Future climate change accelerates the invasive rhythm of alien marine species: New insights into the invasive potential of the world's aquaculture species red drum Sciaenops ocellatus

•Four hotspot fitness zones were first identified by using SDM.•The most suitable habitat would expand and the center of mass would shift northwards.•Stable isotope δ15N and δ13C ratios indicated S. ocellatus has very high ecological competition.•Close attention should be paid to the strong invasive...

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Bibliographic Details
Published in:Ecological indicators 2023-11, Vol.155, p.111069, Article 111069
Main Authors: Xiao, Yongshuang, Liu, Jing, Wei, Jiehong, Xiao, Zhizhong, Li, Jun, Aguilar-Perera, Alfonso, Herrera-Ulloa, Angel
Format: Article
Language:English
Subjects:
Invasion
Sciaenops ocellatus
species distribution model (SDM)
Stable isotope
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Summary:•Four hotspot fitness zones were first identified by using SDM.•The most suitable habitat would expand and the center of mass would shift northwards.•Stable isotope δ15N and δ13C ratios indicated S. ocellatus has very high ecological competition.•Close attention should be paid to the strong invasive potential of S. ocellatus. In recent decades, an unprecedented frequency of red drum (Sciaenops ocellatus) escapes from sea cages (i.e., million tail level) has generated enormous pressure on local marine biodiversity and ecosystems. This study aimed to assess the distribution and shifts of hotspot fitness zones for S. ocellatus under global climate change and to identify the trophic levels in the coastal waters of China. The species distribution model (SDM) identified four hotspot fitness zones at a global scale located in the Atlantic Ocean along the Gulf of Mexico and Uruguayan coasts, and in the Pacific Ocean along the Chinese and Australian coasts. Under global warming and climate change, the most suitable habitat for S. ocellatus would expand (448,178.6 km2) and the centre of mass would shift northwards. Stable isotope δ15N and δ13C ratios indicated S. ocellatus has very high ecological competition, within a wide feeding range and high ecological position (δ15N: 10.84 ∼ 12.84 ‰, 11.61 ± 0.62 ‰; δ13C: −15.28 ∼ -17.25 ‰, −16.45 ± 0. 52 ‰) in the escape zone. The results suggested that a wide range of habitats, high reproductive capacity, and ecological niche competition conferred escaped S. ocellatus with a great ability to invade across regions on a global scale.
ISSN:1470-160X
1872-7034
DOI:10.1016/j.ecolind.2023.111069