Abstract
Caulerpa, a (sub) tropical seaweed, is a notorious taxonomic group and an invasive seaweed worldwide. Similar to several species that have been introduced to benthic habitats through aquariums, Caulerpa sertularioides has also been introduced into Korean aquariums, although it is not native to the region. Thus, it is necessary to evaluate the potential of this species for invading domestic macroalgal habitats. Therefore, an indoor mesocosm experiment was conducted to examine the ecophysiological invasion risk of non-native seaweed C. sertularioides under various climate conditions and exposure to three future climate scenarios: acidification (doubled CO2), warming (5 °C increase from ambient temperature), and greenhouse (GR: combination of acidification and warming); additionally, we compared the invasion risk between future and present climates (control: 20 °C and 470 µatm CO2). High CO2 concentrations and increased temperatures positively affected the photosynthesis and growth of C. sertularioides. Photosynthesis and growth were more synergistically increased under GR conditions than under acidification and warming. Consequently, the performance of this potentially invasive species in the native macroalgal Korean habitat will be higher in the future in coastal environments. Therefore, proper management is required to prevent the geographic expansion of C. sertularioides in the Korean coastal ocean.
Highlights
Published: 2 December 2021One of the most serious environmental issues worldwide is the loss of species diversity, with international policies focusing on maintaining species diversity [1]
The pH values of ocean acidification (OA) and GR were lowered by approximately 0.25 units as compared to the control and ocean warming (OW), respectively
The dissolved inorganic carbon (DIC) concentration was 8.4and 2.4-fold higher in OA and GR compared to the control and OW, respectively
Summary
Published: 2 December 2021One of the most serious environmental issues worldwide is the loss of species diversity, with international policies focusing on maintaining species diversity [1]. Species diversity loss is accelerating due to the rapid increase in environmental stress, such as warming, acidification, hypoxia, introduction of invasive species, and habitat destruction caused by anthropogenic activities [2]. These issues are the subject of active research in marine ecosystems, along with other topics such as habitat restoration and ecosystem engineering. Climate change affects the distribution range of marine organisms, along with their ecophysiological characteristics [3]. The increase in greenhouse gas emissions caused by anthropogenic activities has accelerated ocean acidification and warming. As studies on climate change are being actively designed, research themes on the adaptation of marine organisms
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