Publications

Found 62 results
Author Title [ Type(Asc)] Year
Journal Article
Washburn L.  2018.  Water sampling from aerial drones for water quality research in coastal and inland waters. Earth and Space Science Open Archive.
Honjo S.  2014.  Understanding the Role of the Biological Pump in the Global Carbon Cycle: An Imperative for Ocean Science. Oceanography. 27(3):10–16.
Valiadi M.  2013.  Understanding Bioluminescence in Dinoflagellates—How Far Have We Come? Microorganisms. 1(1):3–25.
Iglesias-Rodriguez MD.  2010.  Towards an integrated global ocean acidification observation network. Developing a Global Ocean Acidification Observation Network. :335–353.
Ladd C, Eisner LB, Salo SA, Mordy CW, Iglesias‐Rodriguez MD.  2018.  Spatial and Temporal Variability of Coccolithophore Blooms in the Eastern Bering Sea. JGR Oceans. 123(12):9119-9136.
Jones BM.  2011.  Shotgun proteomic analysis of Emiliania huxleyi, a marine phytoplankton species of major biogeochemical importance. Marine biotechnology. 13(3):496–504.
Jones BM.  2013.  Responses of the emiliania huxleyi proteome to ocean acidification. PloS one. 8(4)
Iglesias-Rodriguez MD.  2008.  Response to comment on “Phytoplankton calcification in a high-CO2 world”. Science. 322(5907)
Iglesias-Rodriguez MD.  2002.  Representing key phytoplankton functional groups in ocean carbon cycle models: Coccolithophorids. Global Biogeochemical Cycles. 16(4):1-20.
Blanco-Ameijeiras S.  2012.  Removal of organic magnesium in coccolithophore calcite. Geochimica et Cosmochimica Acta. 89:226–239.
Iglesias-Rodriguez MD.  2002.  Progress made in study of ocean's calcium carbonate budget. Eos, Transactions American Geophysical Union. 83(34):365–375.
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.  2008.  Phytoplankton calcification in a high-CO2 world. Science. 320(5874):336–340.
Iglesias-Rodriguez MDebora, Jones BM, Blanco-Ameijeiras S, Greaves M, Huete-Ortega M, Lebrato M.  2017.  Physiological responses of coccolithophores to abrupt exposure of naturally low pH deep seawater. PLOS ONE. 12:1-20.
Read BA.  2013.  Pan genome of the phytoplankton Emiliania underpins its global distribution. Nature. 499:209–213.
Baker A.  2008.  Oligonucleotide Primers for the Detection of Bioluminescent Dinoflagellates Reveal Novel Lucifer's Sequences and Information on the Molecular Evolution of this Gene. Journal of Phycology. 44(2):419–428.
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.
Lampitt RS.  2008.  Ocean Fertilisation: a potential means of geo-engineering? The Royal Society. 366(1882):3919-3945.
Valiadi M.  2014.  Molecular detection of bioluminescent dinoflagellates in surface waters of the Patagonian Shelf during early austral summer 2008. PLoS ONE. 9(6)
Valiadi M, de Rond T, Amorim A, Gittins JR, Gubili C, Moore BS, Iglesias‐Rodriguez MDebora, Latz MI.  2019.  Molecular and biochemical basis for the loss of bioluminescence in the dinoflagellate Noctiluca scintillans along the west coast of the U.S.A.. Limnology and Oceanography. 64(6):2709-2724.
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.
Allen J.  2012.  Luminescence and Marine Plankton (LAMP) final report. Research and Consultancy Report No. 22.
Iglesias-Rodríguez M.D, Rickaby R.EM, Singh A., Gately J.A.  2023.  Laboratory experiments in ocean alkalinity enhancement research, in: Guide to Best Practices in Ocean Alkalinity Enhancement Research. State Planet. 2-oae2023(5)
Iglesias-Rodriguez MD.  2009.  La invisible factoria de carbono en los oceanos. Investigacion y Ciencia. 391

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