References
References
[1] Batllori E, Lloret F, Aakala T, Anderegg WR, et al. (2020). Forest and woodland replacement patterns following drought-related mortality. Proceedings of the National Academy of Sciences USA 117 (47): 29720-29729.
[2] Adams HD, Zeppel MJ, Anderegg WR, et al. (2017). A multi-species synthesis of physiological mechanisms in drought-induced tree mortality. Nature Ecology and Evolution 1 (9): 1285-1291.
[3] Gentilesca T, Camarero JJ, Colangelo M, et al. (2017). Drought-induced oak decline in the western Mediterranean region: an overview on current evidences, mechanisms and management options to improve forest resilience. iForest 10: 796-806.
[4] Rita A, Camarero JJ, Nolè A, et al. (2020). The impact of drought spells on forests depends on site conditions: The case of 2017 summer heat wave in southern Europe. Global Change Biology 26: 851- 863.
[5] Ripullone F, Camarero JJ, Colangelo M, et al. (2020). Variation in the access to deep soil water pools explains tree-to-tree differences in drought-triggered dieback of Mediterranean oaks. Tree Physiology 40 (5): 591-604.
[6] Colangelo M, Camarero JJ, Borghetti M, et al. (2017). Size matters a lot: drought-affected Italian oaks are smaller and show lower growth prior to tree death. Frontiers in Plant Science 8 (135): 1-14.
[7] Colangelo M, Camarero JJ, Battipaglia G, et al. (2017). A multi-proxy assessment of dieback causes in a Mediterranean oak species. Tree Physiology 37 (5): 617-631.
[8] Borghetti M, Gentilesca T, Leonardi S, et al. (2017). Long-term temporal relationships between environmental conditions and xylem functional traits: a meta-analysis across a range of woody species along climatic and nitrogen deposition gradients. Tree Physiology 37 (1): 4-17.
[9] Guerrieri R, Siegwolf R, Saurer M, et al. (2010). Anthropogenic NOx emissions alter the intrinsic water-use efficiency (WUEi) for Quercus cerris stands under Mediterranean climate conditions. Environmental Pollution 158 (9): 2841-2847.
[10] Colangelo M, Camarero JJ, Borghetti M, et al. (2018). Drought and Phytophthora are Associated with the decline of oak species in Southern Italy. Frontiers in Plant Science 9, Article 1595.
[11] Castellaneta M, Rita A, Camarero JJ, et al. (2022). Declines in canopy greenness and tree growth are caused by combined climate extremes during drought-induced dieback. Science of The Total Environment Volume 813.
[12] Masiello G, Ripullone F, De Feis I, et al. (2022). The IASI Water Deficit Index to Monitor Vegetation Stress and Early Drying in Summer Heatwaves: An Application to Southern Italy. Land 11(8):1366.
[13] Filizzola C, Carlucci MA, Genzano N, et al. (2022). Robust Satellite-Based Identification and Monitoring of Forests Having Undergone Climate-Change-Related Stress. Land 11(6): 825.
[14] Coluzzi R, Fascetti S, Imbrenda V, et al. (2020). Exploring the Use of Sentinel-2 Data to Monitor Heterogeneous Effects of Contextual Drought and Heatwaves on Mediterranean Forests. Land. 9 (9): 325.
[15] Travascia D, Castellaneta M, Colucci A, Cirelli G, Lapolla A, Misano G, De Capua E, Rosito M, Ripullone F (2022). Valutazione dei fattori di vulnerabilità della riserva naturale Bosco Pantano di Policoro: l’approccio dinamico SWOT - AHP. Forest@ 19: 67-73.
[16] Pericolo O, Camarero JJ, Colangelo M (2023). Species specific vulnerability to increased drought in temperate and Mediterranean floodplain forests, Agricultural and Forest Meteorology, 328.
[17] Colangelo M, Rita, A., Borghetti M, et al. (2023). Assessment of changes in wood anatomical traits to forecast drought-induced dieback in Mediterranean oak forests, EGU General Assembly 2023, Vienna, Austria, 24–28 Apr 2023, EGU23-12088.
[18] Italiano SSP, Camarero JJ, Rita A, et al. (2023). Structural overshoot and post-drought recovery depend on site and species-specific characteristics in Mediterranean mixed forests, EGU General Assembly 2023, Vienna, Austria, 24–28 Apr 2023, EGU23-9998. https://doi.org/10.5194/egusphere-egu23-9998.
[19] Italiano SSP, Camarero JJ, Colangelo M, Borghetti M, Castellaneta M, Pizarro M, Ripullone F. (2023). Assessing Forest Vulnerability to Climate Change Combining Remote Sensing and Tree-Ring Data: Issues, Needs and Avenues. Forests 14(6): 1138. https://doi.org/10.3390/f14061138.
[20] Italiano, SSP, Camarero JJ, Borghetti M, Colangelo M, Rita A, Ripullone F (2024). Drought legacies in mixed Mediterranean forests: Analysing the effects of structural overshoot, functional traits and site factors. Science of The Total Environment, 172166. https://doi.org/10.1016/j.scitotenv.2024.172166