AI Article Synopsis
- Climate change is expected to increase hypoxia in the California Current System (CCS), jeopardizing its marine biodiversity and productivity.
- The study shows that the Metabolic Index (Φ), which measures how well the environment can support oxygen needs of various species, is highly variable in the CCS, indicating that local species face significant fluctuations in suitable living conditions.
- By 2100, ocean warming and oxygen depletion could reduce Φ below critical levels for 30-50% of northern anchovy's range, threatening their survival and leading to potential loss of aerobic habitats, which will disrupt ecological relationships among different species in the region.
Article Abstract
Climate warming is expected to intensify hypoxia in the California Current System (CCS), threatening its diverse and productive marine ecosystem. We analyzed past regional variability and future changes in the Metabolic Index (Φ), a species-specific measure of the environment's capacity to meet temperature-dependent organismal oxygen demand. Across the traits of diverse animals, Φ exhibits strong seasonal to interdecadal variations throughout the CCS, implying that resident species already experience large fluctuations in available aerobic habitat. For a key CCS species, northern anchovy, the long-term biogeographic distribution and decadal fluctuations in abundance are both highly coherent with aerobic habitat volume. Ocean warming and oxygen loss by 2100 are projected to decrease Φ below critical levels in 30 to 50% of anchovies' present range, including complete loss of aerobic habitat-and thus likely extirpation-from the southern CCS. Aerobic habitat loss will vary widely across the traits of CCS taxa, disrupting ecological interactions throughout the region.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7228741 | PMC |
| http://dx.doi.org/10.1126/sciadv.aay3188 | DOI Listing |
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