アップを忘れていました。。。
★AGU(7-14 May 2012)★
☆G3☆
特になし
☆GRL☆
1. Response of the Atlantic Ocean circulation to Greenland Ice Sheet melting in a strongly-eddying ocean model
Weijer, W., M. E. Maltrud, M. W. Hecht, H. A. Dijkstra, and M. A. Kliphuis
doi:10.1029/2012GL051611
Key Points
・Mesoscale features impact the response of the AMOC to GrIS meltwater input
・Decadal time scale
・Non-eddying model ⇨ Response of AMOC is not sensitive to fresh water flux.
2. Drivers of the projected changes to the Pacific Ocean equatorial circulation
Sen Gupta, A., A. Ganachaud, S. McGregor, J. N. Brown, and L. Muir
doi:10.1029/2012GL051447
Key Points
・Role of wind ⇔ Pacific Ocean equatorial circulation
3. Systematic and random error components in satellite precipitation data sets
AghaKouchak, A., A. Mehran, H. Norouzi, and A. Behrangi
doi:10.1029/2012GL051592
4. Potential aerosol indirect effects on atmospheric circulation and radiative forcing through deep convection
Fan, J., D. Rosenfeld, Y. Ding, L. R. Leung, and Z. Li
doi:10.1029/2012GL051851
5. Moisture flux convergence in regional and global climate models: Implications for droughts in the southwestern United States under climate change
Gao, Y., L. R. Leung, E. P. Salathé Jr., F. Dominguez, B. Nijssen, and D. P. Lettenmaier
doi:10.1029/2012GL051560
6. New particle formation and growth in biomass burning plumes: An important source of cloud condensation nuclei
Hennigan, C. J., D. M. Westervelt, I. Riipinen, G. J. Engelhart, T. Lee, J. L. Collett Jr., S. N. Pandis, P. J. Adams, and A. L. Robinson
doi:10.1029/2012GL050930
7. Little Ice Age cold interval in West Antarctica: Evidence from borehole temperature at the West Antarctic Ice Sheet (WAIS) Divide
Orsi, A. J., B. D. Cornuelle, and J. P. Severinghaus
doi:10.1029/2012GL051260
Key point:
・Cold interval from 1300 to 1800 C.E. at WAIS Divide
・The 1400-1800 C.E. was 0.52+/-0.28 deg C colder than the last 100 years
・Cooling broadly synchronous to Greenland cooling, with lesser amplitude
8. The thermal threshold of the Atlantic meridional overturning circulation and its control by wind stress forcing during glacial climate
Oka, A., H. Hasumi, and A. Abe-Ouchi
doi:10.1029/2012GL051421
9. Past and future contribution of global groundwater depletion to sea-level rise
Wada, Y., L. P. H. van Beek, F. C. Sperna Weiland, B. F. Chao, Y.-H. Wu, and M. F. P. Bierkens
doi:10.1029/2012GL051230
☆JGR-Oceans☆
10. Modeling the carbon fluxes of the northwest European continental shelf: Validation and budgets
Wakelin, S. L., J. T. Holt, J. C. Blackford, J. I. Allen, M. Butenschön, and Y. Artioli
doi:10.1029/2011JC007402
11. Eddy heat and salt transports in the South China Sea and their seasonal modulations
Chen, G., J. Gan, Q. Xie, X. Chu, D. Wang, and Y. Hou
doi:10.1029/2011JC007724
Key point:
・Using Argo floats
☆Paleoceanography☆
12. Rapid switches in subpolar North Atlantic hydrography and climate during the Last Interglacial (MIS 5e)
Irvalı, N., U. S. Ninnemann, E. V. Galaasen, Y. Rosenthal, D. Kroon, D. W. Oppo, H. F. Kleiven, K. F. Darling, and C. Kissel
doi:10.1029/2011PA002244
Key Points
・Proxy : planktonic foraminiferal isotopes, IRD, Mg/Ca-based paleothermometry
★EGU(7-14 May 2012)★
☆Climate of the Past☆
13. Bacterial GDGTs in Holocene sediments and catchment soils of a high Alpine lake: application of the MBT/CBT-paleothermometer
H. Niemann, A. Stadnitskaia, S. B. Wirth, A. Gilli, F. S. Anselmetti, J. S. Sinninghe Damsté, S. Schouten, E. C. Hopmans, and M. F. Lehmann
★GSA★
☆GSA Bulletin☆
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