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Soil organic matter, rather than temperature, determines the structure and functioning of subarctic decomposer communities
Robinson, S. I., O’Gorman, E. J., Frey, B., Hagner, M., & Mikola, J. (2022). Soil organic matter, rather than temperature, determines the structure and functioning of subarctic decomposer communities. Global Change Biology, 28(12), 3929-3943. https://doi.org/10.1111/gcb.16158
Microbial processing of plant remains is co-limited by multiple nutrients in global grasslands
Ochoa-Hueso, R., Borer, E. T., Seabloom, E. W., Hobbie, S. E., Risch, A. C., Collins, S. L., … Zamin, T. (2020). Microbial processing of plant remains is co-limited by multiple nutrients in global grasslands. Global Change Biology, 26(8), 4572-4582. https://doi.org/10.1111/gcb.15146
Vascular plant-mediated controls on atmospheric carbon assimilation and peat carbon decomposition under climate change
Gavazov, K., Albrecht, R., Buttler, A., Dorrepaal, E., Garnett, M. H., Gogo, S., … Bragazza, L. (2018). Vascular plant-mediated controls on atmospheric carbon assimilation and peat carbon decomposition under climate change. Global Change Biology, 24(9), 3911-3921. https://doi.org/10.1111/gcb.14140
High nitrogen deposition alters the decomposition of bog plant litter and reduces carbon accumulation
Bragazza, L., Buttler, A., Habermacher, J., Brancaleoni, L., Gerdol, R., Fritze, H., … Johnson, D. (2012). High nitrogen deposition alters the decomposition of bog plant litter and reduces carbon accumulation. Global Change Biology, 18(3), 1163-1172. https://doi.org/10.1111/j.1365-2486.2011.02585.x
Nitrogen addition alters mineralization dynamics of <sup>13</sup>C-depleted leaf and twig litter and reduces leaching of older DOC from mineral soil
Hagedorn, F., Kammer, A., Schmidt, M. W. I., & Goodale, C. L. (2012). Nitrogen addition alters mineralization dynamics of 13C-depleted leaf and twig litter and reduces leaching of older DOC from mineral soil. Global Change Biology, 18(4), 1412-1427. https://doi.org/10.1111/j.1365-2486.2011.02603.x