. In the mesocosm experiment, low oxygen lowered RTIP where both species were present, but again the IAS retained high relative impact during Replacement and Proliferation stages at low oxygen. We also found evidence of multiple predator effects, principally antagonism. We highlight the threat posed to native communities by IAS alongside climate-related stressors, but note that solutions may be available to remedy hypoxia and potentially mitigate impacts across invasion stages.
Supplementary Information: The online version contains supplementary material available at 10.1007/s10530-021-02542-3.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8550720 | PMC |
| http://dx.doi.org/10.1007/s10530-021-02542-3 | DOI Listing |
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