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A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

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Valiadi M. 2016. Bioluminescent Microalgae. Microalgae: Current research and applications.

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Iglesias-Rodriguez MD. 1998. Carbon dioxide-concentrating mechanism and the development of extracellular carbonic anhydrase in the marine picoeukaryote Micromonas pusilla. New phytologist. 140(4):685–690.

Joint I. 2009. Consequences of high CO2 and ocean acidification for microbes in the global ocean. Rising CO2, Ocean Acidification, and Their Impacts on Marine Microbes.

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Schofield O. 2003. Development of regional coastal ocean observatories and the potential benefits to marine sanctuaries. Marine Technology Society Journal. 37(1):54–67.

Iglesias-Rodriguez MD. 1997. Dissolved inorganic carbon utilization and the development of extracellular carbonic anhydrase by the marine diatom Phaeodactylum tricornutum. New phytologist. 135(1):163–168.

Valiadi M. 2014. 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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Rouco M. 2013. The effect of nitrate and phosphate availability on Emiliania huxleyi (NZEH) physiology under different CO2 scenarios. Frontiers in microbiology. 4

Werwinski S. 2011. Electrochemical sensing of aerobic marine bacterial biofilms and the influence of nitric oxide attachment control. MRS Proceedings. 1356

Lebrato M. 2011. Elemental carbonate chemistry selectivity in coccolithophores in present and future oceans. European Journal of Phycology.

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Jacquet S. 2002. Flow cytometric analysis of an Emiliana huxleyi bloom terminated by viral infection. Aquatic Microbial Ecology. 27(2):111–124.

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Lebrato M. 2010. Global contribution of echinoderms to the marine carbon cycle: CaCO3 budget and benthic compartments. Ecological Monographs. 80(3):441–467.

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Iglesias-Rodriguez MD. 2008. Impact of Coccolith Formation on the Carbon Cycle. Science. 336

Matson PG. 2016. Intraspecific differences in biogeochemical responses to thermal change in the coccolithophore Emiliania huxleyi. PLoS One. 11(9)

Iglesias-Rodriguez MD. 2006. 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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Iglesias-Rodriguez MD. 2009. La invisible factoria de carbono en los oceanos. Investigacion y Ciencia. 391

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Frommlet JC. 2008. Microsatellite Genotyping of Single Cells of the Dinoflagellate Species Lingulodinium Polyedrum (Dinophyceae): A novel approach for marine microbial population genetic studies. Journal of Phycology. 44(5):1116–1125.

Valiadi M. 2014. Molecular detection of bioluminescent dinoflagellates in surface waters of the Patagonian Shelf during early austral summer 2008. PLoS ONE. 9(6)

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Iglesias-Rodriguez MD. 2013. Ocean Acidification. Earth System Monitoring. :269–289.

Lampitt RS. 2008. Ocean Fertilisation: a potential means of geo-engineering? The Royal Society. 366(1882):3919-3945.

Lampitt RS. 2008. Ocean fertilization: a potential means of geoengineering? Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences. 366(1882):3919–3945.

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Iglesias-Rodriguez MD. 2008. Phytoplankton calcification in a high-CO2 world. Science. 320(5874):336–340.

Iglesias-Rodriguez MD. 2002. Polymorphic microsatellite loci in global populations of the marine coccolithophorid Emiliania huxleyi. Molecular Ecology Notes. 2(4):495–497.

Iglesias-Rodriguez MD. 2002. Progress made in study of ocean's calcium carbonate budget. Eos, Transactions American Geophysical Union. 83(34):365–375.

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Blanco-Ameijeiras S. 2012. Removal of organic magnesium in coccolithophore calcite. Geochimica et Cosmochimica Acta. 89:226–239.

Iglesias-Rodriguez MD. 2002. Representing key phytoplankton functional groups in ocean carbon cycle models: Coccolithophorids. Global Biogeochemical Cycles. 16(4):1-20.

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