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Karaburun Yarımadası'nda (İzmir, Türkiye) Liken Biyoindikasyonu

Year 2010, Volume: 1 Issue: 2, 13 - 23, 02.07.2012

References

  • Asta J ., Erhardt W., Ferretti M., Fomasier F., Kirschbaum U., Nimis P.L., Purvis O.W., Pirintsos S., Scheidegger C., van Haluwyn C., Wirth V., Mapping lichen diversity as an indicator of environmental quality, in Nimis P.L., Scheidegger C.., Wolseley P.A. (eds.): Monitoring with Lichens - Monitoring Lichens, Nato Science Series. IV. Earth and Environmental Sciences, KluwerAcademic Publishers, Dordrecht, 273—279 (2002a).
  • Asta J ., Erhardt W., Ferretti M., Fomasier F., Kirschbaum U., Nimis P.L., Purvis O.W., Pirintsos S., Scheidegger C., van Haluwin C., Wirth V., European guideline for mapping lichen diversity as an indicator of environmental stress, <http://www.thebls.org.uk/eumap.pdf> (2002b).
  • Asta J ., Rolley F., Biodiversite' et bioindication lichénique: qualite 'de l’air dans l'agglome 'ration Grenobloise, Bull. Int. Assoc. Fr. Lichénol., 3, 121—126 (1999).
  • Brown D.H., Di Meo J.A., Influence of local maritime conditions on the distribution of two epiphytic lichens, Lichenologist, 5, 305—310(1972).
  • Conti M.E., Cecchetti G., Biological monitoring: Lichens as bioindicators of air pollution assessment - a review, Environm. Poll, 114, 471—492 (2001).
  • Figueira R., Catarino F., Pacheco A.M.G., SousaA.J., In situ studies on sea-salt uptake by epiphytic lichens, Sauteria, 9, 143—150 (1998a).
  • Figueira R., Pacheco A.M.G., Sousa A.] ., Catarino F., Biological monitoring of airborne salinity through epiphytic lichens, RevistaBiol. (Lisboa), 17, 3—12 (1998b).
  • Figueira R., Sousa A.J., Pacheco A.M.G., Catarino F., Saline variability at ground level after kriging data from Ramalina spp. Biomonitors, Sci. Total Environ, 232, 3—11 (1999a).
  • Figueira R., Sousa A.] ., Pacheco A.M.G., Catarino F., Variability of sea-salt deposition assessed by lichen monitoring in the south-west Portuguese coast, in Brebbia C.A., Jacobson M., Power H. (eds.), Air Pollution VII. WIT Press, Boston, 599—607 (1999b).
  • Figueira R., Sousa A.J., Brown D.H., Catarino F., Pacheco A.M.G.,Natural levels of saline elements in lichens: determination of cellular fractions and their importance as saline tracers. Lichenologist, 31, 183—196 (1999c).
  • Figueira R., Pacheco A.M.G., Sousa A.] ., Branquinho C., Catarino F., First studies in assessing cryptogamic epiphytes as biomonitors of sea-salt deposition density, in: Brebbia C.A., Power H. (eds.), Air Pollution 111 Volume 2 Air Pollution Engineering and Management, Computational Mechanics Publications. Southamton, 43 1—438 (1995).
  • Gombeıt S ., Asta J. , Seaward M.R.D. , Assessment of lichen diversity of index of atmospheric purity (IAP), index of human impact (IHI) and other environmental factors in an urban area (Grenoble, southeastFrance), Sci. Total Environm., 324, 183—199 (2004).
  • Grube M., Blaha J ., Halotolerance and lichen symbioses, in Gunde—Cimerman N., Oren A., Plemenitas A. (eds), Adaptation to Life atHigh Salt Concentrations inArchaea, Bacteria and Eukarya, Springer Verlag, Dordrecht, 471—488 (2005).
  • John V., Epiphytic lichens, climate and air pollution, in Öztürk M. (ed.), Plant and pollutants in developed and developing countries, 321—333 (1989).
  • Karaburun Municipality, <http://www.karaburun.bel.tr/> (2010).
  • Loppi S., Nascimbene J., Lichen bioindication of air quality in the Mt. Amiata geothermal area (Tuscany, Italy), Geothermics, 27(3), 295—304 (1998).
  • Nash T.H. III, Lange O.L., Responses of lichens to salinity: Concentration and time-course relationships and variability among Californian species, New Phytol., 109: 361—367 (1988).
  • Nimis P.L., Castello M., Perotti M., Lichens as biomonitors of sulfur dioxide pollution in La Spezia (Northern Italy), Lichenologist, 22, 333—344 (1990).
  • ÖzdemirA., Bilecik şehri epiŞtik likenlerinin kükürtdioksit (S0,) kirliliğine bağlı olarak dağılışı, Turkish J. Bot., 16, 177—185 (1992).
  • Öztürk Ş., Güvenç Ş., Aslan A., Distribution of epiphytic lichens and sulŞtrdioxide (so,) pollution in the city of Bursa, Turkish J. Bot., 21, 211—215 (1997).
  • Pacheco A.M.G., Figueira R., Sousa A.] ., Mauricio A.M., Catarino F., An overview of airborne salinity and trends in sea-salt deposition to a coastal environment. Actas II Congresso Ibérico de Geoquimica / XI Semana de Geoquimica. Instituto Superior Técnico, Lisbon, 417—420 (1999).
  • Scerbo R., Ristori T., Possenti L., Lampugnani L., Barale R., Barghigiani C., Lichen (Xanthoria parietina) biomonitoring of trace element contamination and air quality assessment in Pisa Province (Tuscany, Italy), Sci. Total Environm., 286, 27—40 (2002).
  • Semander R., Studier öfer lafvarnes biologi, Svenska Bot Tidskız, Stockholm (1926).
  • Sommerfeldt M., John V., Evaluation of a method for the reassessment of air quality by lichen mapping in the city of Izmir; Turkey, Turkish J. Bot., 25, 45—55 (2001).
  • Türe C., Eskişehir il merkezindeki liken türlerinin hava kirliliğine bağlı olarak dağılımı, Turkish J. Bot., 17, 249—253 (1993).
  • VDI-Richtlinie 3799, Blatt l, Ermittlung und Beurteilung phytotoxologischer Wirkungen von Immisionen mit Flechten: F lechtenkartierung, VDI (Verein Deutscher Ingenieure), Düsseldorf (l 995).
  • Weddell H.A., Excursion lichenologique dans l'ile d 'Yeu sur la cote de la Vendée. Mem. Soc. Sci. Nat. Cherbourg, 14, 251—3 16 (1875).
  • Yazıcı K., Aslan A., Distribution of epiphytic lichens and air pollution in the city of Trabzon, Turkey, Bull. Environ. Contam. Toxicol., 77, 838—845 (2006).
Year 2010, Volume: 1 Issue: 2, 13 - 23, 02.07.2012

References

  • Asta J ., Erhardt W., Ferretti M., Fomasier F., Kirschbaum U., Nimis P.L., Purvis O.W., Pirintsos S., Scheidegger C., van Haluwyn C., Wirth V., Mapping lichen diversity as an indicator of environmental quality, in Nimis P.L., Scheidegger C.., Wolseley P.A. (eds.): Monitoring with Lichens - Monitoring Lichens, Nato Science Series. IV. Earth and Environmental Sciences, KluwerAcademic Publishers, Dordrecht, 273—279 (2002a).
  • Asta J ., Erhardt W., Ferretti M., Fomasier F., Kirschbaum U., Nimis P.L., Purvis O.W., Pirintsos S., Scheidegger C., van Haluwin C., Wirth V., European guideline for mapping lichen diversity as an indicator of environmental stress, <http://www.thebls.org.uk/eumap.pdf> (2002b).
  • Asta J ., Rolley F., Biodiversite' et bioindication lichénique: qualite 'de l’air dans l'agglome 'ration Grenobloise, Bull. Int. Assoc. Fr. Lichénol., 3, 121—126 (1999).
  • Brown D.H., Di Meo J.A., Influence of local maritime conditions on the distribution of two epiphytic lichens, Lichenologist, 5, 305—310(1972).
  • Conti M.E., Cecchetti G., Biological monitoring: Lichens as bioindicators of air pollution assessment - a review, Environm. Poll, 114, 471—492 (2001).
  • Figueira R., Catarino F., Pacheco A.M.G., SousaA.J., In situ studies on sea-salt uptake by epiphytic lichens, Sauteria, 9, 143—150 (1998a).
  • Figueira R., Pacheco A.M.G., Sousa A.] ., Catarino F., Biological monitoring of airborne salinity through epiphytic lichens, RevistaBiol. (Lisboa), 17, 3—12 (1998b).
  • Figueira R., Sousa A.J., Pacheco A.M.G., Catarino F., Saline variability at ground level after kriging data from Ramalina spp. Biomonitors, Sci. Total Environ, 232, 3—11 (1999a).
  • Figueira R., Sousa A.] ., Pacheco A.M.G., Catarino F., Variability of sea-salt deposition assessed by lichen monitoring in the south-west Portuguese coast, in Brebbia C.A., Jacobson M., Power H. (eds.), Air Pollution VII. WIT Press, Boston, 599—607 (1999b).
  • Figueira R., Sousa A.J., Brown D.H., Catarino F., Pacheco A.M.G.,Natural levels of saline elements in lichens: determination of cellular fractions and their importance as saline tracers. Lichenologist, 31, 183—196 (1999c).
  • Figueira R., Pacheco A.M.G., Sousa A.] ., Branquinho C., Catarino F., First studies in assessing cryptogamic epiphytes as biomonitors of sea-salt deposition density, in: Brebbia C.A., Power H. (eds.), Air Pollution 111 Volume 2 Air Pollution Engineering and Management, Computational Mechanics Publications. Southamton, 43 1—438 (1995).
  • Gombeıt S ., Asta J. , Seaward M.R.D. , Assessment of lichen diversity of index of atmospheric purity (IAP), index of human impact (IHI) and other environmental factors in an urban area (Grenoble, southeastFrance), Sci. Total Environm., 324, 183—199 (2004).
  • Grube M., Blaha J ., Halotolerance and lichen symbioses, in Gunde—Cimerman N., Oren A., Plemenitas A. (eds), Adaptation to Life atHigh Salt Concentrations inArchaea, Bacteria and Eukarya, Springer Verlag, Dordrecht, 471—488 (2005).
  • John V., Epiphytic lichens, climate and air pollution, in Öztürk M. (ed.), Plant and pollutants in developed and developing countries, 321—333 (1989).
  • Karaburun Municipality, <http://www.karaburun.bel.tr/> (2010).
  • Loppi S., Nascimbene J., Lichen bioindication of air quality in the Mt. Amiata geothermal area (Tuscany, Italy), Geothermics, 27(3), 295—304 (1998).
  • Nash T.H. III, Lange O.L., Responses of lichens to salinity: Concentration and time-course relationships and variability among Californian species, New Phytol., 109: 361—367 (1988).
  • Nimis P.L., Castello M., Perotti M., Lichens as biomonitors of sulfur dioxide pollution in La Spezia (Northern Italy), Lichenologist, 22, 333—344 (1990).
  • ÖzdemirA., Bilecik şehri epiŞtik likenlerinin kükürtdioksit (S0,) kirliliğine bağlı olarak dağılışı, Turkish J. Bot., 16, 177—185 (1992).
  • Öztürk Ş., Güvenç Ş., Aslan A., Distribution of epiphytic lichens and sulŞtrdioxide (so,) pollution in the city of Bursa, Turkish J. Bot., 21, 211—215 (1997).
  • Pacheco A.M.G., Figueira R., Sousa A.] ., Mauricio A.M., Catarino F., An overview of airborne salinity and trends in sea-salt deposition to a coastal environment. Actas II Congresso Ibérico de Geoquimica / XI Semana de Geoquimica. Instituto Superior Técnico, Lisbon, 417—420 (1999).
  • Scerbo R., Ristori T., Possenti L., Lampugnani L., Barale R., Barghigiani C., Lichen (Xanthoria parietina) biomonitoring of trace element contamination and air quality assessment in Pisa Province (Tuscany, Italy), Sci. Total Environm., 286, 27—40 (2002).
  • Semander R., Studier öfer lafvarnes biologi, Svenska Bot Tidskız, Stockholm (1926).
  • Sommerfeldt M., John V., Evaluation of a method for the reassessment of air quality by lichen mapping in the city of Izmir; Turkey, Turkish J. Bot., 25, 45—55 (2001).
  • Türe C., Eskişehir il merkezindeki liken türlerinin hava kirliliğine bağlı olarak dağılımı, Turkish J. Bot., 17, 249—253 (1993).
  • VDI-Richtlinie 3799, Blatt l, Ermittlung und Beurteilung phytotoxologischer Wirkungen von Immisionen mit Flechten: F lechtenkartierung, VDI (Verein Deutscher Ingenieure), Düsseldorf (l 995).
  • Weddell H.A., Excursion lichenologique dans l'ile d 'Yeu sur la cote de la Vendée. Mem. Soc. Sci. Nat. Cherbourg, 14, 251—3 16 (1875).
  • Yazıcı K., Aslan A., Distribution of epiphytic lichens and air pollution in the city of Trabzon, Turkey, Bull. Environ. Contam. Toxicol., 77, 838—845 (2006).
There are 28 citations in total.

Details

Primary Language Turkish
Journal Section MYCOLOGY
Authors

Ayhan Şenkardeşler This is me

Veysel Aysel This is me

Publication Date July 2, 2012
Published in Issue Year 2010 Volume: 1 Issue: 2

Cite

APA Şenkardeşler, A., & Aysel, V. (2012). Karaburun Yarımadası’nda (İzmir, Türkiye) Liken Biyoindikasyonu. Mantar Dergisi, 1(2), 13-23.

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