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Tree‐ring stable isotopes and radiocarbon reveal pre‐ and post‐eruption effects of volcanic processes on trees on Mt. Etna (Sicily, Italy)
Seiler, R., Hajdas, I., Saurer, M., Houlié, N., D'Arrigo, R., Kirchner, J. W., & Cherubini, P. (2021). Tree‐ring stable isotopes and radiocarbon reveal pre‐ and post‐eruption effects of volcanic processes on trees on Mt. Etna (Sicily, Italy). Ecohydrology. https://doi.org/10.1002/eco.2340
The IntCal20 Northern Hemisphere radiocarbon age calibration curve (0-55 cal kBP)
Reimer, P. J., Austin, W. E. N., Bard, E., Bayliss, A., Blackwell, P. G., Bronk Ramsey, C., … Talamo, S. (2020). The IntCal20 Northern Hemisphere radiocarbon age calibration curve (0-55 cal kBP). Radiocarbon, 62(4), 725-757. https://doi.org/10.1017/RDC.2020.41
New tree-ring evidence for the Late Glacial period from the northern pre-Alps in eastern Switzerland
Reinig, F., Nievergelt, D., Esper, J., Friedrich, M., Helle, G., Hellmann, L., … Büntgen, U. (2018). New tree-ring evidence for the Late Glacial period from the northern pre-Alps in eastern Switzerland. Quaternary Science Reviews, 186, 215-224. https://doi.org/10.1016/j.quascirev.2018.02.019
Tracking litter-derived dissolved organic matter along a soil chronosequence using <sup>14</sup>C imaging: biodegradation, physico-chemical retention or preferential flow?
Hagedorn, F., Bruderhofer, N., Ferrari, A., & Niklaus, P. A. (2015). Tracking litter-derived dissolved organic matter along a soil chronosequence using 14C imaging: biodegradation, physico-chemical retention or preferential flow? Soil Biology and Biochemistry, 88, 333-343. https://doi.org/10.1016/j.soilbio.2015.06.014
Organic matter from biological soil crusts induces the initial formation of sandy temperate soils
Dümig, A., Veste, M., Hagedorn, F., Fischer, T., Lange, P., Spröte, R., & Kögel-Knabner, I. (2014). Organic matter from biological soil crusts induces the initial formation of sandy temperate soils. Catena, 122, 196-208. https://doi.org/10.1016/j.catena.2014.06.011
Long-term organic carbon turnover rates in natural and semi-natural topsoils
Mills, R. T. E., Tipping, E., Bryant, C. L., & Emmett, B. A. (2014). Long-term organic carbon turnover rates in natural and semi-natural topsoils. Biogeochemistry, 118(1-3), 257-272. https://doi.org/10.1007/s10533-013-9928-z
Soil acidity affects fine root turnover of European beech
Richter, A. K., Hajdas, I., Frossard, E., & Brunner, I. (2013). Soil acidity affects fine root turnover of European beech. Plant Biosystems, 147(1), 50-59. https://doi.org/10.1080/11263504.2012.742471
L'étalonnage du temps du radiocarbone par les cernes d'arbres. L'apport des séries dendrochronologiques du gisement de bois subfossiles du Torrent des Barbiers (Alpes françaises du sud)
Miramont, C., Sivan, O., Guibal, F., Kromer, B., Talamo, S., & Kaiser, K. F. (2012). L'étalonnage du temps du radiocarbone par les cernes d'arbres. L'apport des séries dendrochronologiques du gisement de bois subfossiles du Torrent des Barbiers (Alpes françaises du sud). Quaternaire, 22(3), 261-271.
Topographic and ungulate regulation of soil C turnover in a temperate grassland ecosystem
Frank, D. A., Depriest, T., McLauchlan, K., & Risch, A. C. (2011). Topographic and ungulate regulation of soil C turnover in a temperate grassland ecosystem. Global Change Biology, 17(1), 495-504. https://doi.org/10.1111/j.1365-2486.2010.02219.x
Traffic pollution affects tree-ring width and isotopic composition of Pinus pinea
Battipaglia, G., Marzaioli, F., Lubritto, C., Altieri, S., Strumia, S., Cherubini, P., & Cotrufo, M. F. (2010). Traffic pollution affects tree-ring width and isotopic composition of Pinus pinea. Science of the Total Environment, 408(3), 586-593. https://doi.org/10.1016/j.scitotenv.2009.09.036
Assessing the ability of the &lt;sup&gt;14&lt;/sup&gt;C projection-age method to constrain the circulation of the past in a 3-D ocean model
Franke, J., Schulz, M., Paul, A., & Adkins, J. F. (2008). Assessing the ability of the 14C projection-age method to constrain the circulation of the past in a 3-D ocean model. Geochemistry, Geophysics, Geosystems, 9(8), 1-14. https://doi.org/10.1029/2008GC001943