Abstract
The conservation of habitat types has been recognized to be of relevant importance for the conservation of biodiversity and is a major concern in the European Union. With the 92/43/EEC Habitats Directive, the European Commission targeted these habitat types, which conservation must be ensured by Member States. In this context, the Habitat type 9330 “Quercus suber forests” is intended to ensure the conservation of cork oak woodlands in Europe. To support the enhancement of nature conservation policies, in this study we provide a classification of cork oak woodlands in Europe using a large vegetation database. We identify four major groups with clear biogeographic differences and characterize them by lists of indicator species. We also provide distribution maps based on occurrence data and the modelled potential area of distribution as an additional tool for conservation. This study offers a contribution to the comparative description of the European Q. suber woodlands subtypes and to establish a protocol for habitat monitoring and assessment.
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References
Agrillo E, Alessi N, Massimi M, Spada F, De Sanctis M, Francesconi F, Cambria VE, Attorre F (2017) Nationwide Vegetation-Plots Database—Sapienza University of Rome: state of the art, basic figures and future perspectives. Phytocoenologia 47(2):221–229
Álvarez-Martínez JM, Jiménez-Alfaro B, Barquín J, Ondiviela B, Recio M, Silió-Calzada A, Juanes JA (2017) Modelling the area of occupancy of habitat types with remote sensing. Methods Ecol Evol. https://doi.org/10.1111/2041-210X.12925
Barberis G, Mariotti M (1979) Notizie geobotaniche su Quercus suber Lam. Liguria. Archivio Botanico e Biogeografico Italiano 55:61–82
Botta-Dukát Z, Chytrý M, Hájková P, Havlová M (2005) Vegetation of lowland wet meadows along a climatic continentality gradient in Central Europe. Preslia 77:89–111
Brisse H, De Ruffray P, Grandjouan G, Hoff M (1995) The phytosociological database “SOPHY”. Part I: Calibration of indicator plants. Part II: Socio-ecological classification of relevés. Ann di Bot LIII:177–190
Bruelheide H (2000) A new measure of fidelity and its application to defining species groups. J Veg Sci 11:167–178
Bugalho M, Plieninger T, Aronson J, Ellatifi M, Crespo DG (2009) Open woodlands: a diversity of uses (and overuses). In: Aronson J, Pereira JS, Pausas J (eds) Cork oak woodlands on the edge: ecology, biogeography, and restoration of an ancient Mediterranean ecosystem. Island Press, Washington DC, pp 33–45
Carrión J, Parra I, Navarro C, Munuera M (2000) Past distribution and ecology of the cork oak (Quercus suber) in the Iberian Peninsula: a pollen-analytical approach. Divers Distrib 6:29–44
Chytrý M, Tichý L, Holt J, Botta-Dukát Z (2002) Determination of diagnostic species with statistical fidelity measures. J Veg Sci 13:79–90
Chytrý M, Hennekens SM, Jiménez-Alfaro B, Knollová I, Dengler J, Jansen F, Landucci F, Schaminée JHJ, Aćić S, Agrillo E, Ambarlı D, Angelini P, Apostolova I, Attorre F, Berg C, Bergmeier E, Biurrun I, Botta-Dukát Z, Brisse H, Campos JA, Carlón L, Čarni A, Casella L, Csiky J, Ćušterevska R, Dajić Stevanović Z, Danihelka J, De Bie E, de Ruffray P, De Sanctis M, Dickoré WB, Dimopoulos P, Dubyna D, Dziuba T, Ejrnaes R, Ermakov N, Ewald J, Fanelli G, Fernández-González F, FitzPatrick Ú, Font X, García-Mijangos I, Gavilán RG, Golub V, Guarino R, Haveman R, Indreica A, Işık Gürsoy D, Jandt U, Janssen JAM, Jiroušek M, Kącki Z, Kavgacı A, Kleikamp M, Kolomiychuk V, Krstivojević Ćuk M, Krstonošić D, Kuzemko A, Lenoir J, Lysenko T, Marcenò C, Martynenko V, Michalcová D, Moeslund JE, Onyshchenko V, Pedashenko H, Pérez-Haase A, Peterka T, Prokhorov V, Rašomavičius V, Rodríguez-Rojo MP, Rodwell JS, Rogova T, Ruprecht E, Rūsiņa S, Seidler G, Šibík J, Šilc U, Škvorc Ž, Sopotlieva D, Stančić Z, Svenning J-C, Swacha G, Tsiripidis I, Turtureanu PD, Uğurlu E, Uogintas D, Valachovič M, Vashenyak Y, Vassilev K, Venanzoni R, Virtanen R, Weekes L, Willner W, Wohlgemuth T, Yamalov S (2016) European Vegetation Archive (EVA): an integrated database of European vegetation plots. Appl Veg Sci 19:173–180
Davies CE, Moss D, Hill MO (2004) EUNIS habitat classification revised 2004. European Environment Agency, Copenhagen
De Cáceres M, Chytrý M, Agrillo E, Attorre F, Botta-Dukát Z, Capelo J, Czúcz B, Dengler J, Ewald J, Faber-Langendoen D, Feoli E, Franklin SB, Gavilán R, Gillet F, Jansen F, Jiménez-Alfaro B, Krestov P, Landucci F, Lengyel A, Loidi J, Mucina L, Peet RK, Roberts DW, Roleček J, Schaminée JHJ, Schmidtlein S, Theurillat JP, Tichý L, Walker DA, Wildi O, Willner W, Wiser SK (2015) A comparative framework for broad-scale plot-based vegetation classification. Appl Veg Sci 18:543–560. https://doi.org/10.1111/avsc.12179
Dengler J, Löbel S, Dolnik C (2009) Species constancy depends on plot size—a problem for vegetation classification and how it can be solved. J Veg Sci 20:754–766
Dengler J, Jansen F, Glöckler F, Peet RK, De Cáceres M, Chytrý M, Ewald J, Oldeland J, Lopez-Gonzalez G, Finckh M, Mucina L, Rodwell JS, Schaminée JHJ, Spencer N (2011) The Global Index of Vegetation-Plot Databases (GIVD): a new resource for vegetation science. J Veg Sci 22:582–597
Devilliers P, Devilliers-Terschurenn J (1996) A classification of Palaearctic habitats (no. 18–78) Council of Europe
Douda J, Boublík K, Slezák M, Biurrun I, Nociar J, Havrdová A, Doudová J, Aćić S, Brisse H, Brunet J, Chytrý M, Claessens H, Csiky J, Didukh Y, Dimopoulos P, Dullinger S, Fitzpatrick Ú, Guisan A, Horchler PJ, Hrivnák R, Jandt U, Kacki Z, Kevey B, Landucci F, Lecomte H, Lenoir J, Paal J, Paternoster D, Pauli H, Pielech R, Rodwell JS, Roelandt B, Svenning JC, Šibík J, Šilc U, Škvorc Ž, Tsiripidis I, Tzonev RT, Wohlgemuth T, Zimmermann NE (2016) Vegetation classification and biogeography of European floodplain forests and alder carrs. Appl Veg Sci 19:147–163. https://doi.org/10.1111/avsc.12201
Dowgiallo G, Testi A, Pesoli P, Pignatti S (1997) Edaphic characteristics of Quercus suber woods in Latium. Rend Fis Acc Lincei 8:249–264
European Commission (2013) Interpretation Manual of European Union Habitats—EUR28. EEA website. http://ec.europa.eu/environment/nature/legislation/habitatsdirective/docs/Int_Manual_EU28.pdf. Accessed 20 Dec 2017
Evans D (2010) Interpreting the habitats of Annex I: past, present and future. Acta Bot Gall 157:677–686
Evans D, Arvela M (2011) Assessment and reporting under article 17 of the habitats directive, explanatory notes & guidelines for the period 2007–2012 European Topic Centre on Biological Diversity. CIRCABC website. https://circabc.europa.eu/sd/a/2c12cea2-f827-4bdb-bb56-3731c9fd8b40/Art17-Guidelines-final.pdf. Accessed 4 Dec 2017
Ewald J (2003) A critique for phytosociology. J Veg Sci 14:291–296
Font X, Pérez-García N, Biurrun I, Fernández-González F, Lence C (2012) The Iberian and Ma-esian Vegetation Information System (SIVIM, http://www.sivim.info), five years of online vegetation’s data publishing. Plant Sociol 49:89–95
Hennekens SM, Schaminée JHJ (2001) TURBOVEG, a comprehensive data base management system for vegetation data. J Veg Sci 12:589–591
Hijmans RJ, Cameron SE, Parra JL, Jones PG, Jarvis A (2005) Very high resolution interpolated climate surfaces for global land areas. Int J Climatol 25:1965–1978
Houston Durrant T, de Rigo D, Caudullo G (2016) Quercus suber in Europe: distribution, habitat, usage and threats. In: San-Miguel-Ayanz J, de Rigo D, Caudullo G, Houston Durrant T, Mauri A (eds) European atlas of forest tree species. Publications Office, Luxembourg, pp 164–165
Jiménez-Alfaro B, Suárez-Seoane S, Chytrý M, Hennekens SM, Willner W, Hájek M, Agrillo E, Álvarez-Martínez JA, Bergamini A, Brisse H, Brunet J, Casella L, Dítě D, Font X, Gillet F, Hájková P, Jansen F, Jandt U, Kącki Z, Lenoir J, Rodwell JS, Schaminée JHJ, Sekulová L, Šibík J, Škvorc Ž, Tsiripidis I (2018) Modelling the distribution and compositional variation of plant communities at the continental scale. Divers Distrib. https://doi.org/10.1111/ddi.12736
Jiménez-Valverde A (2014) Threshold-dependence as a desirable attribute for discrimination assessment: implications for the evaluation of species distribution models. Biodivers Conserv 23(2):369–385
Jiménez-Valverde A, Lobo JM (2007) Threshold criteria for conversion of probability of species presence to either–or presence–absence. Acta oecologica 31(3):361–369
Keith DA, Elith J, Simpson CC (2014) Predicting distribution changes of a mire ecosystem under future climates. Divers Distrib 20:440–454
Lacambra JLC, Andray BA, Francés SF (2010) Influence of the soil water holding capacity on the potential distribution of forest species. A case study: the potential distribution of cork oak (Quercus suber L.) in central-western Spain. Eur J For Res 129:111–117
Lengyel S, Déri E, Varga Z, Horváth R, Tóthmérész B, Henry PY, Kobler A, Kutnar L, Babij V, Seliškar A, Christia C, Papastergiadou E, Gruber B, Henle K (2008) Habitat monitoring in Europe: a description of current practices. Biodivers Conserv 17:3327–3339
Lengyel A, Chytrý M, Tichý L (2011) Heterogeneity-constrained random resampling of phytosociological databases. J Veg Sci 22:175–183
Lepš J, Šmilauer P (2003) Multivariate analysis of ecological data using CANOCO. Cambridge University Press, Cambridge
Lötter M, Mucina L, Witkowski E (2013) The classification conundrum: species fidelity as leading criterion in search of a rigorous method to classify a complex forest data set. Community Ecol 14:121–132
Magri D, Fineschi S, Bellarosa R, Buonamici A, Sebastiani F, Schirone B, Simeone M, Vendramin G (2007) The distribution of Quercus suber chloroplast haplotypes matches the palaeogeographical history of the western Mediterranean. Mol Ecol 16:5259–5266
Magri D, Agrillo E, Di Rita F, Furlanetto G, Pini R, Ravazzi C, Spada F (2015) Holocene dynamics of tree taxa populations in Italy. Rev Palaeobot Palynol 218:267–284
Marcenò C, Guarino R, Loidi J, Herrera M, Isermann M, Knollová I, Tichý L, Tzonev RT, Acosta ATR, FitzPatrick Ú, Iakushenko D, Janssen JAM, Jiménez-Alfaro B, Kącki Z, Keizer-Sedláková I, Kolomiychuk V, Rodwell JS, Schaminée JHJ, Šilc U, Chytrý M (2018) Classification of European and Mediterranean coastal dune vegetation. Appl Veg Sci. https://doi.org/10.1111/avsc.12379
Meusel H, Jäger E, Weinert E (1965) Vergleichende Chorologie der zentraleuropäischen Flora. Gustav Fischer Verlag, Jena
Michalcová D, Lvončík S, Chytrý M, Hájek O (2011) Bias in vegetation databases? A comparison of stratified-random and preferential sampling. J Veg Sci 22:281–291
Millington A, Blumler M, Schickhoff U (2011) The SAGE handbook of biogeography. SAGE, Los Angeles
Mucina L (1997) Classification of vegetation: past, present and future. J Veg Sci 8(6):751–760
Mucina L, Bültmann H, Dierßen K, Theurillat JP, Raus T, Čarni A, Šumberová K, Willner W, Dengler J, García RG, Chytrý M, Hájek M, Di Pietro R, Iakushenko D, Pallas J, Daniëls FJA, Bergmeier E, Guerra AS, Ermakov N, Valachovič M, Schaminée JHJ, Lysenko T, Didukh YP, Pignatti S, Rodwell JS, Capelo J, Weber HE, Solomeshch A, Dimopoulos P, Aguiar C, Hennekens SM, Tichý L (2016) Vegetation of Europe: hierarchical floristic classification system of vascular plant, bryophyte, lichen and algal communities. J Veg Sci 19:3–264
Palamarev E (1989) Paleobotanical evidences of the Tertiary history and origin of the Mediterranean sclerophyll dendroflora. Plant Syst Evol 162(1–4):93–107
Palamarev E, Tsenov B (2004) Genus Quercus in the Late Miocene flora of Baldevo formation (Southwest Bulgaria): taxonomical composition and palaeoecology. Phytol Balc 10:147–156
Pausas JG, Marañón T, Caldeira M, Pons J (2009) Natural regeneration. In: Aronson J, Pereira JS, Pausas J (eds) Cork oak woodlands on the edge: ecology, biogeography, and restoration of an ancient Mediterranean ecosystem. Island Press, Washington DC, pp 115–125
Petroselli A, Vessella F, Cavagnuolo L, Piovesan G, Schirone B (2013) Ecological behavior of Quercus suber and Quercus ilex inferred by topographic wetness index (TWI). Trees Struct Funct 27:1201–1215
Phillips SJ, Anderson RP, Schapire RE (2006) Maximum entropy modeling of species geographic distributions. Ecol Model 190:231–259
Potts AJ, Hedderson TA, Franklin J, Cowling RM (2013) The Last Glacial Maximum distribution of South African subtropical thicket inferred from community distribution modelling. J Biogeogr 40:310–322
Rivas-Martínez S (1975) La vegetación de la clase Quercetea ilicis en España y Portugal. Anales del Instituto Botánico A J Cavanilles 31:205–259
Rivas-Martínez S, Biondi E, Costa M, Mossa L (2003) Datos sobre la vegetación de la clase Quercetea ilicis en Cerdeña. Fitosociologia 40:35–38
Simeone MC, Papini A, Vessella F, Bellarosa R, Spada F, Schirone B (2009) Multiple genome relationships and a complex biogeographic history in the eastern range of Quercus suber L. (Fagaceae) implied by nuclear and chloroplast DNA variation. Caryologia 62:236–252
Tichý L (2002) JUICE, software for vegetation classification. J Veg Sci 13:451–453
Tichý L, Chytrý M (2006) Statistical determination of diagnostic species for site groups of unequal size. J Veg Sci 17:809–818
Tutin TG, Heywood VH, Burges NA, Valentine D, Walters SM, Webb DA (2001) Flora europaea. Cambridge University Press, Cambridge
Willner W, Jiménez-Alfaro B, Agrillo E, Biurrun I, Campos JA, Čarni A, Casella L, Csiky J, Ćušterevska R, Didukh YP, Ewald J, Jandt U, Jansen F, Kącki Z, Kavgacı A, Lenoir J, Marinšek A, Onyshchenko V, Rodwell JS, Schaminée JHJ, Šibík J, Škvorc Ž, Svenning JC, Tsiripidis I, Turtureanu PD, Tzonev R, Vassilev K, Venanzoni R, Wohlgemuth T, Chytrý M (2017) Classification of European beech forests: a Gordian Knot? Appl Veg Sci 20:494–512. https://doi.org/10.1111/avsc.12299
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Special thank to all the co-authors for patience and their suggestions. We also thank to the two anonymous reviewers for helpful and constructive comments on a previous version of this manuscript.
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AE designed the research; AN, BJA and CL developed the initial aims; AN, BJA prepared the data set and did the analyses; AE, AN, BJA and CL wrote the manuscript; all the other authors contributed vegetation data, improved the aims of this research and critically revised the manuscript.
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This peer-reviewed contribution is from the European Vegetation Survey working group established in 1992 by Alessandro Pignatti and colleagues in Rome.
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Agrillo, E., Alessi, N., Jiménez-Alfaro, B. et al. The use of large databases to characterize habitat types: the case of Quercus suber woodlands in Europe. Rend. Fis. Acc. Lincei 29, 283–293 (2018). https://doi.org/10.1007/s12210-018-0703-x
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DOI: https://doi.org/10.1007/s12210-018-0703-x