Geoscience Reference
In-Depth Information
carbon dioxide on the marine nitrogen i xer
Tricho-
desmium
.
Falkowski, P., Scholes, R.J., Boyle, E.
et al.
(2000). The glo-
bal carbon cycle: a test of our knowledge of Earth as a
system.
Science
,
290
, 291-6.
Follows, M.J., Dutkiewicz, S., Grant, S., and Chisholm,
S.W. (2007). Emergent biogeography of microbial com-
munities in a model ocean.
Science
,
315
, 1843-6.
Friedlingstein P., Cox, P., Betts, R.
et al.
(2006). Climate-
carbon cycle feedback analysis: results from the C4MIP
model intercomparison.
Journal of Climate
,
19
, 3337-53.
Fu, F-X., Mulholland, M.R., Garcia, N.S.
et al.
(2008).
Interactions between changing
p
CO
2
, N
2
i xation, and Fe
limitation in the marine unicellular cyanobacterium
Crocosphaera
.
Global Biogeochemical Cycles
,
21
,
GB2028,
doi:10.1029/2006GB002898.
Barker, S., Higgins, J.A., and Elderi eld, H. (2003). The
future of the carbon cycle: review, calcii cation response,
ballast and feedback on atmospheric CO
2
.
Philosophical
Transactions of the Royal Society A: Mathematical, Physical
and Engineering Sciences
,
361
, 1977-1998.
Barton, A.D., Dutkiewicz, S., Flierl, G., Bragg, J., and
Follows, M.J. (2010). Patterns of diversity in marine
phytoplankton.
Science
,
327
, 1509-11.
Blackford, J.C. and Gilbert, F.J. (2007). pH variability and
CO
2
induced acidii cation in the North Sea.
Journal of
Marine Systems
,
64
, 229-41.
Bopp, L., Aumont, O., Cadule, P., Alvain, S., and Gehlen,
M. (2005). Response of diatoms distribution to global
warming and potential implications: a global model
study.
Geophysical Research Letters
,
Limnology
and
Oceanography
,
53
,
2472-2484.
Gangstø, R., Gehlen, M., Schneider, B., Bopp, L., Aumont,
O., and Joos, F. (2008). Modeling the marine aragonite
cycle: changes under rising carbon dioxide and its role
in shallow water CaCO
3
dissolution.
Biogeosciences
,
5
,
1057-72.
Gangstø R. Joos, F. and Gehlen, M. (2011). Sensitivity of
pelagic calcii cation to ocean acidii cation,
Biogeosciences
,
8
, 433-58.
Gehlen, M., Bassinot, F., Chou, L., and McCorkle, D. (2005).
Reassessing the dissolution of marine carbonates: II.
Reaction kinetics.
Deep-Sea Research I
,
52
, 1461-76.
Gehlen, M., Gangstø, R., Schneider, B., Bopp, L., Aumont,
O., and Ethé, C. (2007). The fate of pelagic CaCO
3
pro-
duction in a high CO
2
ocean: a model study.
Biogeosciences
,
4
, 505-19.
Gruber, N. (2008). The marine nitrogen cycle: overview
and challenges. In: D.G. Capone, D.A. Bronk, M.R.
Mulholland, and E.J. Carpenter (eds),
Nitrogen in the
marine environment
, pp. 1-50. Elsevier, Amsterdam.
Gruber, N. and Sarmiento, J.L. (2002). Large-scale biogeo-
chemical/physical interactions in elemental cycles.
In: A.R. Robinson, J.J. McCarthy, and B.J. Rothschild
(eds),
The sea: biological-physical interactions in the oceans
,
pp. 337-99. John Wiley and Sons, Inc., New York.
Gunson, J.R., Spall, S.A., Anderson, T.R., Jones, A.,
Totterdell, I.J., and Woodage, M.J. (2006). Climate sensi-
tivity to ocean dimethylsulphide emissions.
Geophysical
Research Letters
,
33
, L07701, doi:10.1029/2005GL024982.
Hales, B. and Emerson, S. (1997). Evidence in support of
i rst order dissolution kinetics of calcite in seawater.
Earth and Planetary Science Letters
,
148
, 317-27.
Heinze, C. (2004). Simulating oceanic CaCO
3
export pro-
duction in the greenhouse.
Geophysical Research Letters
,
31
, L16308, doi:10,1029/2004GL020613.
Hofmann, M. and Schellnhuber, H.-J. (2009). Oceanic acid-
ii cation affects marine carbon pump and triggers
extended marine oxygen holes.
Proceedings of the National
Academy of Sciences USA
,
106
, 3017-22.
32
,
L19606,
doi:10.1029/2005GL023653.
Breitbarth, E., Bellerby, R.J., Neill, C.C.
et al.
(2010). Ocean
acidii cation affects iron speciation during a coastal sea-
water mesocosm experiment.
Biogeosciences
,
7
, 1065-73.
Brewer, P.G. and Peltzer, E.T. (2009). Limits to marine life.
Science
,
324
, 347-8.
Bruggeman, J. and Kooijman, S.A.L.M. (2007). A biodiver-
sity-inspired approach to aquatic ecosystem modeling.
Limnology and Oceanography
,
52
, 1533-44.
Caldeira, K. and Wickett, M.E. (2003). Anthropogenic car-
bon and ocean pH.
Nature
,
425
, 365.
Capone, D.G., Zehr, J.P., Paerl, H.W., Bergman, B., and
Carpenter, E.J. (1997).
Trichodesmium
, a globally signii -
cant marine cyanobacterium.
Science
,
276
, 1221-9.
Carpenter, E.J. and Capone, D.G. (2008). Nitrogen i xation
in the marine environment. In: D.G. Capone, D.A.
Bronk, M.R. Mulholland, and E.J. Carpenter (eds),
Nitrogen in the marine environment
, pp. 141-98. Elsevier,
Amsterdam.
Charlson, R.J., Lovelock, J.E., Andreae, M.O., and Warren,
S.G. (1987). Oceanic phytoplankton, atmospheric sulfur,
cloud albedo and climate.
Nature
,
326
, 655-61.
Czerny, J., Barcelos e Ramos, J., and Riebesell, U. (2009).
Inl uence of elevated CO
2
concentrations on cell divi-
sion and nitrogen i xation rates in the bloomforming
cyanobacterium
Nodularia spumigena
.
Biogeosciences,
6
,
1865-75.
Deutsch, C., Sarmiento, J.L., Sigman, D.M., Gruber, N.,
and Dunne, J.P. (2007). Spatial coupling of nitrogen
inputs and losses in the ocean,
Nature
,
445
, 163-7.
Fabry, V.J., Seibel, B.A., Feely, R.A., and Orr, J.C. (2008).
Impacts of ocean acidii cation on marine fauna and eco-
system processes.
ICES Journal of Marine Sciences
,
65
,
414-32.
