J
Jennifer L. Burnaford
Researcher at California State University, Fullerton
Publications - 16
Citations - 1259
Jennifer L. Burnaford is an academic researcher from California State University, Fullerton. The author has contributed to research in topics: Intertidal zone & Pisaster ochraceus. The author has an hindex of 7, co-authored 15 publications receiving 1121 citations. Previous affiliations of Jennifer L. Burnaford include University of Puget Sound & Dartmouth College.
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Synergism and antagonism among multiple stressors
TL;DR: Most multiple stress effects were antagonistic, in that effects in combination were not as severe as predicted based on the sum or the product of their individual effects.
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Top‐down and bottom‐up regulation of new zealand rocky intertidal communities
Bruce A. Menge,Bryon A. Daley,Jane Lubchenco,Eric Sanford,Elizabeth Dahlhoff,Patricia M. Halpin,Gregory Hudson,Jennifer L. Burnaford +7 more
TL;DR: This work investigated the effects and rates of predation, grazing, and recruitment on rocky intertidal community dynamics at upwelling and non-upwelling sites on the South Island of New Zealand to test the prediction that similar linkages occur elsewhere.
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Large-scale impacts of sea star wasting disease (SSWD) on intertidal sea stars and implications for recovery.
C. Melissa Miner,Jennifer L. Burnaford,Richard F. Ambrose,Liam D. Antrim,Heath Bohlmann,Carol A. Blanchette,John M. Engle,Steven C. Fradkin,Rani Gaddam,Christopher D. G. Harley,Benjamin G. Miner,Steven N. Murray,Jayson R. Smith,Stephen G. Whitaker,Peter T. Raimondi +14 more
TL;DR: The data suggest that the SSWD event defied prediction based on two factors found to be important in other marine disease events, sea water temperature and population density, and illustrate the importance of surveillance of natural populations as one element of an integrated approach to marine disease ecology.
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Habitat modification and refuge from sublethal stress drive a marine plant–herbivore association
TL;DR: In this paper, the authors used experimental devices to mimic characteristics of the Hedophyllum canopy and monitored the abundance and physiology of Katharina to determine the mechanism behind this association.
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Genomics-fueled approaches to current challenges in marine ecology
TL;DR: This work targets areas in which adding genomics to ecological and physiological investigations will significantly advance the understanding of crucial issues ranging from the general biological effects of environmental temperature changes on individuals and communities to the interactions between symbionts in coral bleaching.