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Intense upper ocean mixing due to large aggregations of spawning fish
Fernández Castro, B., Peña, M., Nogueira, E., Gilcoto, M., Broullón, E., Comesaña, A., … Mouriño-Carballido, B. (2022). Intense upper ocean mixing due to large aggregations of spawning fish. Nature Geoscience, 15(4), 287-292. https://doi.org/10.1038/s41561-022-00916-3
Springtime arctic ozone depletion forces northern hemisphere climate anomalies
Friedel, M., Chiodo, G., Stenke, A., Domeisen, D. I. V., Fueglistaler, S., Anet, J. G., & Peter, T. (2022). Springtime arctic ozone depletion forces northern hemisphere climate anomalies. Nature Geoscience, 15, 541-547. https://doi.org/10.1038/s41561-022-00974-7
Eleven-year solar cycles over the last millennium revealed by radiocarbon in tree rings
Brehm, N., Bayliss, A., Christl, M., Synal, H. A., Adolphi, F., Beer, J., … Wacker, L. (2021). Eleven-year solar cycles over the last millennium revealed by radiocarbon in tree rings. Nature Geoscience, 14, 10-15. https://doi.org/10.1038/s41561-020-00674-0
The river-groundwater interface as a hotspot for arsenic release
Wallis, I., Prommer, H., Berg, M., Siade, A. J., Sun, J., & Kipfer, R. (2020). The river-groundwater interface as a hotspot for arsenic release. Nature Geoscience, 13, 288-295. https://doi.org/10.1038/s41561-020-0557-6
A global analysis of terrestrial plant litter dynamics in non-perennial waterways
Datry, T., Foulquier, A., Corti, R., von Schiller, D., Tockner, K., Mendoza-Lera, C., … Zoppini, A. (2018). A global analysis of terrestrial plant litter dynamics in non-perennial waterways. Nature Geoscience, 11, 497-503. https://doi.org/10.1038/s41561-018-0134-4
Persistent link between solar activity and Greenland climate during the Last Glacial Maximum
Adolphi, F., Muscheler, R., Svensson, A., Aldahan, A., Possnert, G., Beer, J., … Thiéblemont, R. (2014). Persistent link between solar activity and Greenland climate during the Last Glacial Maximum. Nature Geoscience, 7(9), 662-666. https://doi.org/10.1038/ngeo2225
Renewable but not carbon-free
Wehrli, B. (2011). Renewable but not carbon-free. Nature Geoscience, 4, 585-586. https://doi.org/10.1038/ngeo1226
The socio-economics of arsenic removal
Johnston, R. B., Hanchett, S., & Hoque Khan, M. (2010). The socio-economics of arsenic removal. Nature Geoscience, 3, 2-3. https://doi.org/10.1038/ngeo735
Arsenic release from paddy soils during monsoon flooding
Roberts, L. C., Hug, S. J., Dittmar, J., Voegelin, A., Kretzschmar, R., Wehrli, B., … Badruzzaman, A. B. M. (2010). Arsenic release from paddy soils during monsoon flooding. Nature Geoscience, 3(1), 53-59. https://doi.org/10.1038/ngeo723
Contaminant mobilization by metallic copper and metal sulphide colloids in flooded soil
Weber, F. A., Voegelin, A., Kaegi, R., & Kretzschmar, R. (2009). Contaminant mobilization by metallic copper and metal sulphide colloids in flooded soil. Nature Geoscience, 2, 267-271. https://doi.org/10.1038/NGEO476
Predicting groundwater arsenic contamination in Southeast Asia from surface parameters
Winkel, L., Berg, M., Amini, M., Hug, S. J., & Johnson, C. A. (2008). Predicting groundwater arsenic contamination in Southeast Asia from surface parameters. Nature Geoscience, 1, 536-542. https://doi.org/10.1038/ngeo254