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1. Kannenberg, S. A., Novick, K. A., & Phillips, R. P. (2019). Anisohydric behavior linked to persistent hydraulic damage and delayed drought recovery across seven North American tree species. New Phytologist222(4), 1862-1872.

https://doi.org/10.1111/nph.15699

2. Binks, O., Meir, P., Rowland, L., da Costa, A. C. L., Vasconcelos, S. S., de Oliveira, A. A. R., ... & Mencuccini, M. (2016). Plasticity in leaf‐level water relations of tropical rainforest trees in response to experimental drought. New Phytologist211(2), 477-488.

https://doi.org/10.1111/nph.13927

3. Tsamir‐Rimon, M., Ben‐Dor, S., Feldmesser, E., Oppenhimer‐Shaanan, Y., David‐Schwartz, R., Samach, A., & Klein, T. (2021). Rapid starch degradation in the wood of olive trees under heat and drought is permitted by three stress‐specific beta amylases. New Phytologist229(3), 1398-1414.

https://doi.org/10.1111/nph.16907
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Ji, Li, et al. "Root Traits Determine Variation in Nonstructural Carbohydrates (NSCs) under Different Drought Intensities and Soil Substrates in Three Temperate Tree Species."Forests11.4 (2020): 415. https://doi.org/10.3390/f11040415
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MORENO‐GUTIÉRREZ, C. R. I. S. T. I. N. A., Barbera, G. G., Nicolas, E., De Luis, M., Castillo, V. M., MARTÍNEZ‐FERNÁNDEZ, F. A. U. S. T. I. N. O., & Querejeta, J. I. (2011). Leaf δ18O of remaining trees is affected by thinning intensity in a semiarid pine f..