AI Article Synopsis
- Between 2014-2016, severe marine heatwaves in the northeast Pacific caused significant ecological disruptions, including mass die-offs and harmful algal blooms, with less focus on how these heatwaves affected species distribution along the coast.
- A study in northern California highlighted major changes in the geographic distribution of 67 southern marine species, including notable poleward range extensions and increased populations of certain species like owl limpets and volcano barnacles.
- The findings suggest that extreme sea surface temperatures and altered ocean currents during heatwave events may contribute to long-term changes in coastal ecosystems, especially in regions where species are reaching their northern limits.
Article Abstract
During 2014-2016, severe marine heatwaves in the northeast Pacific triggered well-documented disturbances including mass mortalities, harmful algal blooms, and declines in subtidal kelp beds. However, less attention has been directed towards understanding how changes in sea surface temperature (SST) and alongshore currents during this period influenced the geographic distribution of coastal taxa. Here, we examine these effects in northern California, USA, with a focus on the region between Point Reyes and Point Arena. This region represents an important biogeographic transition zone that lies <150 km north of Monterey Bay, California, where numerous southern species have historically reached their northern (poleward) range limits. We report substantial changes in geographic distributions and/or abundances across a diverse suite of 67 southern species, including an unprecedented number of poleward range extensions (37) and striking increases in the recruitment of owl limpets (Lottia gigantea) and volcano barnacles (Tetraclita rubescens). These ecological responses likely arose through the combined effects of extreme SST, periods of anomalous poleward flow, and the unusually long duration of heatwave events. Prolonged marine heatwaves and enhanced poleward dispersal may play an important role in longer-term shifts in the composition of coastal communities in northern California and other biogeographic transition zones.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6414504 | PMC |
| http://dx.doi.org/10.1038/s41598-019-40784-3 | DOI Listing |
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