Publications
Intraspecific genetic diversity in the marine coccolithophore Emiliania huxleyi (Prymnesiophyceae): the use of microsatellite analysis in marine phytoplankton population studies. J. Phycol. 42(3):526–536.
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2006. Intraspecific differences in biogeochemical responses to thermal change in the coccolithophore Emiliania huxleyi. PLoS One. 11(9)
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2016. Integrating phytoplankton pigment and DNA meta-barcoding observations to determine phytoplankton composition in the coastal ocean. Limnology and Oceanography.
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2022. Impact of Coccolith Formation on the Carbon Cycle. Science. 336
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2008. Global variability in seawater Mg:Ca and Sr:Ca ratios in the modern ocean. Proceedings of the National Academy of Sciences. 117:22281-22292.
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2020. Global contribution of echinoderms to the marine carbon cycle: CaCO3 budget and benthic compartments. Ecological Monographs. 80(3):441–467.
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2010. Geo-engineering might cause, not cure, problems. Nature. 449(781):781–781.
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2007. Formation, Development, and Propagation of a Rare Coastal Coccolithophore Bloom. Journal of Geophysical Research: Oceans. 124:3298-3316.
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2019. Food for all? Wildfire ash fuels growth of diverse eukaryotic plankton. Proc Biol Sci. 290(2010):20231817.
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2023. Flow cytometric analysis of an Emiliana huxleyi bloom terminated by viral infection. Aquatic Microbial Ecology. 27(2):111–124.
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2002. .
2018. Evaluation of accuracy and precision in an amplicon sequencing workflow for marine protist communities. Limnology and Oceanography: Methods. 18(1):20-40.
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2020. Environmental factors controlling the phytoplankton blooms at the Patagonia shelf-break in spring. Deep Sea Research Part I: Oceanographic Research Papers. 55(9):1150–1166.
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2008. Electrochemical sensing of aerobic marine bacterial biofilms and the influence of nitric oxide attachment control. MRS Proceedings. 1356
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2011. The effect of nitrate and phosphate availability on Emiliania huxleyi (NZEH) physiology under different CO2 scenarios. Frontiers in microbiology. 4
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2013. Diversity of the Luciferin Binding Protein Gene in Bioluminescent Dinoflagellates–Insights from a New Gene in Noctiluca scintillans and Sequences from Gonyaulacoid Genera. Journal of Eukaryotic Microbiology. 61(2):134–145.
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2014. Dissolved inorganic carbon utilization and the development of extracellular carbonic anhydrase by the marine diatom Phaeodactylum tricornutum. New phytologist. 135(1):163–168.
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1997. Development of regional coastal ocean observatories and the potential benefits to marine sanctuaries. Marine Technology Society Journal. 37(1):54–67.
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2003. Coccolithophores and diatoms resilient to ocean alkalinity enhancement: A glimpse of hope? Science Advances. 9:eadg6066.
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2023. Coccolithophore growth and calcification in a changing ocean. Progress in Oceanography. 159:276-295.
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2017. Characterization of the molecular mechanisms of silicon uptake in coccolithophores. Environmental Microbiology. Journal Volume: 25(Journal Issue: 2)
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2022. Carbon dioxide-concentrating mechanism and the development of extracellular carbonic anhydrase in the marine picoeukaryote Micromonas pusilla. New phytologist. 140(4):685–690.
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1998. Bicarbonate utilization by marine phytoplankton species. Journal of Phycology. 33(4):625–631.
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1997. Adsorptive exchange of coccolith biominerals facilitates viral infection. Science Advances. 9(3)
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2023. Sea urchins tolerate acid water. BBC news: Science and Environment.
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2010.