Principal Investigator: Gretchen E. Hofmann (University of California-Santa Barbara)
J. Exp. Mar. Biol. Ecol.~2011~400~Yu, P.C., P.G. Matson, T.R. Martz and G.E. Hofmann~~288~~~~The ocean acidification seascape and its relationship to the performance of calcifying marine invertebrates: laboratory experiments on the development of urchin larvae framed by environmentally-relevant pCO2/pH~N~~~~~~
Global Change Biology~2011~17~Sewell, M.A., G.E. Hofmann~~734~~~~Antarctic echinoids and climate change: a major impact on brooding forms.~N~~~~~~
Limnol. Oceanogr.: Methods~2010~8~Fangue, N.A., M.J. O'Donnell, M.A. Sewell, P.G. Matson, A.C. MacPherson and G.E. Hofmann~~441~~~~A laboratory-based experimental system for the study of ocean acidification effects on marine invertebrate larvae~N~~~~~~
Antarctic Science~2011~23~Matson, P.G., T.R. Martz and G.E. Hofmann~e28983. doi:10.1371/journal.pone.0028983~607~~~~High frequency observations of pH under Antarctic sea ice in the southern Ross Sea.~N~~~~~~
Phil. Trans. of Royal Society B~2012~367~Evans, T.G and G.E. Hofmann~~1733~~~~Defining the limits of physiological plasticity in marine organisms: how gene-expression profiling can aid in predicting the consequences of ocean change~N~~~~~~
PLoS ONE~2011~6~G.E. Hofmann, T.R. Martz + 10 co-authors~ e28983. doi:10.1371/journal.pone.0028983~~~~~High-Frequency Dynamics of Ocean pH: A Multi-Ecosystem Comparison~N~~~~~~
PLoS ONE~2014~9~Matson, P.G., L. Washburn, T.R. Martz and G.E. Hofmann~10.1371/journal.pone.0107239~e107239~~~~Abiotic versus biotic drivers of ocean pH variation under fast sea ice in McMurdo Sound, Antarctica~~~~~~~
Molecular Ecology Resources~2014~~Dilly, G. F., J.D. Gaitán-Espitia, and G.E. Hofmann~10.1111/1755-0998.12316~~~~~Characterization of the Antarctic Sea Urchin (Sterechinus neumayeri) Transcriptome and Mitogenome: a Molecular Resource for Phylogenetics, Ecophysiology and Global Change Biology~~~~~~~
Polar Biology~2014~37~Kapsenberg, L. and G.E. Hofmann~~967~~~~Signals of resilience to ocean change: High thermal tolerance of early stage Antarctic sea urchins (Sterechinus neumayeri) reared under present day and future pCO2 and temperature~~~~~~~
Environmental Science & Technology~2014~48~Sewell, M.A., R. Millar, P.C. Yu, L. Kapsenberg and G.E. Hofmann~~713~~~~Ocean acidification and fertilization in the Antarctic sea urchin Sterechinus neumayeri: the importance of polyspermy~~~~~~~
Oceanography~2014~26~Hofmann, G. E., Blanchette, C. A., Rivest, E. B., and Kapsenberg, L.~~140~~~~Taking the Pulse of Marine Ecosystems: The Importance of Coupling Long-term Physical and Biological Observations in the Context of Global Change Biology~~~~~~~
PLoS ONE~2013~8~Yu, P.C., M.A. Sewell, P.G. Matson, E.B. Rivest, L. Kapsenberg and G.E. Hofmann~10.1371/journal.pone.0052448~e52448~~~~Growth attenuation with developmental schedule progression in embryos and early larvae of Sterechinus neumayeri raised under elevated CO2~~~~~~~
PLoS ONE~2011~6~Hofmann, G.E., T.R. Martz + 16 co-authors~10.1371/journal.pone.0028983~e2898~~~~High-frequency dynamics of ocean pH: a multi-ecosystem comparison~~~~~~~
Antarctic Science~2011~23~Matson, P.G., T.R. Martz and G.E. Hofmann~~607~~~~High frequency observations of pH under Antarctic sea ice in the southern Ross Sea~~~~~~~
Global Change Biology~2011~17~Sewell, M.A., G.E. Hofmann~~734~~~~Antarctic echinoids and climate change: a major impact on brooding forms~~~~~~~
Limnology and Oceanography: Methods~2010~8~Fangue, N.A., M.J. O'Donnell, M.A. Sewell, P.G. Matson, A.C. MacPherson and G.E. Hofmann~~441~~~~A laboratory-based experimental system for the study of ocean acidification effects on marine invertebrate larvae~~~~~~~
Annu. Rev. Ecol. Evol. Syst.~2010~41~Hofmann, G.E., J.P. Barry, P.J. Edmunds, R.D. Gates, D.A. Hutchins, T. Klinger and M.A. Sewell~~127~~~~Ocean acidification impacts on calcifying marine organisms in marine ecosystems~~~~~~~