User:Laura: Difference between revisions
(New page: == Laura Alonso-Sáez == left|310px PhD in Marine Sciences in 2006 (Institut de Ciències del Mar CSIC, Barcelona, Spain). My field of research is the aquatic micro...) |
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== Laura Alonso-Sáez == | == Laura Alonso-Sáez == | ||
[[Image:pinguino2.jpg|left|310px]] PhD in Marine Sciences in 2006 (Institut de Ciències del Mar CSIC, Barcelona, Spain). My field of research is the aquatic microbial ecology. During my PhD I have investigated links between bacterial diversity and carbon cycling, with the aim of identifying active bacterial groups playing a significant role in carbon processing on marine systems. | [[Image:pinguino2.jpg|left|310px]] PhD in Marine Sciences in 2006 (Institut de Ciències del Mar CSIC, Barcelona, Spain). My field of research is the aquatic microbial ecology. During my PhD I have investigated links between bacterial diversity and carbon cycling, with the aim of identifying active bacterial groups playing a significant role in carbon processing on marine systems. |
Latest revision as of 03:35, 17 January 2008
Laura Alonso-Sáez
PhD in Marine Sciences in 2006 (Institut de Ciències del Mar CSIC, Barcelona, Spain). My field of research is the aquatic microbial ecology. During my PhD I have investigated links between bacterial diversity and carbon cycling, with the aim of identifying active bacterial groups playing a significant role in carbon processing on marine systems.
After my PhD I did a six-month postdoc in the microbial ecology group of Emilio Casamayor at the CEAB-CSIC (Blanes, Spain). During that time, I studied the activity of chemoautotrophic Crenarchaea in alpine lakes from the Pyrenees, focusing on the determination of dark CO2 fixation by archaeal populations.
In Stefans group, I am continuing my research on the identity and biogeochemical role of chemoautotrophic Archaea on aquatic systems, including Swedish lakes and marine samples from the Arctic and the Baltic Sea. I will focus on the identification of relevant populations of chemoautotrophic Archaea by means of microautoradiography combined with Fluorescence In Situ Hybridization (MARFISH) and Stable Isotope probing (SIP).
laura.alonso@ebc.uu.se