[
Aguayo-Villalba A.Á., Álvarez-Gómez C.M., Aisa-Ahmed M., Barrosa-Rodriguez L. M., Camacho-Lopez S., Cocero-Ramirez A., Sanchez-Romero C. 2021. Effect of fire on viability and germination behaviour of Cistus ladanifer and Cistus salvifolius seeds. Folia Geobotanica, 56: 215–225.
]Search in Google Scholar
[
Arianoutsou M. 1998. Aspects of demography in post-fire mediterranean plant communities of Greece. in: Rundel P.W., Montenegro G. & Jaksic (Eds). Landscape degradation in mediterranean-type ecosystems, Ecological studies 136. Springer-Verlag, Berlin/Heidelberg: 273–295.
]Search in Google Scholar
[
Arianoutsou M., Ne'eman G. 2000. Post-fire regeneration of natural Pinus halepensis forest in the east Mediterranean basin. in: Ne'eman, G. & Trabaud, L. (eds.). Ecology, biogeography and management of Pinus halepensis and P. brutia forest ecosystems in the Mediterranean basin. Backhuys Publishers, Leiden: 269–289.
]Search in Google Scholar
[
Auld T.D., Denham A.J. 2006. How much seed remains in the soil after a fire? Plant Ecology, 187: 15–24.
]Search in Google Scholar
[
Bekdouche F. 2010. Evolution après feu de l’écosystème subéraie de Kabylie (nord algérien). PhD Thesis. University of M. Mammeri Tizi-Ouzou, Algeria.
]Search in Google Scholar
[
Bekdouche F., Sidi H., Tassadit A. 2016. Analyse de la recolonisation après incendie par les cistes et les légumineuses dans des pinèdes à Pinus halepensis: Le cas d’Ain Skhoun (Bejaia). Revue Ecologie et Environnement, 12: 25–33.
]Search in Google Scholar
[
Buhk C., Meyn A., Jentsch A. 2007. The challenge of plant regeneration after fire in the Mediterranean Basin: scientific gaps in our knowledge on plant strategies and evolution of traits. Plant Ecology, 192: 1–19.
]Search in Google Scholar
[
Chaves N., Escudero J.C. 1997. Allelopathic effect of Cistus ladanifer on seed germination. Functional Ecology, 11: 432–440.
]Search in Google Scholar
[
Corral R., Pita J.M., Pérez-García F. 1990. Some aspects of seed germination in four species of Cistus L. Seed Science and Technology, 18: 321–325.
]Search in Google Scholar
[
Crosti R., Ladd P.G., Dixon K.W., Piotto B. 2006. Post-fire germination: The effect of smoke on seeds of selected species from the central Mediterranean basin. Forest Ecology and Management, 221: 306–312.
]Search in Google Scholar
[
Dayamba S.D., Tigabu M., Sawadogo L., Oden P. 2008. Seed germination of herbaceous and woody species of the Sudanian savanna-woodland in response to heat shock and smoke. Forest Ecology and Management, 256: 462–470.
]Search in Google Scholar
[
De Luis M., Raventos J., Gonzales-Hidalgo J.C. 2005. Factors controlling seedling germination after fire in Mediterranean gorse shrublands. Implications for fire prescription. Journal of Environmental Management, 76: 159–166.
]Search in Google Scholar
[
De Luis M., Raventos J., Wiegand T., González-Hidalgo J.C. 2008b. Temporal and spatial differentiation in seedling emergence may promote species coexistence in Mediterranean fire-prone ecosystems. Ecography, 31: 620–629.
]Search in Google Scholar
[
De Luis M., Verdu M., Raventos J. 2008a. Early to rise makes a plant healthy, wealthy, and wise. Ecology, 89, 11: 3061–3071.
]Search in Google Scholar
[
Duguy B., Vallejo V.R. 2008. Land-use and fire history effects on post-fire vegetation dynamics in eastern Spain. Journal of Vegetation Science, 19: 97–108.
]Search in Google Scholar
[
Eshel A., Henig-Sever N., Ne'eman G. 2000. Spatial variation of seedling distribution in an east Mediterranean pine woodland at the beginning of post-fire succession. Plant Ecology, 148: 175–182.
]Search in Google Scholar
[
Ferrandis P., Herranz J.M., Martinez-Sanchez J.J. 1999. Effect of fire on hard-coated Cistaceae seed banks and its influence on techniques for quantifying seed banks. Plant Ecology, 144: 103–114.
]Search in Google Scholar
[
Frazão D.F., Raimundo J.R., Domingues J.L., Quintela-Sabaris C., José C., Gonçalves J.C., Delgado F. 2018. Cistus ladanifer (Cistaceae): a natural resource in Mediterranean-type ecosystems. Planta, 247, 2: 289–300.
]Search in Google Scholar
[
Ghebrehiwot H.M., Kulkarni M.G., Kirkman K.P., Van-Staden J. 2012. Smoke and heat: influence on seedling emergence from the germinable soil seed bank of mesic grassland in South Africa. Plant Growth Regulation, 66: 119–127.
]Search in Google Scholar
[
Herranz J.M., Ferrandis P., Copete M.A., Duro E.M., Zalacain A. 2006. Effect of allelopathic compounds produced by Cistus ladanifer on germination of 20 Mediterranean taxa. Plant Ecology, 184: 259–272.
]Search in Google Scholar
[
Herranz J.M., Ferrandis P., Martinez-Sanchez J.J. 1998. Influence of heat on seed germination of seven Mediterranean Leguminosae species. Plant Ecology, 136: 95–103.
]Search in Google Scholar
[
Herranz J.M., Ferrandis P., Martinez-Sánchez J.J. 1999. Influence of heat on seed germination of nine woody Cistaceae species. International Journal of Wildland Fire, 9: 173–182.
]Search in Google Scholar
[
Higuera P.E., Abatzoglou J.T. 2021. Record-Setting Climate Enabled the Extraordinary 2020 Fire Season in the Western United States. Global Change Biology, 27: 1–2.
]Search in Google Scholar
[
Izhaki I., Hening-Sever N., Ne’eman G. 2000. Soil seed banks in Mediterranean Aleppo pine forest: the effect of heat, cover and ash on seedling emergence. Journal of Ecology, 88: 667–975.
]Search in Google Scholar
[
Keeley J.E., Bond W.J. 1997. Convergent seed germination in South African fynbos and California chaparral. Plant Ecology, 133: 153–167.
]Search in Google Scholar
[
Keeley J.E., Fotheringham C.J. 1998. Smoke-induced seed germination in California chaparral. Ecology, 79: 2320–2336.
]Search in Google Scholar
[
Keeley J.E., Pfaff A.H., Safford H.D. 2005. Fire suppression impacts on postfire recovery of Sierra Nevada chaparral shrublands. International Journal of Wildland Fire, 14: 255–265.
]Search in Google Scholar
[
Light M.E., Gardner M.J., Jager A.K., Van Staden J. 2002. Dual regulation of seed germination by smoke solutions. Plant Growth Regulation, 37: 135–141.
]Search in Google Scholar
[
Lloret F. 1998. Fire, canopy cover and seedling dynamics in Mediterranean schrubland of northeastern Spain. Journal of Vegetation Science, 9: 417–430.
]Search in Google Scholar
[
Lobon N.C., Gallego J.C.A., Diaz T.S., Garcia J.C.E. 2002. Allelopathic potential of Cistus ladanifer chemicals in response to variations of light and temperature. Chemoecology, 12: 139–145.
]Search in Google Scholar
[
Luna B., Chamorro D. 2016. Germination sensitivity to water stress of eight Cistaceae species from the Western Mediterranean. Seed Science Research, 26, 2: 101–110.
]Search in Google Scholar
[
Luna B., Piñas-Bonilla P., Zavala G., Pérez B. 2023. Timing of fire during summer determines seed germination in Mediterranean Cistaceae. Fire Ecology, 19: 52.
]Search in Google Scholar
[
Mc Dowell N.G., Allen C.D., Anderson-Teixeira K., Aukema B.H., Bond-Lamberty B., Chini L., Clark J.S., Dietze M., Grossiord C., Hanbury-Brown A. 2020. Pervasive Shifts in Forest Dynamics in a Changing World. Science, 368: eaaz9463.
]Search in Google Scholar
[
Nelson A.R., Narrowe A.B., Rhoades C.C., Fegel T.S., Daly R.A., Roth H.K., Chu R.K., Amundson K.K., Young R.B., Steindorff A.S., Mondo S.J., Grigoriev I.V., Salamov A., Borch T., Wilkins M.J. 2022. Wildfire-dependent changes in soil microbiome diversity and function. Nature Microbiology, 7: 1419–1430.
]Search in Google Scholar
[
Papavassiliou S., Arianoutsou M. 1993. Regeneration of the leguminous herbaceous vegetation following fire in a Pinus halepensis forest of Attica, Greece. [in:] L. Trabaud, R. Prodon (eds). Fire in Mediterranean Ecosystems. Ecosystems Research Report n°5, Commission of the European Communities: 19–125.
]Search in Google Scholar
[
Papavassiliou S., Arianoutsou M., Thanos C.A. 1994. Aspects of the reproductive biology of fire following species of leguminosae in a Pinus Mepemis Mill. Forest. [in:] D.X. Viegas (ed.) Proc. 2nd Interntional Conference of Forest Fire Research. Portugal, Suppl. 24: 1–12.
]Search in Google Scholar
[
Pardini G., Gispert M., Dunjo G. 2004. Relative influence of wildfire on soil properties and erosion processes in different Mediterranean environments in NE Spain. Science of the Total Environment, 328: 237–246.
]Search in Google Scholar
[
Pausas J.G., Keeley J.E. 2014. Evolutionary ecology of resprouting and seeding in fire-prone ecosystems. New Phytologist, 204, 1: 55–65.
]Search in Google Scholar
[
Pausas J.G., Lamont B.B. 2022. Fire-released seed dormancy – A global synthesis. Biological Reviews, 97: 1612–1639.
]Search in Google Scholar
[
Pausas J.G., Llovet J., Rodrigo A., Vallejo V.R. 2008. Are wildfires a disaster in the Mediterranean basin? A review. International Journal of Wildland Fire, 17: 713–723.
]Search in Google Scholar
[
Quezel P., Medail F. 2003. Ecologie et biogéographie des forêts du bassin méditerranéen. Editions Elsevier, Paris.
]Search in Google Scholar
[
Ramiadantsoa T., Ratajczak Z., Turner M.G. 2023. Regeneration strategies and forest resilience to changing fire regimes: Insights from a Goldilocks model. Ecology, 104, 6: e4041.
]Search in Google Scholar
[
Rivas M., Reyes O., Casal M. 2006. Influence of heat and smoke treatments on the germination of six leguminous shrubby species. International Journal of Wildland Fire, 15: 73–80.
]Search in Google Scholar
[
Roy J., Sonié L. 1992. Germination and population dynamics of Cistus species in relation to fire. Journal of Applied Ecology, 29: 647–655.
]Search in Google Scholar
[
Seidl R., Thom D., Kautz M., Martin-Benito D., Peltoniemi M., Vacchiano G., Wild J., Ascoli D., Petr M., Honkaniemi J. 2017. Forest Disturbances under Climate Change. Nature Climate Change, 7: 395–402.
]Search in Google Scholar
[
Silva Dias L., Pires Pereira I., Soveral Dias A. 2019. Seed Germination in Cistus ladanifer: Heat Shock, Physical Dormancy, Soil Temperatures and Significance to Natural Regeneration. Plants, 8: 63.
]Search in Google Scholar
[
Simler-Williamson A.B., Metz M.R., Frangioso K.M., Rizzo D.M. 2021. Wildfire alters the disturbance impacts of an emerging forest disease via changes to host occurrence and demographic structure. Journal of Ecology, 109: 676–691.
]Search in Google Scholar
[
Stavi I. 2019. Wildfires in grasslands and shrublands: a review of impacts on vegetation, soil, hydrology and geomorphology. Water, 11: 1042.
]Search in Google Scholar
[
Stinca A., Ravo M., Marzaioli R., Marchese G., Cordella F.A., Rutigliano F.A., Esposito A. 2020. Changes in multi-level biodiversity and soil features in a burned beech forest in the southern Italian coastal mountain. Forests, 11: 983.
]Search in Google Scholar
[
Tangney R., Paroissien R., Le Breton T.D., Thomsen A., Doyle C.A.T., Ondik M., Miller R.G., Miller B.P., Ooi, M.K.J. 2022. Success of post-fire plant recovery strategies varies with shifting fire seasonality. Communications Earth & Environment, 3: 126.
]Search in Google Scholar
[
Tavşanoğlu Ç., Gürkan B., 2005. Post-fire dynamics of Cistus spp. in a Pinus brutia forest. Turkish Journal of Botany, 29: 337–343.
]Search in Google Scholar
[
Thanos C.A. 1999. Fire effects on forest vegetation, the case of Mediterranean pine forests in Greece. [in:] G. Eftichidis, P. Balabanis, A. Ghazi (Eds), Wildfire Management. Proceedings of the Advanced Study Course held in Marathon, Greece: 323–334.
]Search in Google Scholar
[
Thanos C.A., Georghiou K. 1988. Ecophysiology of fire-stimulated seed germination in Cistus incanus ssp. creticus (L.) Heywood and C. salvifolius L. Plant Cell & Environment, 11: 841–849.
]Search in Google Scholar
[
Thanos C.A., Georghiou K., Kadis C., Pantazi C. 1992. Cistaceae: a plant family with hard seeds. Israel Journal of Botany, 4: 251–263.
]Search in Google Scholar
[
Thomas P.B., Morris E.C., Auld T.D. 2003. Interactive effects of heat shock and smoke on germination of nine species forming soil seed banks within the Sydney region. Austral Ecology, 28: 674–683.
]Search in Google Scholar
[
Trabaud L., Martínez-Sánchez J.J., Ferrandis P., González-Ochoa A.I., Herranz J.M. 1997. Végétation épigée et banque de semences du sol: leur contribution à la stabilité cyclique des pinèdes mixtes de Pinus halepensis et P. pinaster. Canadian Journal of Botany, 75: 1012–1021.
]Search in Google Scholar
[
Trabaud L., Oustric J. 1989. Comparaison des stratégies de régénération après incendie chez deux espèces de ciste. Revue d’Ecolgie (Terre & Vie), 44: 3–13.
]Search in Google Scholar
[
XLSTAT. 2014. Copyright Addinsoft (XLSTAT Version 2014.5.03) and Addinsoft Registered Trademarks of Addinsoft. www.xlstat.com.
]Search in Google Scholar