Geochemistry, Geophysics, Geosystems
[1] Ice-rafted detritus of the southeast Grand Banks Slope, Newfoundland, throughout Heinrich layers 1 to 5a: 1. Petrology and abundance
Bukar, S., Lisker, F., von Dobeneck, T., Max, L., Wang, Y., Lenz, M., et al.
[2] Ice-rafted detritus of the southeast Grand Banks Slope, Newfoundland, throughout Heinrich layers 1 to 5a: 2. Magnetic properties
Bukar, S., von Dobeneck, T., Wang, Y., Max, L., Frederichs, T., Dallanave, E., & St-Onge, G.
[3] Determination of δ11B in planktonic foraminifera at the ng level: Application to the ontogenetic variability in Globigerina bulloides
Paulhac Buisson, M., Louvat, P., Karancz, S., Tian, R., Raitzsch, M., Bijma, J., & Rollion-Bard, C.
Geophysical Research Letters
[3] Possible mechanisms for the record-breaking persistent extreme rainfall event over southern China in April 2024: Synergistic effects of multiscale systems
Pan, W., Sun, J., & Ma, J.
[4] Apparent changes in Pacific decadal variability caused by anthropogenically induced mean state modulations
Xing, C., Stevenson, S., Di Lorenzo, E., Newman, M., Capotondi, A., Fasullo, J., & Maher, N.
[5] Extratropical cyclones act as a “bridge” to the concurrent impact of ENSO on the Arctic Oscillation during boreal winter
Qian, S., Hu, H., Hodges, K. I., Zhu, Y., Yang, X.-Q., & Wang, Y.
[6] Seesaw shift in sea surface height drives spring decline of the Antarctic Slope Current in the Cosmonaut Sea, East Antarctica
Guo, G., Gao, L., Xu, H., Shi, J., Kong, B., & Sun, Y.
[7] Multi-year ice dynamics at Køge Bugt Central glacier controlled by bed topography
Picton, H. J., & Nienow, P. W.
[8] Tracing diurnal variations of atmospheric CO2, O2, and δ13CO2 over a tropical and a temperate forest
Faassen, K. A. P., González-Armas, R., Koren, G., Adnew, G. A., van Asperen, H., de Boer, H., et al.
[9] Increased carbon sink within the seasonal sea ice zone associated with climate variability in the Southern Ocean
Deng, P., He, S., Zhang, Z., Smith, W. O., Jr., He, J., Lan, M., et al.
[10] Greenland ice core isotope variability strongly influenced by systematic changes in depositional noise
Hirsch, N., Dolman, A. M., Münch, T., & Laepple, T.
[11] Extreme Antarctic sea ice loss facilitated by negative shift of Southern Annular Mode
Chan, A. C., England, M. R., Screen, J. A., Bracegirdle, T. J., Blockley, E. W., & Holmes, C. R.
[12] Increased shortwave radiation dampens summertime SST tendency in mid-latitude oceans under future warming scenarios
Tian, F., & Zhang, R.-H.
Journal of Geophysical Research C. Oceans
[13] Revisiting the Kuroshio frontal eddies in the East China Sea: Insights from the eddy energy budget
Wang, S., Guo, X., Kido, S., Qiao, Y.-X., & Sasaki, H.
[14] Assessing submesoscale sea surface height signals from the SWOT mission
Zhang, X., & Callies, J.
Paleoceanography
[15] Sea ice response to orbital forcing in idealized climate model experiments
O’Neill, G. R., & Broccoli, A. J.
〈EGU〉
Climate of the Past
N/A
〈GSA〉
Geological Society of America Bulletin
N/A
