Population & Community Assembly Patterns
Population and Community Assembly Patterns Related to Remnant Bull Kelp (Nereocystis luetkeana) Forests Following a Catastrophic Decline
Presenter: Vinicius (Vini) Souza
Co-Presenter(s):
Dr. Hughes
Presenter Status: Graduate student
Academic Year: 22-23
Semester: Spring
Faculty Mentor: Brent Hughes
Department: Biology
Funding Source/Sponsor: Other
Other Funding Source/Program: Hughes lab personal grants, TA position, and scholarships and fellowships I apply for.
President's Strategic Plan Goal: Sustainability and Environmental Inquiry
Screenshot URL: https://drive.google.com/uc?id=15leX2hlH7xO50WIpVdHSpH1_GoKOzG9M
Abstract:
As the number of climate driven events increase, the persistence of many marine ecosystems become progressively more vulnerable. Additionally, population dynamics, larval production and demographic connectivity are likely to become more variable as the climate changes. Temperate kelp forests are known to be some of the most productive ecosystems in the world and provide a wide range of ecosystem services (habitat structure, food source, carbon sequestration, sedimentation, storm buffering etc), yet are susceptible to collapse when temperatures and physiological demands increase. In Northern California, a series of perturbations, including a record-breaking Marine Heatwave (MHW) has led to a catastrophic decline of these iconic and historically stable forests. Although many kelp forests have shifted to sea urchin barrens, observational and survey data shows there were certain locations (herein by referred to as patches) where kelp populations persisted. However, the regional factors that influenced the persistence of these patches following an ecological catastrophe are not well understood. In this study, I examine population and community assembly patterns related to remnant patches following the drastic decline of northern California kelp forests and assess if the presence of canopy and subcanopy kelp influences the recruitment of macroinvertebrates at two spatial scales: local and regional. To test these patterns, I quantified the abundance and composition of canopy and subcanopy kelp, urchins, abalone, and sea stars at 9 sites that represent a gradient of bull kelp density in addition to the monthly recruitment of larvae and juveniles at 2 sites. Lastly, I elaborate on the importance of assessing how biotic and abiotic factors effect metacommunities and meta-ecosystems.