Lichen diversity in the Edough Peninsula, North East of Algeria

This study was carried out with the aim of enriching the list of lichens of Algeria, for this reason we have prospected 2 stations “Les Cascades des Vautours” and “Dar smayer” at 442 and 856 m of altitude, Edough Peninsula on the North East Algerian coast. The annual precipitation is relatively abun...

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Published in:Botanica Complutensis
Main Authors: Ahmed Monia, Ali, Rafika, Brakni, Tarek, Hamel
Format: Article in Journal/Newspaper
Language:English
Published: Ediciones Complutense 2018
Subjects:
Lichens; North Africa.
líquenes; norte de Africa.
Hale
Arctic
Online Access:https://revistas.ucm.es/index.php/BOCM/article/view/61381
https://doi.org/10.5209/BOCM.61381
id ftunicmadridrev:oai:ojs.pkp.sfu.ca:article/61381
record_format openpolar
institution Open Polar
collection Universidad Complutense de Madrid (UCM): Revistas Científicas Complutenses
op_collection_id ftunicmadridrev
language English
topic Lichens; North Africa.
líquenes; norte de Africa.
spellingShingle Lichens; North Africa.
líquenes; norte de Africa.
Ahmed Monia, Ali
Rafika, Brakni
Tarek, Hamel
Lichen diversity in the Edough Peninsula, North East of Algeria
topic_facet Lichens; North Africa.
líquenes; norte de Africa.
description This study was carried out with the aim of enriching the list of lichens of Algeria, for this reason we have prospected 2 stations “Les Cascades des Vautours” and “Dar smayer” at 442 and 856 m of altitude, Edough Peninsula on the North East Algerian coast. The annual precipitation is relatively abundant, of the order of 1000 mm. Seventythree taxa were registered belonging to 15 families of which 8 taxa: Cladonia cervicornis subsp. verticillata (Hoffm.) Ahti, C. ramulosa (With.) J.R. Laundon, C. humilis (With.) J.R. Laundon, Nephroma parile (Ach.) Ach., Parmelinopsis afrorevoluta (Krog & Swinscow) Elix & Hale, Ramalina siliquosa (Huds.) A.L. Sm., Usnea esperantiana P. Clerc and Xanthoparmelia conspersa (Ehrh. ex Ach.) Hale, which were never mentioned in Algerian lichen flora. Se ha realizado este estudio con el objetivo de enriquecer la lista de líquenes de Argelia donde se han prospectado 2 estaciones “Les Cascades de Vautours” y “Dar smayer” situadas a 442 y 856 m de altitud respectivamente de la Península de Edough en el NE de Argelia. La precipitación anual es abundante y cercana a los 1000 mm. Se han encontrado 73 taxones pertenecientes a 15 familias diferentes, con 8 taxones: Cladonia cervicornis subsp. Verticillata (Hoffm.) Ahti, C. ramulosa (With.) J.R. Laundon, C. humilis (With.) J.R. Laundon, Nephroma parile (Ach.) Ach., Parmelinopsis afrorevoluta (Krog & Swinscow) Elix & Hale, Ramalina siliquosa (Huds.) A.L. Sm., Usnea esperantiana P. Clerc y Xanthoparmelia conspersa (Ehrh. ex Ach.) Hale, que constituyen novedad para la flora liquénica argelina.
format Article in Journal/Newspaper
author Ahmed Monia, Ali
Rafika, Brakni
Tarek, Hamel
author_facet Ahmed Monia, Ali
Rafika, Brakni
Tarek, Hamel
author_sort Ahmed Monia, Ali
title Lichen diversity in the Edough Peninsula, North East of Algeria
title_short Lichen diversity in the Edough Peninsula, North East of Algeria
title_full Lichen diversity in the Edough Peninsula, North East of Algeria
title_fullStr Lichen diversity in the Edough Peninsula, North East of Algeria
title_full_unstemmed Lichen diversity in the Edough Peninsula, North East of Algeria
title_sort lichen diversity in the edough peninsula, north east of algeria
publisher Ediciones Complutense
publishDate 2018
url https://revistas.ucm.es/index.php/BOCM/article/view/61381
https://doi.org/10.5209/BOCM.61381
long_lat ENVELOPE(-86.317,-86.317,-78.067,-78.067)
geographic Hale
geographic_facet Hale
genre Arctic
genre_facet Arctic
op_source Botanica Complutensis; Vol. 42 (2018); 9-18
1988-2874
0214-4565
op_relation https://revistas.ucm.es/index.php/BOCM/article/view/61381/4564456548024
Adamo, P., Violante, P. 2000. Weathering of rocks and neogenesis of minerals associated with lichen activity. Appl. Clay Sci. 16: 229-256.
Ait hammou M., Mara, M.D, Rebbas K., Slimani A., Ravera S., Hamer el ain, A.S. 2014. Mise à jour de l’inventaire des lichens d’Algérie. Revue Ecologie Environnement 10: 1112-5888.
Amrani, S., Nacer, A., Noureddine, N.E., & Seaward, M.R. 2015. Lichenological exploration of Algeria: historical overview and annotated bibliography, 1799-2013. Willdenowia 45(1): 15-34.
Antoine, M.E. 2004. An ecophysiological approach to quantifying nitrogen fixation by Lobaria oregana. Bryologist 107(1): 82-87.
Aouadi, H. 1989. La végétation de l’Algérie Nord orientale: histoire des influences anthropiques et cartographie à 1/20.000. Univ. Joseph Fourier, Grenoble 1. France.
Boncina, A. 2000. Comparison of structure and biodiversity in the Rajhenav virgin forest remnant and managed forest in the Dinaric region of Slovenia. Glob. Ecol. Biog. 9(3): 201-211.
Boutabia, L. Telailia, S. & de Bélair, G. 2015. Corticolous lichen flora on Quercus suber L. in the wetlands of El Kala National Park (North-Eastern Algeria). Advances in Environmental Biology ISSN-1995- 0756 EISSN-1998-1066 Journal home page: http://www.aensiweb.com/AEB/
Cornelissen, J.H.C., Callaghan, T.V., Alatalo, J.M., Michelsen, A., Graglia, E., Hartley, A.E. et al. 2001. Global change and arctic ecosystems: is lichen decline a function of increases in vascular plant biomass? J. Ecol. 89: 984-994.
Desfontaines, R. 1798-1799. Flora atlantica, sive historia plantarum, quae in Atlante, agro tunetano et algeriensi crescent 2. Paris. L. G. Desgranges. http://dx.doi.org/10.3372/wi.45.45102.
Dymytrova, L., Nadyeina, O., Hobi, M.L. & Scheidegger, C. 2014. Topographic and forest-stand variables determining epiphytic lichen diversity in the primeval beech forest in the Ukrainian Carpathians. Biodivers. Conserv. 23(6):1367–94.
Ellis, C.J. & Coppins B.J. 2007. Changing climate and historic-woodland structure interact to control species diversity of the Lobarion epiphyte community in Scotland. J. Veg. Sci. 18: 725-734.
Gauslaa, Y. 2014. Rain, dew, and humid air as drivers of morphology, function and spatial distribution in epiphytic lichens. Lichenologist 46: 1-16.
Gilbert, O. & Giavarini, V. 2000. The lichen vegetation of lake margins in Britain. Lichenologist 32(4): 365-386.
Hale, M.E. 1983. Cortical structure in Physcia and Phaeophyscia. Lichenologist 15(2): 157-160.
Hamel, T. 2013. Contribution à l’étude de l’endémisme chez les végétaux vasculaires dans la péninsule de l’Edough (Nord-Est algérien). Thèse de doctorat, spécialité Biologie végétale et environnement. Université Badji Mokhtar Annaba. Algerie . Honegger, R. 1991. Functional aspects of the lichen symbiosis. Annu. Rev. Plant Biol. 42(1): 553-578. http://fsnv.univ-tiaret.dz/revues.php
Humphrey, J.W., Davey, S., Peace, A.J, Ferris, R. & Harding, K. 2012. Lichens and bryophyte communities of planted and semi-natural forests in Britain: the influence of site type, stand structure and deadwood. Biol. Cons. 107(2): 165-80.
Kirk, P., Cannon, P.F., Minter, D.W. & Stalpers, J.A. 2008. Ainsworth & Bisby’s dictionary of the Fungi. 10th edn CAB International, Wallingford, UK.
Lanza, B. 1984. Sul significato biogeographico delle isole fossili, con particolare riferimento all’arcipelago Pliocenico della Toscana. Atti Soc. Ital. Sci. Nat. 125: 145-158.
LIAS light - A database for rapid identification of lichens, available from -liaslight.lias.net/. (January 2016).
Llop, E., Pinho, P., Matos, P., Pereira, M.J. & Branquinho, C. 2012. The use of lichen functional groups as indicators of air quality in a Mediterranean urban environment. Ecol. Indic. 13(1): 215-221.
Nascimbene, J., Marini, L., Motta, R. & Nimis, P. 2009. Influence of tree age, tree size and crown structure on lichen communities in mature Alpine spruce forests. Biodivers. Conser. 18(6): 1509-22.
Nash, T.H. 1996. Lichen biology, Cambridge University Press: Cambridge.
Ozenda, P. & Clauzade, G. 1970. Les lichens. Etude biologique et flore illustrée. Ed. Masson et Cie. Paris, France.
Öztürk, S. & Oran, S. 2011. Investigations on the bark pH and epiphytic lichen diversity of Quercus taxa found in Marmara Region. JABS 5(1): 27-33.
Palmqvist, K., Dahlman, L., Jonsson, A. & Nash III, T.H. 2008. The carbon economy of lichens: 182-215. In: T.H. Nash III (ed.), Lichen Biology. Cambridge University Press, Cambridge, U.K.
Paoli, L., Guttová, A., Grassi, A., Lackovičová, A., Senko, D. & Loppi, S. 2014. Biological effects of airborne pollutants released during cement production assessed with lichens (SW Slovakia). Ecol. Indicators 40: 127-135.
Poiret, J.L.M. 1789. Voyage en Barbarie, ou lettres écrites de l’ancienne Numidie pendant les années 1785 et 1786, sur la religion, les coutumes et les moeurs des Maures et les Arabes-Bedouins. 1. Botanic Garden and Botanical Museum Berlin-Dahlem.
Ranković, B. & Kosanić, M. 2015. Lichens as a potential source of bioactive secondary metabolites: 1-26. In: B. Rankovic (Ed.) Lichen secondary metabolites: bioactive properties and pharmaceutical potential. Springer International Publishing, London.
Rundel, P.W. 1978. The ecological role of secondary lichen substances. Biochem. System. Ecol. 6(3): 157- 170.
Saboua, T. 2010. Origines de la pollution hydrique et atmospherique dans la plaine ouest de la región d’Annaba. thesis of magister. University of Annaba.
Serradj, A.A.M., El Oualidi, J., Slimani, A. Boumedris, Z., Ali Ahmed Serradj, M. El Oualidi, J. Slimani, A. Boumedris, Z. 2013. Contribution to the lichens inventory from the Oubeira lake (NE Algeria) Contribution à l’inventaire des lichens du lac Oubeira (NE de l’Algérie). Bull. l’Institut Scient., Rabat, Section Sciences de la Vie 35: 15-17.
Slimani, A., Serradj, A.A.M., Hamel, T. & Coste, C. 2013. Contribution à l’étude de la flore lichénique dans la zènaie de Bougous (forêt de Ramel Toual) au niveau du Parc National d’El Kala (P.N.E.K.) - Nord Est Algérien. Rev. Sci. Technol., Synthèse 27: 22-29.
Toubal, A. & Toubal, O. 1998. Roche-mère et végétation du massif de l’Edough: segment de la chaîne alpine de l’Algérien orientale. Ecologia Méditerranea 29: 207-214.
Toubal-Boumaza, O. 1986. Phytoécologie, biogéographie et dynamique des principaux groupements végétaux du massif de l’Edough (Algérie Nord orientale). 1/25000ème. U.S.T.M. Univ. Grenoble, France. Doct. 3éme cycle. 111p. RL: http://www.bioone.org/doi/full/10.3372/wi.45.45102
Van Haluwyn, C. & Asta, J. 2009. Guide des lichens de France. Belin, Paris.
Van Herk, C.M., Aptroot, A. & van Dobben, H.F. 2002. Long-term monitoring in the Netherlands suggests that lichens respond to global warming. Lichenologist 34: 141-154.
op_doi https://doi.org/10.5209/BOCM.61381
https://doi.org/10.3372/wi.45.45102
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spelling ftunicmadridrev:oai:ojs.pkp.sfu.ca:article/61381 2023-05-15T14:28:25+02:00 Lichen diversity in the Edough Peninsula, North East of Algeria Diversidad liquénica en la península Edough, noreste de Argelia Ahmed Monia, Ali Rafika, Brakni Tarek, Hamel 2018-10-19 application/pdf https://revistas.ucm.es/index.php/BOCM/article/view/61381 https://doi.org/10.5209/BOCM.61381 eng eng Ediciones Complutense https://revistas.ucm.es/index.php/BOCM/article/view/61381/4564456548024 Adamo, P., Violante, P. 2000. Weathering of rocks and neogenesis of minerals associated with lichen activity. Appl. Clay Sci. 16: 229-256. Ait hammou M., Mara, M.D, Rebbas K., Slimani A., Ravera S., Hamer el ain, A.S. 2014. Mise à jour de l’inventaire des lichens d’Algérie. Revue Ecologie Environnement 10: 1112-5888. Amrani, S., Nacer, A., Noureddine, N.E., & Seaward, M.R. 2015. Lichenological exploration of Algeria: historical overview and annotated bibliography, 1799-2013. Willdenowia 45(1): 15-34. Antoine, M.E. 2004. An ecophysiological approach to quantifying nitrogen fixation by Lobaria oregana. Bryologist 107(1): 82-87. Aouadi, H. 1989. La végétation de l’Algérie Nord orientale: histoire des influences anthropiques et cartographie à 1/20.000. Univ. Joseph Fourier, Grenoble 1. France. Boncina, A. 2000. Comparison of structure and biodiversity in the Rajhenav virgin forest remnant and managed forest in the Dinaric region of Slovenia. Glob. Ecol. Biog. 9(3): 201-211. Boutabia, L. Telailia, S. & de Bélair, G. 2015. Corticolous lichen flora on Quercus suber L. in the wetlands of El Kala National Park (North-Eastern Algeria). Advances in Environmental Biology ISSN-1995- 0756 EISSN-1998-1066 Journal home page: http://www.aensiweb.com/AEB/ Cornelissen, J.H.C., Callaghan, T.V., Alatalo, J.M., Michelsen, A., Graglia, E., Hartley, A.E. et al. 2001. Global change and arctic ecosystems: is lichen decline a function of increases in vascular plant biomass? J. Ecol. 89: 984-994. Desfontaines, R. 1798-1799. Flora atlantica, sive historia plantarum, quae in Atlante, agro tunetano et algeriensi crescent 2. Paris. L. G. Desgranges. http://dx.doi.org/10.3372/wi.45.45102. Dymytrova, L., Nadyeina, O., Hobi, M.L. & Scheidegger, C. 2014. Topographic and forest-stand variables determining epiphytic lichen diversity in the primeval beech forest in the Ukrainian Carpathians. Biodivers. Conserv. 23(6):1367–94. Ellis, C.J. & Coppins B.J. 2007. Changing climate and historic-woodland structure interact to control species diversity of the Lobarion epiphyte community in Scotland. J. Veg. Sci. 18: 725-734. Gauslaa, Y. 2014. Rain, dew, and humid air as drivers of morphology, function and spatial distribution in epiphytic lichens. Lichenologist 46: 1-16. Gilbert, O. & Giavarini, V. 2000. The lichen vegetation of lake margins in Britain. Lichenologist 32(4): 365-386. Hale, M.E. 1983. Cortical structure in Physcia and Phaeophyscia. Lichenologist 15(2): 157-160. Hamel, T. 2013. Contribution à l’étude de l’endémisme chez les végétaux vasculaires dans la péninsule de l’Edough (Nord-Est algérien). Thèse de doctorat, spécialité Biologie végétale et environnement. Université Badji Mokhtar Annaba. Algerie . Honegger, R. 1991. Functional aspects of the lichen symbiosis. Annu. Rev. Plant Biol. 42(1): 553-578. http://fsnv.univ-tiaret.dz/revues.php Humphrey, J.W., Davey, S., Peace, A.J, Ferris, R. & Harding, K. 2012. Lichens and bryophyte communities of planted and semi-natural forests in Britain: the influence of site type, stand structure and deadwood. Biol. Cons. 107(2): 165-80. Kirk, P., Cannon, P.F., Minter, D.W. & Stalpers, J.A. 2008. Ainsworth & Bisby’s dictionary of the Fungi. 10th edn CAB International, Wallingford, UK. Lanza, B. 1984. Sul significato biogeographico delle isole fossili, con particolare riferimento all’arcipelago Pliocenico della Toscana. Atti Soc. Ital. Sci. Nat. 125: 145-158. LIAS light - A database for rapid identification of lichens, available from -liaslight.lias.net/. (January 2016). Llop, E., Pinho, P., Matos, P., Pereira, M.J. & Branquinho, C. 2012. The use of lichen functional groups as indicators of air quality in a Mediterranean urban environment. Ecol. Indic. 13(1): 215-221. Nascimbene, J., Marini, L., Motta, R. & Nimis, P. 2009. Influence of tree age, tree size and crown structure on lichen communities in mature Alpine spruce forests. Biodivers. Conser. 18(6): 1509-22. Nash, T.H. 1996. Lichen biology, Cambridge University Press: Cambridge. Ozenda, P. & Clauzade, G. 1970. Les lichens. Etude biologique et flore illustrée. Ed. Masson et Cie. Paris, France. Öztürk, S. & Oran, S. 2011. Investigations on the bark pH and epiphytic lichen diversity of Quercus taxa found in Marmara Region. JABS 5(1): 27-33. Palmqvist, K., Dahlman, L., Jonsson, A. & Nash III, T.H. 2008. The carbon economy of lichens: 182-215. In: T.H. Nash III (ed.), Lichen Biology. Cambridge University Press, Cambridge, U.K. Paoli, L., Guttová, A., Grassi, A., Lackovičová, A., Senko, D. & Loppi, S. 2014. Biological effects of airborne pollutants released during cement production assessed with lichens (SW Slovakia). Ecol. Indicators 40: 127-135. Poiret, J.L.M. 1789. Voyage en Barbarie, ou lettres écrites de l’ancienne Numidie pendant les années 1785 et 1786, sur la religion, les coutumes et les moeurs des Maures et les Arabes-Bedouins. 1. Botanic Garden and Botanical Museum Berlin-Dahlem. Ranković, B. & Kosanić, M. 2015. Lichens as a potential source of bioactive secondary metabolites: 1-26. In: B. Rankovic (Ed.) Lichen secondary metabolites: bioactive properties and pharmaceutical potential. Springer International Publishing, London. Rundel, P.W. 1978. The ecological role of secondary lichen substances. Biochem. System. Ecol. 6(3): 157- 170. Saboua, T. 2010. Origines de la pollution hydrique et atmospherique dans la plaine ouest de la región d’Annaba. thesis of magister. University of Annaba. Serradj, A.A.M., El Oualidi, J., Slimani, A. Boumedris, Z., Ali Ahmed Serradj, M. El Oualidi, J. Slimani, A. Boumedris, Z. 2013. Contribution to the lichens inventory from the Oubeira lake (NE Algeria) Contribution à l’inventaire des lichens du lac Oubeira (NE de l’Algérie). Bull. l’Institut Scient., Rabat, Section Sciences de la Vie 35: 15-17. Slimani, A., Serradj, A.A.M., Hamel, T. & Coste, C. 2013. Contribution à l’étude de la flore lichénique dans la zènaie de Bougous (forêt de Ramel Toual) au niveau du Parc National d’El Kala (P.N.E.K.) - Nord Est Algérien. Rev. Sci. Technol., Synthèse 27: 22-29. Toubal, A. & Toubal, O. 1998. Roche-mère et végétation du massif de l’Edough: segment de la chaîne alpine de l’Algérien orientale. Ecologia Méditerranea 29: 207-214. Toubal-Boumaza, O. 1986. Phytoécologie, biogéographie et dynamique des principaux groupements végétaux du massif de l’Edough (Algérie Nord orientale). 1/25000ème. U.S.T.M. Univ. Grenoble, France. Doct. 3éme cycle. 111p. RL: http://www.bioone.org/doi/full/10.3372/wi.45.45102 Van Haluwyn, C. & Asta, J. 2009. Guide des lichens de France. Belin, Paris. Van Herk, C.M., Aptroot, A. & van Dobben, H.F. 2002. Long-term monitoring in the Netherlands suggests that lichens respond to global warming. Lichenologist 34: 141-154. Botanica Complutensis; Vol. 42 (2018); 9-18 1988-2874 0214-4565 Lichens; North Africa. líquenes; norte de Africa. info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Artículo revisado por pares 2018 ftunicmadridrev https://doi.org/10.5209/BOCM.61381 https://doi.org/10.3372/wi.45.45102 2019-06-15T07:04:32Z This study was carried out with the aim of enriching the list of lichens of Algeria, for this reason we have prospected 2 stations “Les Cascades des Vautours” and “Dar smayer” at 442 and 856 m of altitude, Edough Peninsula on the North East Algerian coast. The annual precipitation is relatively abundant, of the order of 1000 mm. Seventythree taxa were registered belonging to 15 families of which 8 taxa: Cladonia cervicornis subsp. verticillata (Hoffm.) Ahti, C. ramulosa (With.) J.R. Laundon, C. humilis (With.) J.R. Laundon, Nephroma parile (Ach.) Ach., Parmelinopsis afrorevoluta (Krog & Swinscow) Elix & Hale, Ramalina siliquosa (Huds.) A.L. Sm., Usnea esperantiana P. Clerc and Xanthoparmelia conspersa (Ehrh. ex Ach.) Hale, which were never mentioned in Algerian lichen flora. Se ha realizado este estudio con el objetivo de enriquecer la lista de líquenes de Argelia donde se han prospectado 2 estaciones “Les Cascades de Vautours” y “Dar smayer” situadas a 442 y 856 m de altitud respectivamente de la Península de Edough en el NE de Argelia. La precipitación anual es abundante y cercana a los 1000 mm. Se han encontrado 73 taxones pertenecientes a 15 familias diferentes, con 8 taxones: Cladonia cervicornis subsp. Verticillata (Hoffm.) Ahti, C. ramulosa (With.) J.R. Laundon, C. humilis (With.) J.R. Laundon, Nephroma parile (Ach.) Ach., Parmelinopsis afrorevoluta (Krog & Swinscow) Elix & Hale, Ramalina siliquosa (Huds.) A.L. Sm., Usnea esperantiana P. Clerc y Xanthoparmelia conspersa (Ehrh. ex Ach.) Hale, que constituyen novedad para la flora liquénica argelina. Article in Journal/Newspaper Arctic Universidad Complutense de Madrid (UCM): Revistas Científicas Complutenses Hale ENVELOPE(-86.317,-86.317,-78.067,-78.067) Botanica Complutensis 42 9 18

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