References

  • Ainis, A. F., Erlandson, J. M., Gill, K. M., Graham, M. H., & Vellanoweth, R. L. (2019). The potential use of seaweeds and marine plants by Native peoples of Alta and Baja California. An archaeology of abundance: reevaluating the marginality of California’s islands. Gainesville: University Press of Florida, 135-70.
  • Garrett, A. D., Brennan, R. S., Steinhart, A. L., Pelletier, A. M., & Pespeni, M. H. (2020). Unique genomic and phenotypic responses to extreme and variable pH conditions in purple urchin larvae. Integrative and Comparative Biology, 60(2), 318-331.
  • Hamilton, S, Saccomanno, V., et al. 2021. Disease-driven mass mortality event leads to widespread extirpation and variable recovery potential of a marine predator across the eastern Pacific. Proc. R. Soc.
  • Kelly, M. W., Padilla‐Gamiño, J. L., & Hofmann, G. E. (2013). Natural variation and the capacity to adapt to ocean acidification in the keystone sea urchin S trongylocentrotus purpuratus. Global change biology, 19(8), 2536-2546.
  • Lafferty, K. D., & Kushner, D. (2000, January). Population regulation of the purple sea urchin, Strongylocentrotus purpuratus, at the California Channel Islands. In Fifth California Islands Symposium (Vol. 99, p. 0038). Minerals Management Service.
  • Nichols, K. D., Segui, L., & Hovel, K. A. (2015). Effects of predators on sea urchin density and habitat use in a southern California kelp forest. Marine Biology, 162, 1227-1237.
  • Pearse, J. S. (2006). Ecological role of purple sea urchins. Science, 314(5801), 940-941.
  • Rogers-Bennett, L. and C.A. Catton 2019. Marine heat wave and multiple stressors tip bull kelp forest to sea urchin barrens. Scientific Reports 9: doi.org/10.1038/s41598-019-51114-y
  • Rogers-Bennett, L., and C.A. Catton 2022. Cascading Impacts of a Climate-Driven Ecosystem Transition Intensifies Population Vulnerabilities and Fishery Collapse. Frontiers in Climate, Ecology and People, Special Issue: Advances in Marine Heatwave Interact
  • Rogers-Bennett, L., Yang, G., and Mann J.A. 2022. Using the Resist-Accept-Direct management framework to respond to climate driven transitions in marine ecosystems. Fisheries Management and Ecology 29: 409-422. https://doi.org/10.1111/fme.12539.
  • Rogers-Bennett, L., Klamt, R., C.A. Catton 2021. Survivors of climate driven abalone mass mortality exhibit declines in health and reproduction following kelp forest collapse. Frontiers in Marine Science: Global Change and the Future Ocean. 8: https://doi
  • Sato, K. N., Powell, J., Rudie, D., & Levin, L. A. (2018). Evaluating the promise and pitfalls of a potential climate change–tolerant sea urchin fishery in southern California. ICES Journal of Marine Science, 75(3), 1029-1041.
  • Scarborough, C., Welch, Z. S., Wilson, J., Gleason, M. G., Saccomanno, V. R., & Halpern, B. S. (2022). The historical ecology of coastal California. Ocean & Coastal Management, 230, 106352.
  • Tegner, M. J., & Dayton, P. K. (1991). Sea urchins, El Ninos, and the long term stability of Southern California kelp forest communities. Marine ecology progress series. Oldendorf, 77(1), 49-63.