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Declining tree growth resilience mediates subsequent forest mortality in the US Mountain West
Cabon, A., DeRose, R. J., Shaw, J. D., & Anderegg, W. R. L. (2023). Declining tree growth resilience mediates subsequent forest mortality in the US Mountain West. Global Change Biology, 29(17), 4826-4841. https://doi.org/10.1111/gcb.16826
Soil fauna drives vertical redistribution of soil organic carbon in a long‐term irrigated dry pine forest
Guidi, C., Frey, B., Brunner, I., Meusburger, K., Vogel, M. E., Chen, X., … Hagedorn, F. (2022). Soil fauna drives vertical redistribution of soil organic carbon in a long‐term irrigated dry pine forest. Global Change Biology, 28(9), 3145-3160. https://doi.org/10.1111/gcb.16122
Climatic and stand drivers of forest resistance to recent bark beetle disturbance in European coniferous forests
Jaime, L., Batllori, E., Ferretti, M., & Lloret, F. (2022). Climatic and stand drivers of forest resistance to recent bark beetle disturbance in European coniferous forests. Global Change Biology, 28(8), 2830-2841. https://doi.org/10.1111/gcb.16106
Drought alters the carbon footprint of trees in soils—tracking the spatio-temporal fate of <sup>13</sup>C-labelled assimilates in the soil of an old-growth pine forest
Gao, D., Joseph, J., Werner, R. A., Brunner, I., Zürcher, A., Hug, C., … Hagedorn, F. (2021). Drought alters the carbon footprint of trees in soils—tracking the spatio-temporal fate of 13C-labelled assimilates in the soil of an old-growth pine forest. Global Change Biology, 27, 2491-2506. https://doi.org/10.1111/gcb.15557
Stability of tropical forest tree carbon-water relations in a rainfall exclusion treatment through shifts in effective water uptake depth
Pivovaroff, A. L., McDowell, N. G., Rodrigues, T. B., Brodribb, T., Cernusak, L. A., Choat, B., … Chambers, J. (2021). Stability of tropical forest tree carbon-water relations in a rainfall exclusion treatment through shifts in effective water uptake depth. Global Change Biology, 27(14), 6454-6466. https://doi.org/10.1111/gcb.15869
Fertilized graminoids intensify negative drought effects on grassland productivity
Van Sundert, K., Arfin Khan, M. A. S., Bharath, S., Buckley, Y. M., Caldeira, M. C., Donohue, I., … Vicca, S. (2021). Fertilized graminoids intensify negative drought effects on grassland productivity. Global Change Biology, 27(11), 2441-2457. https://doi.org/10.1111/gcb.15583
Assessing the response of forest productivity to climate extremes in Switzerland using model-data fusion
Trotsiuk, V., Hartig, F., Cailleret, M., Babst, F., Forrester, D. I., Baltensweiler, A., … Schaub, M. (2020). Assessing the response of forest productivity to climate extremes in Switzerland using model-data fusion. Global Change Biology, 26(4), 2463-2476. https://doi.org/10.1111/gcb.15011
Uneven winter snow influence on tree growth across temperate China
Wu, X., Li, X., Liu, H., Ciais, P., Li, Y., Xu, C., … Zhang, C. (2018). Uneven winter snow influence on tree growth across temperate China. Global Change Biology, 25, 144-154. https://doi.org/10.1111/gcb.14464
A synthesis of radial growth patterns preceding tree mortality
Cailleret, M., Jansen, S., Robert, E. M. R., Desoto, L., Aakala, T., Antos, J. A., … Martínez-Vilalta, J. (2017). A synthesis of radial growth patterns preceding tree mortality. Global Change Biology, 23(4), 1675-1690. https://doi.org/10.1111/gcb.13535
Persistent high temperature and low precipitation reduce peat carbon accumulation
Bragazza, L., Buttler, A., Robroek, B. J. M., Albrecht, R., Zaccone, C., Jassey, V. E. J., & Signarbieux, C. (2016). Persistent high temperature and low precipitation reduce peat carbon accumulation. Global Change Biology, 22(12), 4114-4123. https://doi.org/10.1111/gcb.13319
The impacts of increasing drought on forest dynamics, structure, and biodiversity in the United States
Clark, J. S., Iverson, L., Woodall, C. W., Allen, C. D., Bell, D. M., Bragg, D. C., … Zimmermann, N. E. (2016). The impacts of increasing drought on forest dynamics, structure, and biodiversity in the United States. Global Change Biology, 22(7), 2329-2352. https://doi.org/10.1111/gcb.13160
Forest understory plant and soil microbial response to an experimentally induced drought and heat-pulse event: the importance of maintaining the continuum
von Rein, I., Gessler, A., Premke, K., Keitel, C., Ulrich, A., & Kayler, Z. E. (2016). Forest understory plant and soil microbial response to an experimentally induced drought and heat-pulse event: the importance of maintaining the continuum. Global Change Biology, 22(8), 2861-2874. https://doi.org/10.1111/gcb.13270