♪Earth and Planetary
Science Letter♪
1.
Calibration of the boron isotope proxy in the planktonic foraminifera
Globigerinoides ruber for use in palaeo-CO2 reconstruction
Henehan,
M., J., J. Rae, W.B., G. Foster, L., J. Erez, K. Prentice, C., M. Kucera, H. Bostock,
C., M. Martínez-Botí, A., J. A. Milton, P. Wilson, A., B. Marshall, J., and T.
Elliott (2013) Earth and Planetary Science Letters 364:111-122.
O
- http://dx.doi.org/10.1016/j.epsl.2012.12.029.
2.
Dynamic topography control on Patagonian relief evolution as inferred from
low temperature thermochronology
Guillaume,
B., C. Gautheron, T. Simon-Labric, J. Martinod, M. Roddaz, and E. Douville
(2013) Earth and Planetary Science Letters 364:157-167.
O
- http://dx.doi.org/10.1016/j.epsl.2012.12.036.
3.
Seasonally resolved diatom δ18O records from the West Antarctic Peninsula
over the last deglaciation
Swann,
G., E.A., J. Pike, A. Snelling, M., M. Leng, J., and M. Williams, C. (2013)
Earth and Planetary Science Letters 364:12-23.
O
- http://dx.doi.org/10.1016/j.epsl.2012.12.016.
4.
High- and low-latitude forcing of the Nile River regime during the Holocene
inferred from laminated sediments of the Nile deep-sea fan
Blanchet,
C. L., R. Tjallingii, M. Frank, J. Lorenzen, A. Reitz, K. Brown, T. Feseker,
and W. Brückmann (2013) Earth and Planetary Science Letters 364:98-110.
O
- http://dx.doi.org/10.1016/j.epsl.2013.01.009.
♪Quaternary Geochronology♪
5.
Optically stimulated luminescence dating of hearths from the Fazzan Basin,
Libya: A tool for determining the timing and pattern of Holocene occupation of
the Sahara
Armitage,
S. J., and G. E. King (2013) Quaternary Geochronology 15:88-97.
O
- http://dx.doi.org/10.1016/j.quageo.2012.10.002.
6.
An in situ 14C–10Be Bayesian isochron approach for interpreting complex
glacial histories
Goehring,
B., M., P. Muzikar, and N. Lifton, A. (2013) Quaternary Geochronology 15:61-66.
O
- http://dx.doi.org/10.1016/j.quageo.2012.11.007.
7.
Age models for long lacustrine sediment records using multiple dating
approaches – An example from Lake Bosumtwi, Ghana
Shanahan,
T., M., J. Peck, A., N. McKay, C. Heil Jr., W., J. King, S. Forman, L., D.
Hoffmann, L., D. Richards, A., J. Overpeck, T., and C. Scholz (2013) Quaternary
Geochronology 15:47-60.
O
- http://dx.doi.org/10.1016/j.quageo.2012.12.001.
8.
U-series, ESR and 14C studies of the fossil remains from the Mousterian
levels of Zafarraya Cave (Spain): A revised chronology of Neandertal presence
Michel,
V., D. Delanghe-Sabatier, E. Bard, and C. Barroso Ruiz (2013) Quaternary
Geochronology 15:20-33.
O
- http://dx.doi.org/10.1016/j.quageo.2012.12.008.
♪Quaternary Science Review♪
9.
Carbon cycling within an East African lake revealed by the carbon isotope
composition of diatom silica: a 25-ka record from Lake Challa, Mt. Kilimanjaro
Barker,
P., A., E. Hurrell, R., M. Leng, J., B. Plessen, C. Wolff, D. Conley, J., E.
Keppens, I. Milne, B. Cumming, F., K. Laird, R., C. Kendrick, P., P. Wynn, M.,
and D. Verschuren (2013) Quaternary Science Reviews 66:55-63.
O
- http://dx.doi.org/10.1016/j.quascirev.2012.07.016.
10.
Palaeo-seasonality of the last two millennia reconstructed from the oxygen
isotope composition of carbonates and diatom silica from Nar Gölü, central
Turkey
Dean,
J., R., M. Jones, D., M. Leng, J., H. Sloane, J., C. N. Roberts, J. Woodbridge,
G. Swann, E.A., S. Metcalfe, E., W. Eastwood, J., and H. Yiğitbaşıoğlu (2013)
Quaternary Science Reviews 66:35-44.
O
- http://dx.doi.org/10.1016/j.quascirev.2012.07.014.
♪Global and Planetary
Change♪
11.
Quantifying the mass transfer from mountain ranges to deposition in
sedimentary basins: Source to sink studies in the Danube Basin–Black Sea system
Matenco,
L., and P. Andriessen (2013) Global and Planetary Change 103:1-18.
O
- http://dx.doi.org/10.1016/j.gloplacha.2013.01.003.
