Carol S. Thornber
Affiliations: | Biological Sciences | University of Rhode Island, Providence, RI, United States |
Area:
marine ecologyWebsite:
http://www.uri.edu/cels/bio/thornber/Google:
"Carol Thornber"Parents
Sign in to add mentorSteven D. Gaines | grad student | 2001 | UC Santa Barbara | |
(The relative advantages of being haploid or diploid: Modeling and field studies on three isomorphic red algal species.) | ||||
John (Jay) J. Stachowicz | post-doc | 2001-2004 | UC Davis |
Children
Sign in to add traineeEmily Bishop | research assistant | University of Rhode Island | |
Shelby Rinehart | research assistant | 2009-2013 | University of Rhode Island |
Fiona Parker MacKechnie | research assistant | 2013-2015 | University of Rhode Island |
Gordon Ober | grad student | ||
Christine Newton | grad student | 2008- | University of Rhode Island |
Elaine E. Potter | grad student | 2012- | University of Rhode Island |
Emily Jones | grad student | 2004-2007 | University of Rhode Island |
Heather Miceli | grad student | 2006-2008 | University of Rhode Island |
Jessie E. Conover | grad student | 2009-2011 | University of Rhode Island |
Nicole E. Rohr | grad student | 2006-2012 | University of Rhode Island |
Michele Guidone | grad student | 2007-2012 | University of Rhode Island |
Lindsay A Green-Gavrielidis | post-doc | 2014- | University of Rhode Island (PhycoTree) |
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Publications
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Kurtz KR, Green-Gavrielidis L, Maranda L, et al. (2024) A comparison of the biofouling potential of field-collected and laboratory-cultured . Biofouling. 40: 632-644 |
Rosic N, Thornber C. (2023) Biotechnological Potential of Macroalgae during Seasonal Blooms for Sustainable Production of UV-Absorbing Compounds. Marine Drugs. 21 |
Green-Gavrielidis LA, Thornber CS, Oczkowski A. (2023) Integrated multi-trophic aquaculture with sugar kelp and oysters in a shallow coastal salt pond and open estuary site. Frontiers in Aquaculture. 2: 1-14 |
Gray I, Green-Gavrielidis LA, Thornber C. (2021) Effect of caffeine on the growth and photosynthetic efficiency of marine macroalgae Botanica Marina. 64: 13-18 |
Venolia CT, Lavaud R, Green-Gavrielidis LA, et al. (2020) Modeling the Growth of Sugar Kelp (Saccharina latissima) in Aquaculture Systems using Dynamic Energy Budget Theory Ecological Modelling. 430: 109151 |
Perry DC, Moseman-Valtierra S, Thornber C. (2020) Greenhouse gas response and Spartina alterniflora resilience to macroalgal exposure Aquatic Botany. 162: 103185 |
Wilson CM, Schaeffer RN, Hickin ML, et al. (2018) Chronic impacts of invasive herbivores on a foundational forest species: a whole-tree perspective. Ecology |
Schaeffer RN, Wang Z, Thornber CS, et al. (2018) Two invasive herbivores on a shared host: patterns and consequences of phytohormone induction. Oecologia |
Green-Gavrielidis L, MacKechnie F, Thornber C, et al. (2018) Bloom-forming macroalgae (Ulva spp.) inhibit the growth of co-occurring macroalgae and decrease eastern oyster larval survival Marine Ecology Progress Series. 595: 27-37 |
Thornber CS, Guidone M, Deacutis C, et al. (2017) Spatial and temporal variability in macroalgal blooms in a eutrophied coastal estuary. Harmful Algae. 68: 82-96 |