A Review on Climate Change Impacts on Forest Ecosystem Services in the Mediterranean Basin

Alday, J.G. et al., (2017a). Record breaking mushroom yields in Spain. Fungal Ecol 26:144-146.10.1016/j.funeco.2017.01.004 Search in Google Scholar

Alday, J.G., De Aragón, J.M., de-Miguel, S., Bonet, J.A. (2017b). Mushroom biomass and diversity are driven by different spatio-temporal scales along Mediterranean elevation gradients. Scientific reports 7:1-11.10.1038/srep45824 Search in Google Scholar

Allani, M., Mezzi, R., Zouabi, A., Béji, R., Joumade-Mansouri, F., Hamza, M., Sahli, A. (2019). Impact of future climate change on water supply and irrigation demand in a small mediterranean catchment. Case study: Nebhana dam system, Tunisia. Journal of Water and Climate Change 11 1724-1747. Search in Google Scholar

Allen, C.D. et al., (2010). A global overview of drought and heat-induced tree mortality reveals emerging climate change risks for forests. For Ecol Manage 259:660-684. Search in Google Scholar

Amthor, J.S. (2000). Direct effect of elevated CO2 on nocturnal in situ leaf respiration in nine temperate deciduous tree species is small. Tree Physiology 20:139-14410.1093/treephys/20.2.139 Search in Google Scholar

Ancillotto, L., Santini, L., Ranc, N., Maiorano, L., Russo, D. (2016). Extraordinary range expansion in a common bat: the potential roles of climate change and urbanisation. The Science of Nature 103:15. Search in Google Scholar

Andrewartha, H.G., Birch, L.C. (1954). The distribution and abundance of animals. vol Edn 1. University of Chicago press. Search in Google Scholar

Ayres, M.P., Lombardero, M.J. (2000). Assessing the consequences of global change for forest disturbance from herbivores and pathogens. Sci Total Environ 262:263-286. Search in Google Scholar

Baldi, M., Dalu, G., Maracchi, G., Pasqui, M., Cesarone, F. (2006). Heat waves in the Mediterranean: a local feature or a larger-scale effect? International Journal of Climatology: A Journal of the Royal Meteorological Society 26:1477-1487.10.1002/joc.1389 Search in Google Scholar

Bangash, R.F. et al., (2013). Ecosystem services in Mediterranean river basin: climate change impact on water provisioning and erosion control. Sci Total Environ 458:246-255. Search in Google Scholar

Barber, V.A., Juday, G.P., Finney, B.P. (2000). Reduced growth of Alaskan white spruce in the twentieth century from temperature-induced drought stress. Nature 405:668-673. Search in Google Scholar

Battisti, A., Stastny, M., Netherer, S., Robinet, C., Schopf, A., Roques, A., Larsson, S. (2005). Expansion of geographic range in the pine processionary moth caused by increased winter temperatures. Ecol Appl 15:2084-2096. Search in Google Scholar

Bauhus, J., Pokorny, B., van der Meer, P.J., Kanowski, P.J., Kanninen, M. (2010). Ecosystem goods and services–the key for sustainable plantations. Routledge.10.4324/9781849776417-16 Search in Google Scholar

Beck, P.S. et al., (2011). Changes in forest productivity across Alaska consistent with biome shift. Ecol Lett 14:373-379. Search in Google Scholar

Bellassen, V., Viovy, N., Luyssaert, S., Le Maire, G., Schelhaas, M.J., Ciais, P. (2011). Reconstruction and attribution of the carbon sink of E uropean forests between 1950 and 2000. Global Change Biol 17:3274-3292. Search in Google Scholar

Bengtsson, J., Nilsson, S.G., Franc, A., Menozzi, P. (2000). Biodiversity, disturbances, ecosystem function and management of European forests. For Ecol Manage 132:39-50. Search in Google Scholar

Benzyane, M., Aafi, A., Sbay, H., El Antry, S., Yassine, M., Ilmen, R., Ghaïloule, D. (2010). Les écosystèmes naturels marocains et les changements climatiques La résilience écologique à l‟ épreuve. Edition Centre de Recherche Forestière, Collection Maroc Nature. Search in Google Scholar

Berg, E.E., Henry, J.D., Fastie, C.L., De Volder, A.D., Matsuoka, S.M. (2006). Spruce beetle outbreaks on the Kenai Peninsula, Alaska, and Kluane National Park and Reserve, Yukon Territory: relationship to summer temperatures and regional differences in disturbance regimes. For Ecol Manage 227:219-232. Search in Google Scholar

Berg, E.E., Hillman, K.M., Dial, R., DeRuwe, A. (2009). Recent woody invasion of wetlands on the Kenai Peninsula Lowlands, south-central Alaska: a major regime shift after 18 000 years of wet Sphagnum–sedge peat recruitment Canadian. Journal of Forest Research 39:2033-2046. Search in Google Scholar

Berteaux, D., Réale, D., McAdam, A.G., Boutin, S. (2004). Keeping pace with fast climate change: can arctic life count on evolution? Integr Comp Biol 44:140-151.10.1093/icb/44.2.140 Search in Google Scholar

Bleu, P. (2009). State of the Environment and Development in the Mediterranean. Job Number: DEP/1232/GR. Search in Google Scholar

Bleu, P. (2019). State of Mediterranean Forests 2018. Food & Agriculture Org. Search in Google Scholar

Bonofiglio, T., Orlandi, F., Sgromo, C., Romano, B., Fornaciari, M. (2009). Evidences of olive pollination date variations in relation to spring temperature trends. Aerobiologia 25:227-237. Search in Google Scholar

Brochier, F., Ramieri, E. (2001). Climate change impacts on the Mediterranean coastal zones.10.2139/ssrn.277549 Search in Google Scholar

Brockerhoff, E.G., Jactel, H., Parrotta, J.A., Ferraz, S.F. (2013). Role of eucalypt and other planted forests in biodiversity conservation and the provision of biodiversity-related ecosystem services. For Ecol Manage 301:43-50. Search in Google Scholar

Brown, P.M., Swetnam, T.W. (1994). A cross-dated fire history from coast redwood near Redwood National Park, California Canadian. Journal of Forest Research 24:21-31. Search in Google Scholar

Brunet, M., Aguilar, E., Saladie, O., Sigró, J., López, D. (2001). The variations and trends of the surface air temperature in the northeastern of Spain from middle nineteenth century onwards. In: Detecting and modelling regional climate change (pp 81-93). Springer. Search in Google Scholar

Brunetti, M., Maugeri, M., Nanni, T. (2000). Variations of temperature and precipitation in Italy from 1866 to 1995. Theoretical and Applied Climatology 65:165-174. Search in Google Scholar

Büntgen, U., Egli, S., Galván, J.D., Diez, J.M., Aldea, J., Latorre, J., Martínez-Peña, F. (2015). Drought-induced changes in the phenology, productivity and diversity of Spanish fungi. Fungal Ecol 16:6-18. Search in Google Scholar

Burrows, M.T. et al., (2011). The pace of shifting climate in marine and terrestrial ecosystems. Science 334:652-655. Search in Google Scholar

Butler, C.J. (2003). The disproportionate effect of global warming on the arrival dates of short-distance migratory birds in North America. Ibis 145:484-495. Search in Google Scholar

Cao, M., Woodward, F.I. (1998). Dynamic responses of terrestrial ecosystem carbon cycling to global climate change. Nature 393:249-252. Search in Google Scholar

Carcaillet, C., Richard, P.J., Bergeron, Y., Fréchette, B., Ali, A.A. (2010). Resilience of the boreal forest in response to Holocene fire-frequency changes assessed by pollen diversity and population dynamics. Int J Wildland Fire 19:1026-1039. Search in Google Scholar

Certini, G. (2005). Effects of fire on properties of forest soils: a review. Oecologia 143:1-10. Search in Google Scholar

Chen, I-C., Hill, J.K., Ohlemüller, R., Roy, D.B., Thomas, C.D. (2011). Rapid range shifts of species associated with high levels of climate warming. Science 333:1024-1026. Search in Google Scholar

Chenoweth, J. et al., (2011). Impact of climate change on the water resources of the eastern Mediterranean and Middle East region: Modeled 21st century changes and implications. Water Resources Research 47.10.1029/2010WR010269 Search in Google Scholar

Cherif, S. et al., (2020). Drivers of change. In: Cramer W. G.J., Marini K. (eds.) (ed) Climate and Environmental Change in the Mediterranean Basin – Current Situation and Risks for the Future (p 128pp). First Mediterranean Assessment Report Union for the Mediterranean, Plan Bleu, UNEP/MAP, Marseille, France. Search in Google Scholar

Ciais, P. et al., (2005). Europe-wide reduction in primary productivity caused by the heat and drought in 2003. Nature 437:529-533. Search in Google Scholar

Ciais, P. et al., (2008). Carbon accumulation in European forests. Nat Geosci 1:425-429. Search in Google Scholar

Clark, J.S. (1988). Effect of climate change on fire regimes in northwestern Minnesota. Nature 334:233-235. Search in Google Scholar

Cobb, N.S., Mopper, S., Gehring, C.A., Caouette, M., Christensen, K.M., Whitham, T.G. (1997). Increased moth herbivory associated with environmental stress of pinyon pine at local and regional levels. Oecologia 109:389-397. Search in Google Scholar

Conte, M., Sorani, N., Piervitali, E. (2000). Extreme climatic events over the Mediterranean Mediterranean desertification: a mosaic of processes and responses 1. Search in Google Scholar

Croitoru, L. (2007). How much are Mediterranean forests worth? For Policy Econ 9:536-545.10.1016/j.forpol.2006.04.001 Search in Google Scholar

Croitoru, L., Merlo, M. (2005). Mediterranean forest values. Valuing mediterranean forests: towards total economic value:37-68. Search in Google Scholar

Daily, G.C. (1997). Nature’s services vol 3. Island Press, Washington, DC. Search in Google Scholar

Davis, M., Shaw, R., Etterson, J. (2005). Evolutionary responses to climate change. Ecology 86:1704-1714. Search in Google Scholar

De Dios, V.R., Fischer, C., Colinas, C. (2007). Climate change effects on Mediterranean forests and preventive measures. New forests 33:29-40. Search in Google Scholar

De Luís, Mn., García-Cano, M.F., Cortina, J., Raventós, J., González-Hidalgo, J.C., Sánchez, J.R. (2001). Climatic trends, disturbances and short-term vegetation dynamics in a Mediterranean shrubland. For Ecol Manage 147:25-37. Search in Google Scholar

Decocq, G. et al., (2016). Ecosystem services from small forest patches in agricultural landscapes. Current Forestry Reports 2:30-44. Search in Google Scholar

Delitti, W., Ferran, A., Trabaud, L., Vallejo, V.R. (2005). Effects of fire recurrence in Quercus coccifera L. shrublands of the Valencia Region (Spain): I. plant composition and productivity. Plant Ecol 177:57-70. Search in Google Scholar

Déqué, M., Marquet, P., Jones, R. (1998). Simulation of climate change over Europe using a global variable resolution general circulation model. Climate Dynamics 14:173-189. Search in Google Scholar

Dickerson, K. (2014). Climate Change Could Be Ruining Wine Corks: Study. Retrieved November 9th, 2021 from https://www.nbcnews.com/science/environment/climate-change-could-be-ruining-wine-corks-study-n162491. Search in Google Scholar

Dietze, M.C., Moorcroft, P.R. (2011). Tree mortality in the eastern and central U nited S tates: patterns and drivers. Global Change Biol 17:3312-3326. Search in Google Scholar

Diffenbaugh, N.S., Giorgi, F. (2012). Climate change hotspots in the CMIP5 global climate model ensemble. Clim Change 114:813-822. Search in Google Scholar

Doblas-Miranda, E. et al., (2017). A review of the combination among global change factors in forests, shrublands and pastures of the Mediterranean Region: Beyond drought effects. Glob Planet Chang 148:42-54. Search in Google Scholar

Donelson, J., Munday, P., McCormick, M., Pitcher, C. (2012). Rapid transgenerational acclimation of a tropical reef fish to climate change. Nature Climate Change 2:30-32. Search in Google Scholar

Doney, S.C. et al., (2012). Climate change impacts on marine ecosystems Annual review of marine. Science 4:11-37. Search in Google Scholar

Ducrocq, V., Drobinski, P., Gualdi, S., Raimbault, P. (2016). The water cycle in the Mediterranean. In: The Mediterranean Region under Climate Change: A Scientific Update. IRD Éditions, Marseille, France. Search in Google Scholar

Elmeddahi, Y., Issaadi, A., Mahmoudi, H., Tahar Abbes, M., Mattheus, F.A.G. (2014). Effect of climate change on water resources of the Algerian Middle Cheliff basin. Desalination and Water Treatment 52:2073-2081. Search in Google Scholar

Elmeddahi, Y., Mahmoudi, H., Issaadi, A., Goosen, M.F., Ragab, R. (2016). Evaluating the effects of climate change and variability on water resources: A case study of the cheliff Basin in Algeria. American Journal of Engineering and Applied Sciences 9:835-845. Search in Google Scholar

Elouissi, A., Habi, M., Benaricha, B., Boualem, S.A. (2017). Climate change impact on rainfall spatio-temporal variability (Macta watershed case, Algeria) Arabian. Journal of Geosciences 10:496. Search in Google Scholar

Esteban-Parra, M., Rodrigo, F., Castro-Diez, Y. (1998).Spatial and temporal patterns of precipitation in Spain for the period 1880–1992 International Journal of Climatology: A Journal of the Royal Meteorological Society 18:1557-1574.10.1002/(SICI)1097-0088(19981130)18:14<1557::AID-JOC328>3.0.CO;2-J Search in Google Scholar

Estrela, T., Pérez-Martin, M., Vargas, E. (2012). Impacts of climate change on water resources in Spain. Hydrological Sciences Journal 57:1154-1167. Search in Google Scholar

Falkenmark, M., Lundqvist, J., Widstrand, C. (1989). Macro-scale water scarcity requires micro-scale approaches: Aspects of vulnerability in semi-arid development. In: Natural resources forum (pp 258-267), 1989. vol 4. Wiley Online Library. Search in Google Scholar

FAO, (2010a). AQUASTAT: FAO’s global information system on water and agriculture. Retrieved November 10th, 2021 from http://www.fao.org/nr/water/aquastat/dbases/indexfra.stm. Search in Google Scholar

FAO, (2010b). Global Forest Resources Assessment 2010. Food and Agriculture Organization of the United Nations. Search in Google Scholar

FAO, (2013). State of Mediterranean forests 2013. FFEM, Silva Mediterranea, Plan Bleu, Food and Agriculture Organization of the United Nations, Rome. Search in Google Scholar

FAO, (2018). The state of the world’s forests: forest pathways to sustainable development. FAO, Rome. Search in Google Scholar

Flannigan, M., Wagner, C.V. (1991). Climate change and wildfire in Canada Canadian. Journal of Forest Research 21:66-72. Search in Google Scholar

Foley, J.A. et al., (2007). Amazonia revealed: forest degradation and loss of ecosystem goods and services in the Amazon Basin. Front Ecol Environ 5:25-32. Search in Google Scholar

Fried, J.S., Torn, M.S., Mills, E. (2004). The impact of climate change on wildfire severity: a regional forecast for northern California. Clim Change 64:169-191. Search in Google Scholar

Galán, E., Fernández, F., Cervera, B. (2001). Annual temperature evolution in the Southern Plateau of Spain from the construction of regional climatic time series. In: Detecting and modelling regional climate change (pp 119-131). Springer. Search in Google Scholar

Gauthier, S. et al., (2014). Climate change vulnerability and adaptation in the managed Canadian boreal forest. Environ Rev 22:256-285. Search in Google Scholar

Ghenim, A.N., Megnounif, A. (2013). Extent of drought in the Meffrouche dam catchment area (North-West Algeria). Physical geography and environment:35-49. (In French). Search in Google Scholar

Giannakopoulos, C., Bindi, M., Moriondo, M., Lesager, P., Tin, T. (2005). Climate change impacts in the Mediterranean resulting from a 2 C global temperature rise. A report for WWF. Search in Google Scholar

Giorgi, F. (2002). Variability and trends of sub-continental scale surface climate in the twentieth century. Part I: observations. Climate Dynamics 18:675-691. Search in Google Scholar

Giorgi, F. (2006). Climate change hot-spots. Geophys Res Lett 33.10.1029/2006GL025734 Search in Google Scholar

Givati, A., Thirel, G., Rosenfeld, D., Paz, D. (2019). Climate change impacts on streamflow at the upper Jordan river based on an ensemble of regional climate models. J Hydrol: Reg Stud 21:92-109. Search in Google Scholar

González-Rouco, J.F., Jiménez, J.L., Quesada, V., Valero, F. (2001). Quality control and homogeneity of precipitation data in the southwest of Europe. J Clim 14:964-978. Search in Google Scholar

González, J.R., Pukkala, T. (2007). Characterization of forest fires in Catalonia (north-east Spain). European Journal of Forest Research 126:421-429. Search in Google Scholar

Grimm, N.B. et al., (2013). The impacts of climate change on ecosystem structure and function. Front Ecol Environ 11:474-482. Search in Google Scholar

Hennon, P. et al., (2006). Climate warming, reduced snow, and freezing injury could explain the demise of yellow-cedar in southeast Alaska, USA. Search in Google Scholar

Herrero, C. et al., (2019). Predicting mushroom productivity from long-term field-data series in mediterranean pinus pinaster ait. forests in the context of climate change. Forests 10:206. Search in Google Scholar

Hoch, G., Körner, C. (2012). Global patterns of mobile carbon stores in trees at the high-elevation tree line. Global Ecol Biogeogr 21:861-871. Search in Google Scholar

Hughes, L. (2000). Biological consequences of global warming: is the signal already apparent? Trends Ecol Evol 15:56-61.10.1016/S0169-5347(99)01764-4 Search in Google Scholar

Huss-Ashmore, R., Johnston, S.L. (1994). Wild plants as cultural adaptations to food stress Eating on the Wild Side: The Pharmacologic, Ecologic, and Social Implications of Using Noncultigens:62-84. Search in Google Scholar

IPCC, (1998). The regional impacts of climate change: an assessment of vulnerability [Watson, R.T., M.C. Zinyowera, and R.H. Moss (eds.)]. IPCC. Cambridge University Press, Cambridge, UK. Search in Google Scholar

IPCC, (2001). Climate Change 2001: Synthesis report. Wembley. Search in Google Scholar

IPCC, (2007). Climate change 2007: The physical science basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change vol 6. Cambridge, UK, New York, NY. Search in Google Scholar

IPCC, (2014). Climate Change 2014: Synthesis Report. Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Core Writing Team. IPCC, Geneva. Search in Google Scholar

IPCC, (2021). Summary for Policymakers. In: Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change [Masson-Delmotte, V., P. Zhai, A. Pirani, S.L. Connors, C. Péan, S. Berger, N. Caud, Y. Chen, L. Goldfarb, M.I. Gomis, M. Huang, K. Leitzell, E. Lonnoy, J.B.R. Matthews, T.K. Maycock, T. Waterfield, O. Yelekçi, R. Yu, and B. Zhou (eds.)]. In Press. Search in Google Scholar

Jacobeit, J. (2000). Rezente Klimaentwicklung im Mittelmeerraum Petermanns. Geographische Mitteilungen 144:22-33. Search in Google Scholar

Jaeger, E.B., Seneviratne, S.I. (2011). Impact of soil moisture–atmosphere coupling on European climate extremes and trends in a regional climate model Climate. Dynamics 36:1919-1939. Search in Google Scholar

Jruivo, (2016). Corticeira Amorim and the sustainability of the cork oak business. Retrieved November 10th, 2021 from https://digital.hbs.edu/platform-rctom/submission/corticeira-amorim-and-the-sustainability-of-the-cork-oak-business/. Search in Google Scholar

Kadıoğlu, M., Tulunay, Y., Borhan, Y. (1999). Variability of Turkish precipitation compared to El Nino events. Geophys Res Lett 26:1597-1600. Search in Google Scholar

Katz, R.W. (2002). Techniques for estimating uncertainty in climate change scenarios and impact studies. Clim Res 20:167-185. Search in Google Scholar

Keeley, J.E., Bond, W.J., Bradstock RA, Pausas JG, Rundel PW (2011) Fire in Mediterranean ecosystems: ecology, evolution and management. Cambridge University Press.10.1017/CBO9781139033091 Search in Google Scholar

Khawli, (1999). Water Resources: Assessment of Lebanon’s Vulnerability to Climate Change. Ministry of Environment UNDP, GEF, Beirut. Search in Google Scholar

Kicklighter, D.W. et al., (2014). Potential influence of climate-induced vegetation shifts on future land use and associated land carbon fluxes in Northern Eurasia. Environ Res Lett 9:035004. Search in Google Scholar

Lei, X. (2010). Assessment of climate change impacts on cork oak in western Mediterranean regions: a comparative analysis of extreme indices Lunds universitets. Naturgeografiska institution-Seminarieuppsatser. Search in Google Scholar

Lelieveld, J., Proestos, Y., Hadjinicolaou, P., Tanarhte, M., Tyrlis, E., Zittis, G. (2016). Strongly increasing heat extremes in the Middle East and North Africa (MENA) in the 21st century. Clim Change 137:245-260. Search in Google Scholar

Lespinas, F., Ludwig, W., Heussner, S. (2010). Impact of recent climate change on the hydrology of coastal Mediterranean rivers in Southern France. Clim Change 99:425-456. Search in Google Scholar

Lespinas, F., Ludwig, W., Heussner, S. (2014). Hydrological and climatic uncertainties associated with modeling the impact of climate change on water resources of small Mediterranean coastal rivers. J Hydrol 511:403-422. Search in Google Scholar

Liang, J. et al., (2016). Positive biodiversity-productivity relationship predominant in global forests. Science 354.10.1126/science.aaf895727738143 Search in Google Scholar

Lieutier, F., Mendel, Z., Faccoli, M. (2016). Bark beetles of Mediterranean conifers. In: Insects and diseases of Mediterranean forest systems. Springer, pp 105-197.10.1007/978-3-319-24744-1_6 Search in Google Scholar

Lieutier, F., Paine, T.D. (2016). Responses of mediterranean forest phytophagous insects to climate change. In: Insects and diseases of mediterranean forest systems (pp 801-858). Springer. Search in Google Scholar

Linares, C., Díaz, J., Negev, M., Martínez, G.S., Debono, R., Paz, S. (2020). Impacts of climate change on the public health of the Mediterranean Basin population-current situation, projections, preparedness and adaptation. Environ Res 182:109107. Search in Google Scholar

Lionello, P. et al., (2006). The Mediterranean climate: an overview of the main characteristics and issues. Elsevier.10.1016/S1571-9197(06)80003-0 Search in Google Scholar

Lionello, P., Scarascia, L. (2018). The relation between climate change in the Mediterranean region and global warming. Regional Environmental Change 18:1481-1493. Search in Google Scholar

Liu, D., Ogaya, R., Barbeta, A., Yang, X., Peñuelas, J. (2015). Contrasting impacts of continuous moderate drought and episodic severe droughts on the aboveground-biomass increment and litterfall of three coexisting Mediterranean woody species. Global Change Biol 21:4196-4209. Search in Google Scholar

Lu, P., Yu, Q., He, Q. (2006). Responses of plant phenology to climatic change. Acta Ecologica Sinica 26:923-929. Search in Google Scholar

Ludwig, W., Dumont, E., Meybeck, M., Heussner, S. (2009). River discharges of water and nutrients to the Mediterranean and Black Sea: major drivers for ecosystem changes during past and future decades? Prog Oceanogr 80:199-217.10.1016/j.pocean.2009.02.001 Search in Google Scholar

Luterbacher, J. et al., (2006). Mediterranean climate variability over the last centuries: a review Developments in Earth and environmental. Sciences 4:27-148. Search in Google Scholar

Marchane, A., Tramblay, Y., Hanich, L., Ruelland, D., Jarlan, L. (2017). Climate change impacts on surface water resources in the Rheraya catchment (High Atlas, Morocco) Hydrological sciences journal 62:979-995.10.1080/02626667.2017.1283042 Search in Google Scholar

Marianne, M., Denis, R., Alain, D., Julie, F., Sandra, A-B., Eric, S. (2013). Modeling the current and future capacity of water resources to meet water demands in the Ebro basin. J Hydrol 500:114-126. Search in Google Scholar

Mariotti, A., Zeng, N., Yoon, J-H., Artale, V., Navarra, A., Alpert, P., Li, L.Z. (2008). Mediterranean water cycle changes: transition to drier 21st century conditions in observations and CMIP3 simulations. Environ Res Lett 3:044001. Search in Google Scholar

Marquès, M., Bangash, R.F., Kumar, V., Sharp, R., Schuhmacher, M. (2013). The impact of climate change on water provision under a low flow regime: A case study of the ecosystems services in the Francoli river basin. J Hazard Mater 263:224-232. Search in Google Scholar

Mavsar, R., Varela, E. (2010). The Mediterranean region case. In: Tyrväinen L., Mäntymaa E. (eds) A report describing the role of key externalities across case studies. Search in Google Scholar

Mavsar, R., Varela, E., Gouriveau, F., Herreros, F. (2013). Methods and tools for socio-economic assessment of goods and services provided by Mediterranean forest ecosystems Project Report for Component 2 of the project ‘Optimized production of goods and Services by Mediterranean. Forest Ecosystems in the Context of Global Changes:53-57. Search in Google Scholar

McCarty, J.P. (2001). Ecological consequences of recent climate change. Conserv Biol 15:320-331. Search in Google Scholar

McGuire, A.D., Ruess, R.W., Lloyd, A., Yarie, J., Clein, J.S., Juday, G.P. (2010). Vulnerability of white spruce tree growth in interior Alaska in response to climate variability: dendrochronological, demographic, and experimental perspectives. Canadian Journal of Forest Research 40:1197-1209. Search in Google Scholar

MedECC, (2020). Climate and Environmental Change in the Mediterranean Basin – Current Situation and Risks for the Future. In Cramer, W., Guiot, J., Marini, K. (eds.): First Mediterranean Assessment Report (p. 632). Union for the Mediterranean, Plan Bleu, UNEP/MAP. ISBN: 978-2-9577416-0-1 Marseille, France. doi:10.5281/zenodo.4768833. Open DOISearch in Google Scholar

Mehta, A.V., Yang, S. (2008). Precipitation climatology over Mediterranean Basin from ten years of TRMM measurements. Advances in Geosciences 17:87-91. Search in Google Scholar

Milano, M. et al., (2013). Current state of Mediterranean water resources and future trends under climatic and anthropogenic changes. Hydrological Sciences Journal 58:498-518. Search in Google Scholar

Millennium Ecosystem Assessment M (2005). Ecosystems and human well-being Synthesis. Search in Google Scholar

Molina, M., Sánchez, E., Gutiérrez, C. (2020). Future heat waves over the Mediterranean from an Euro-CORDEX regional climate model ensemble. Scientific reports 10:1-10. Search in Google Scholar

Moreno-Rodriguez, J. (2005). Main conclusions from the preliminary assessment of the impacts in Spain due to the effects of climate change. Project ECCE, Ministry of the Environment and the University of Castilla-La Mancha 39. Search in Google Scholar

Mori, A.S., Lertzman, K.P., Gustafsson, L. (2017). Biodiversity and ecosystem services in forest ecosystems: a research agenda for applied forest ecology. J Appl Ecol 54:12-27. Search in Google Scholar

Myers, N., Mittermeier, R.A., Mittermeier, C.G., Da Fonseca, G.A., Kent, J. (2000). Biodiversity hotspots for conservation priorities. Nature 403:853. Search in Google Scholar

Nageleisen, L-M., Saintonge, F-X., Piou, D., Riou-Nivert, P. (2010). La santé des forêts: Maladies, insectes, accidents climatiques. Diagnostic et prévention. Forêt privée française. Search in Google Scholar

New, M., Hulme, M., Jones, P. (2000). Representing twentieth-century space–time climate variability. Part II: Development of 1901–96 monthly grids of terrestrial surface climate. J Clim 13:2217-2238. Search in Google Scholar

New, M., Todd, M., Hulme, M., Jones, P. (2001). Precipitation measurements and trends in the twentieth century. International Journal of Climatology: A Journal of the Royal Meteorological Society 21:1889-1922. Search in Google Scholar

Nichols, J.D. et al., (2011). Climate change, uncertainty, and natural resource management. The Journal of Wildlife Management 75:6-18. Search in Google Scholar

Noce, S., Santini, M. (2018). Mediterranean Forest Ecosystem, Services and their Vulnerability. Search in Google Scholar

Palutikof, J.P., Agnew, M.D., Watkins, S.J. (1999). Statistical downscaling of model data in MEDALUS III, 1999: The MEDALUS III. Mediterranean Desertification and Land Use. Final Report, Project 3: regional indicators, chapter 11.2. p. 365-412. Search in Google Scholar

Peñuelas, J. (2018). Mediterranean forests under pressure by climate change. In: EGU General Assembly Conference Abstracts (p 8315), 2018. Search in Google Scholar

Penuelas, J., Boada, M. (2003). A global change-induced biome shift in the Montseny mountains (NE Spain). Global Change Biol 9:131-140. Search in Google Scholar

Peñuelas, J., Filella, I., Comas, P. (2002). Changed plant and animal life cycles from 1952 to 2000 in the Mediterranean region. Global Change Biol 8:531-544. Search in Google Scholar

Peñuelas, J. et al., (2017). Impacts of global change on Mediterranean forests and their services. Forests 8:463. Search in Google Scholar

Perry, A. (2001). More heat and drought–Can Mediterranean tourism survive and prosper. In: Proceedings of the First International Workshop on Climate, Tourism and Recreation (pp. 5 - 10), edited by A. Matzarakis and CR de Freitas, Porto Carras, Neos Marmaras, Halkidiki, Greece, 2001. Search in Google Scholar

Philandras, C., Nastos, P., Kapsomenakis, J., Douvis, K., Tselioudis, G., Zerefos, C. (2011). Long term precipitation trends and variability within the Mediterranean region Natural Hazards and Earth System. Sciences 11:3235-3250. Search in Google Scholar

Piervitali, E., Colacino, M., Conte, M. (1997). Signals of climatic change in the central-western Mediterranean basin. Theoretical and Applied Climatology 58:211-219. Search in Google Scholar

Plan Bleu, F. (2013). State of Mediterranean Forests 2013. Search in Google Scholar

Price, D.T. et al., (2013). Anticipating the consequences of climate change for Canada’s boreal forest ecosystems. Environ Rev 21:322-365. Search in Google Scholar

Quesada, B., Vautard, R., Yiou, P., Hirschi, M., Seneviratne, S.I. (2012). Asymmetric European summer heat predictability from wet and dry southern winters and springs. Nature Climate Change 2:736-741. Search in Google Scholar

Réale, D., McAdam, A.G., Boutin, S., Berteaux, D. (2003). Genetic and plastic responses of a northern mammal to climate change Proceedings of the Royal Society of London Series B: Biological Sciences 270:591-596.10.1098/rspb.2002.2224169128012769458 Search in Google Scholar

Roques, A. et al., (2015). Climate warming and past and present distribution of the processionary moths (Thaumetopoea spp.) in Europe, Asia Minor and North Africa. In: Processionary moths and climate change: an update (pp 81-161). Springer. Search in Google Scholar

Ruelland, D., Hublart, P., Tramblay, Y. (2015). Assessing uncertainties in climate change impacts on runoff in Western Mediterranean basins.10.5194/piahs-371-75-2015 Search in Google Scholar

Ruiz-Benito, P., Gómez-Aparicio, L., Zavala, M.A. (2012). Large-scale assessment of regeneration and diversity in Mediterranean planted pine forests along ecological gradients. Divers Distrib 18:1092-1106. Search in Google Scholar

Rulli, M.C., Offeddu, L., Santini, M. (2012). Modeling postfire water erosion mitigation strategies. Hydrology & Earth System Sciences, Discussions 9.10.5194/hessd-9-10877-2012 Search in Google Scholar

Sabaté, S., Gracia, C.A., Sánchez, A. (2002). Likely effects of climate change on growth of Quercus ilex, Pinus halepensis, Pinus pinaster, Pinus sylvestris and Fagus sylvatica forests in the Mediterranean region. For Ecol Manage 162:23-37. Search in Google Scholar

Salerni, E., Perini, C., Gardin, L. (2014),. Linking climate variables with Tuber borchii sporocarps production. Natural Resources 2014. Search in Google Scholar

San-Miguel-Ayanz, J., Schulte, E., Schmuck, G., Camia, A. (2013). The European Forest Fire Information System in the context of environmental policies of the European Union. For Policy Econ 29:19-25. Search in Google Scholar

Sánchez-Mata, D., Morales, R. (2016). The Mediterranean landscape and wild edible plants. In: Mediterranean Wild Edible Plants (pp 15-31). Springer.10.1007/978-1-4939-3329-7 Search in Google Scholar

Sánchez, E., Gallardo, C., Gaertner, M., Arribas, A., Castro, M. (2004). Future climate extreme events in the Mediterranean simulated by a regional climate model: a first approach. Glob Planet Chang 44:163-180. Search in Google Scholar

Schelhaas, M.J., Nabuurs, G.J., Schuck, A. (2003). Natural disturbances in the European forests in the 19th and 20th centuries. Global Change Biol 9:1620-1633. Search in Google Scholar

Schönwiese, C-D. (1993). Klimatrend-Atlas Europa: 1891-1990. ZUF. Search in Google Scholar

Schröter, D. et al., (2005). Ecology: Ecosystem service supply and vulnerability to global change in Europe. Science:1333-1337. Search in Google Scholar

Seguí, P.Q., Martin, E., Sanchez, E., Zribi, M., Vennetier, M., Vicente-Serrano, S., Vidal, J-P. (2016). Drought: Observed trends, future projections. Search in Google Scholar

Sellami, H., Benabdallah, S., La Jeunesse, I., Vanclooster, M. (2016). Quantifying hydrological responses of small Mediterranean catchments under climate change projections. Sci Total Environ 543:924-936. Search in Google Scholar

Senatore, A., Mendicino, G., Smiatek, G., Kunstmann, H. (2011). Regional climate change projections and hydrological impact analysis for a Mediterranean basin in Southern Italy. J Hydrol 399:70-92. Search in Google Scholar

Seneviratne, S.I., Lüthi, D., Litschi, M., Schär, C. (2006). Land–atmosphere coupling and climate change in Europe. Nature 443:205-209. Search in Google Scholar

Shaban, A. (2009). Indicators and aspects of hydrological drought in Lebanon. Water Resour Manage 23:1875-1891. Search in Google Scholar

Sillmann, J., Kharin, V.V., Zwiers, F., Zhang, X., Bronaugh, D. (2013). Climate extremes indices in the CMIP5 multimodel ensemble: Part 2. Future climate projections. Journal of Geophysical Research: Atmospheres 118:2473-2493. Search in Google Scholar

Sintayehu, D.W. (2018). Impact of climate change on biodiversity and associated key ecosystem services in Africa: a systematic review. Ecosystem health and sustainability 4:225-239. Search in Google Scholar

Soultan, A., Wikelski, M., Safi, K. (2019). Risk of biodiversity collapse under climate change in the Afro-Arabian region. Scientific reports 9:1-12. Search in Google Scholar

Steffen, W. et al., (2006). Global change and the earth system: a planet under pressure. Springer Science & Business Media. Search in Google Scholar

Teixeira, R.T., Fortes, A.M., Pinheiro, C., Pereira, H. (2014). Comparison of good-and bad-quality cork: application of high-throughput sequencing of phellogenic tissue. J Exp Bot 65:4887-4905. Search in Google Scholar

Thiébault, S. et al., (2016). The Mediterranean region under climate change: a scientific update: abridged (English). La Méditerranée face au changement climatique: état des lieux de la recherche: version abrégée bilingue (anglais/français).10.4000/books.irdeditions.24549 Search in Google Scholar

Thompson, I.D. et al., (2011). Forest biodiversity and the delivery of ecosystem goods and services: translating science into policy. Bioscience 61:972-981. Search in Google Scholar

Thompson, J.D., Lavergne, S., Affre, L., Gaudeul, M., Debussche, M. (2005). Ecological differentiation of Mediterranean endemic plants. Taxon 54:967-976. Search in Google Scholar

Thornes, J. (1988). Erosional equilibria under grazing. Conceptual issues in environmental archaeology 193:210. Search in Google Scholar

Tomozeiu, R., Lazzeri, M., Cacciamani, C. (2002). Precipitation fluctuations during the winter season from 1960 to 1995 over Emilia-Romagna, Italy. Theoretical and Applied Climatology 72:221-229. Search in Google Scholar

Trigo, R. et al., (2006). Relations between variability in the Mediterranean region and mid-latitude variability. In: Developments in Earth and Environmental Sciences (pp 179-226), vol 4. Elsevier. Search in Google Scholar

Trigo, R.M., García-Herrera, R., Díaz, J., Trigo, I.F., Valente, M.A. (2005). How exceptional was the early August 2003 heatwave in France? Geophys Res Lett 32.10.1029/2005GL022410 Search in Google Scholar

Tukan, S.K., Takruri, H., Al-Eisawi, D. (1998). The use of wild edible plants in the Jordanian diet. Int J Food Sci Nutr 49:225-235. Search in Google Scholar

Türkeş, M. (1998). Influence of geopotential heights, cyclone frequency and southern oscillation on rainfall variations in Turkey. International Journal of Climatology: A Journal of the Royal Meteorological Society 18:649-680. Search in Google Scholar

Ulbrich, U., May, W., Li, L., Lionello, P., Pinto, J.G., Somot, S. (2006). The Mediterranean climate change under global warming. In: Developments in earth and environmental sciences (pp 399-415.), vol 4. Elsevier. Search in Google Scholar

UNEP/MAP, (2017). Agenda item 4: Review of quality status report (QSR). Quality status report (QSR) cross-cutting and horizontal issues. Working document of the 6th Meeting of the Ecosystem Approach Coordination Group, Athens, 11 September 2017 UNEP(DEPI)/MED WG.444/11, Athens, United Nations Environment Programme/Mediterranean Action Plan. 15 pp. Search in Google Scholar

Van Mantgem, P.J. et al., (2009). Widespread increase of tree mortality rates in the western United States. Science 323:521-524. Search in Google Scholar

Vié, J-C., Hilton-Taylor, C., Stuart, S.N. (2009). Wildlife in a changing world: an analysis of the 2008, IUCN Red List of threatened species. IUCN. Search in Google Scholar

Visser, M.E., Holleman, L.J., Gienapp, P. (2006). Shifts in caterpillar biomass phenology due to climate change and its impact on the breeding biology of an insectivorous bird. Oecologia 147:164-172. Search in Google Scholar

Vitousek, P.M. (1994). Beyond global warming: ecology and global change. Ecology 75:1861-1876. Search in Google Scholar

Vizzarri, M. et al., (2017). The MIMOSE approach to support sustainable forest management planning at regional scale in Mediterranean contexts. Sustainability 9:316. Search in Google Scholar

Walther, G-R. et al., (2002). Ecological responses to recent climate change. Nature 416:389. Search in Google Scholar

Weiskopf, S.R. et al., (2020). Climate change effects on biodiversity, ecosystems, ecosystem services, and natural resource management in the United States. Sci Total Environ 733:137782. Search in Google Scholar

Wheeler, D. (1995). Majorca’s water shortages arouse Spanish passions Geography: Journal of the Geographical Association 80:283. Search in Google Scholar

Williams, A.P. et al., (2013). Temperature as a potent driver of regional forest drought stress and tree mortality. Nature climate change 3:292-297. Search in Google Scholar

Wuethrich, B. (2000). How climate change alters rhythms of the wild. Science 287:793-795. Search in Google Scholar

WWF, (2006). Report-cork screwed. Retrieved Novermber, 9th, 2021 from http://assets.panda.org/downloads/cork_rev12_print.pdf. Search in Google Scholar

Xiao-Ying, W., Chun-Yu, Z., Qing-Yu, J. (2013). Impacts of climate change on forest ecosystems in Northeast China. Advances in Climate Change Research 4:230-241. Search in Google Scholar

Xoplaki, E. (2002). Climate variability over the Mediterranean. Verlag nicht ermittelbar. Search in Google Scholar

Xoplaki, E., González-Rouco, J., Gyalistras, D., Luterbacher, J., Rickli, R., Wanner, H. (2003). Interannual summer air temperature variability over Greece and its connection to the large-scale atmospheric circulation and Mediterranean SSTs 1950–1999. Climate Dynamics 20:537-554. Search in Google Scholar

Xoplaki, E., González-Rouco, J., Luterbacher, J., Wanner, H. (2004). Wet season Mediterranean precipitation variability: influence of large-scale dynamics and trends. Climate dynamics 23:63-78. Search in Google Scholar

Zeghichi, S., Kallithraka, S., Simopoulos, A.P., Kypriotakis, Z. (2003). Nutritional composition of selected wild plants in the diet of Crete. World review of nutrition and dietetics 91:22-40. Search in Google Scholar

Zhao, M., Running, S.W. (2010). Drought-induced reduction in global terrestrial net primary production from 2000 through 2009. Science 329:940-943. Search in Google Scholar

Zittis, G., Hadjinicolaou, P., Lelieveld, J. (2014). Role of soil moisture in the amplification of climate warming in the eastern Mediterranean and the Middle East. Clim Res 59:27-37. Search in Google Scholar

Ziv, B., Saaroni, H., Baharad, A., Yekutieli, D., Alpert, P. (2005). Indications for aggravation in summer heat conditions over the Mediterranean Basin. Geophys Res Lett 32.10.1029/2005GL022796 Search in Google Scholar