Araştırma Makalesi
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Yıl 2022, Cilt: 38 Sayı: 3, 458 - 475, 30.12.2022

Öz

Destekleyen Kurum

TÜBİTAK

Proje Numarası

118Z587

Teşekkür

The third author thanks Erciyes University for their financial support to conduct the field work on James Ross Island, Antarctica, and ITU Polrec for their support. The first author is thankful for the infrastructure and facilities of J.G. Mendel station. This work was financially supported by The Scientific and Technological Research Council of Turkey-TÜBITAK (Project Number 118Z587).

Kaynakça

  • Alstrup, V., Hansen, E. S., Daniels, F. J. 2000. Lichenized, lichenicolous and other fungi from North and North-East Greenland. Folia Cryptogamica Estonica, 37, 1-20.
  • Andersen, H. L., & Ekman, S. 2005. Disintegration of the Micareaceae (lichenized Ascomycota): a molecular phylogeny based on mitochondrial rDNA sequences. Mycological Research, 109(1), 21-30.
  • Cannone, N., Seppelt, R. 2008. A preliminary floristic classification of southern and northern Victoria Land vegetation, continental Antarctica. Antarctic Science, 20(6), 553-562.
  • Castello, M., Martellos, S., Nimis, P. L. 2006. VICTORIA: an on-line information system on the lichens of Victoria Land (Continental Antarctica). Polar Biology, 29(7), 604-608.
  • Colesie, C., Gommeaux, M., Green, T. A., Büdel, B. 2014a. Biological soil crusts in continental Antarctica: Garwood Valley southern Victoria Land, and Diamond Hill, Darwin Mountains region. Antarctic Science, 26(2), 115-123.
  • Davydov, E. A., & Yakovchenko, L. S. 2017. Rhizocarpon smaragdulum, a new monosporic yellow-thalline species and some additional species of the genus Rhizocarpon from the Altai Mountains (Siberia). The Lichenologist, 49(5), 457-466.
  • Elvebakk, A., & Bjerke, J. W. 2006. The Skibotn area in North Norway–an example of very high lichen species richness far to the north: A supplement with an annotated list of species. Mycotaxon, 96, 141-146.
  • Ertz, D., Poulsen, R. S., Charrier, M., & Søchting, U. 2017. Taxonomy and phylogeny of the genus Steinera (Arctomiales, Arctomiaceae) in the subantarctic islands of Crozet and Kerguelen. Phytotaxa, 324(3), 201-238.
  • Esslinger, T. L., McCune, B., & Haughland, D. L. 2017. Physconia labrata, a new species from western North America and Asia. The Bryologist, 120(4), 427-434.
  • Favero-Longo, S. E., Worland, M. R., Convey, P., Smith, R. I. L., Piervittori, R., Guglielmin, M., Cannone, N. 2016. Primary succession of lichen and bryophyte communities following glacial recession on Signy Island, South Orkney Islands, Maritime Antarctic. Antarctic Science, 24(4), 323-336.
  • Fryday, A. M. 2000. On Rhizocarpon obscuratum (Ach.) Massal., with notes on some related species in the British Isles. The Lichenologist, 32(3), 207-224.
  • Fryday, A. M. 2003. Additional lichen records from New Zealand 31. Australasian Lichenology, 46, 36-40.
  • Fryday, A. M. 2006. New and interesting North American lichen records from the alpine and sub-alpine zones of Mt. Katahdin, Maine. The Bryologist, 109(4), 570-579.
  • Gardes, M., & Bruns, T. D. 1993. ITS primers with enhanced specificity for basidiomycetes‐application to the identification of mycorrhizae and rusts. Molecular ecology, 2(2), 113-118.
  • Gilbert, O. L., Fryday, A. M. 1996. Observations on the lichen flora of high ground in the west of Ireland. The Lichenologist, 28(2), 113-127.
  • Green, T. A., Seppelt, R. D., Brabyn, L. R., Beard, C., Türk, R., Lange, O. L. 2015. Flora and vegetation of Cape Hallett and vicinity, northern Victoria Land, Antarctica. Polar Biology, 38(11), 1825-1845.
  • Halıcı, M. G. 2017. Similarities of Lichen biodiversity in Erciyes Mountain (Kayseri, Turkey) and James Ross Island (Antarctica). SEAB-2017, Ukraine. https://elib.bsu.by/handle/123456789/180475 (Access date: 01.07.2022).
  • Halıcı, M. G., Barták, M. 2019. Sphaerellothecium reticulatum (Zopf) Etayo, a new lichenicolous fungus for Antarctica. Czech Polar Reports, 9(1), 13-19.
  • Halıcı, M. G., Barták, M., Güllü, M. 2018. Identification of some lichenised fungi from James Ross Island (Antarctic Peninsula) using nrITS markers. New Zealand journal of botany, 56(3), 276-290.
  • Halıcı, M. G., Fryday, A., Kahraman Yiğit, M. & Avcı, F. N. 2022c. An acid deficient population of Lambiella psephota from Antarctica and a new combination in the genus from Campbell Island with a world-wide key to the genus. Biological Diversity and Conservation, 15(1), 1-9.
  • Halıcı, M. G., Güllü, M., Barták, M. 2017. First record of a common endolithic lichenized fungus species Catenarina desolata Søchting, Søgaard Elvebakk. from James Ross Island (Antarctic Peninsula). Czech Polar Reports, 7(1), 11-17.
  • Halıcı, M. G., Güllü, M., Yiğit, M. K., & Barták, M. 2022a. Three new records of lichenised fungi for Antarctica. Polar Record, 58, e22.
  • Halıcı, M. G., Kahraman, M. 2021. Antarktika Karasal Vejetasyonunun En Baskın Elemanları: Likenleşmiş Mantarlar ve İklim Değişikliğinin İzlenmesinde Kullanılmaları, ss. 89-96. In Salihoğlu, B., Öztürk, B. (Eds). İklim Değişikliği ve Türkiye Denizleri Üzerine Etkileri. Ankara: ODTÜ Deniz Bilimleri Enstitüsü Türk Deniz Araştırmaları Vakfı, 275s.
  • Halıcı, M. G., Kahraman, M., Scur, M. C., & Kitaura, M. J. 2021. Leptogium pirireisii, a new species of lichenized Ascomycota (Collemataceae) from James Ross Island in Antarctica. New Zealand Journal of Botany, 1-9.
  • Halici, M. G., Möller, E., Timdal, E., Yiğit, M. K., & Bölükbaşi, E. 2022b. Rhizocarpon ozsoyae sp. nova (Rhizocarpaceae, lichenized Ascomycetes) from James Ross Island (Antarctic Peninsula). Herzogia, 35(1), 105-114.
  • Halıcı, M. G., Osmanoğlu, O. M., Kahraman, M. 2020. A new record of lichenized fungus species for Antarctica: Peltigera castanea Goward, Goffinet Miądl. Czech Polar Reports Journal, 10(1), 50-58.
  • Halıcı, M. G., Vondrák, J., Demirel, R., Ceylan, A., & Candan, M. (2014). Teloschistaceae (lichenized Ascomycetes) in Turkey II.–Some poorly known taxa. Supported by molecular data. Nova Hedwigia, 98(3-4), 449-458.
  • Hall, T. 1999. BioEdit: a user-friendly biological sequence alignment editor and analysis program for Windows 95/98/NT. In Nucleic Acids Symposium Series, 41, 95-98.
  • James, P. W. 1965. A new check-list of British lichens. The Lichenologist, 3(1), 95-153.
  • Kahraman Yiğit, M., & Halıcı, M. G. 2021. Buellia epigaea (Pers.) Tuck, a new record of lichenized fungus species for Antarctica. Czech Polar Reports, 11(1), 9-15.
  • Kelman, E. 2015. Wildlife Colonies in the Ross Sea. Supervised Project Report (ANTA604), https://ir.canterbury.ac.nz/handle/10092/14110 (Access date: 01.07.2022).
  • Kim, J. H., Ahn, I. Y., Hong, S. G., Andreev, M., Lim, K. M., Oh, M. J., Hur, J. S. 2006. Lichen flora around the Korean Antarctic Scientific Station, King George Island, Antarctic. The Journal of Microbiology, 44(5), 480-491.
  • Kitaura, M. J., Costa, P. C., Scur, M. C., & Lorenz, A. P. 2019. Genetic and morphological variations of the lichenized fungus Steinera intricata (Arctomiaceae, Lecanoromycetes) from southern South America to Antarctic Peninsula. Polar Biology, 42(5), 907-918.
  • Kristinsson, H. 1999. Gróðurbreytingar á klapparsamfélögum við Hvalfjörð frá 1976 til 1997. Gróðurfar; Umhverfisáhrif; Hvalfjörður. http://utgafa.ni.is/skyrslur/1999/NI-99001.pdf (Access date: 01.07.2022).
  • Kristinsson, H., Hansen, E. S., Zhurbenko, M. 2006. Pan-Arctic Lichen Checklist. Conservation of Arctic Flora and Fauna Working Group (CAFF), Akureyri, Iceland, 123p.
  • Lücking, R., Stuart, B. L., & Lumbsch, H. T. 2004. Phylogenetic relationships of Gomphillaceae and Asterothyriaceae: evidence from a combined Bayesian analysis of nuclear and mitochondrial sequences. Mycologia, 96(2), 283-294.
  • McCarthy, P., Elix, J. 2014. The lichen genus Rhizocarpon in mainland Australia. Telopea, 16, 195-211.
  • Miller, N. G., Fryday, A. M., Hinds, J. W. 2005. Bryophytes and lichens of a calcium-rich spring seep isolated on the granitic terrain of Mt. Katahdin, Maine, USA. Rhodora, 107(932), 339-359.
  • Nayaka, S., Upretı, D. 2019. Diversity and ecophysiology of lichens in Schirmacher Oasis, Antarctica. Twenty Eighth Indian Antarctic Expedition 2008 Ministry of Earth Sciences. Technical Publication No. 26, 305-326.
  • Olech, M. 1989. Lichens from the Admiralty Bay region, King George Island (South Shetland Islands, Antarctica). Acta Societatis Botanicorum Poloniae, 58(3), 493-512.
  • Olech, M. 1994. Lichenological assessment of the Cape Lions Rump, King George Island, South Shetland Islands; a baseline for monitoring biological changes. Polish Polar Research, 15(3-4), 111-130.
  • Olech, M., Słaby, A. 2012. The lichen biota of Antarctic Specially Protected Area No. 151, Lions Rump (King George Island). In: Lichen protection-Protected lichen species. Sonar Literacki, Gorzów Wielkopolski, pp. 67-79.
  • Orekhova, A, Marečková, M, Hazdrová, J, Barták, M. 2018. The effect of upper cortex absence on spectral reflectance indices in Antarctic lichens during thallus dehydration. Czech Polar Reports, 8, 107-118.
  • Øvstedal, D. O., Lewis-Smith, R. I. 2001. Lichens of Antarctica and South Georgia. A Guide to Their Identification and Ecology. Cambridge: Cambridge University Press, 411p.
  • Pereira, A. B., Spielmann, A. A., Martins, M. F. N., Francelino, M. R. 2007. Plant communities from ice-free areas of Keller Peninsula, King George İsland, Antarctica. Oecologia Brasiliensis, 11(1), 14-22.
  • Putzke, J. 2020. Bryophytes and their Associates in South Shetland Islands-Antarctica. Contemporary Research on Bryophytes, 1, 8-19.
  • Rivera, M. S, Perez Catán, S, Di Fonzo, C. I, Dopchiz, L, Arribere, M. A, Ansaldo, M, Bubach, D. F. 2018. Lichen as biomonitor of atmospheric elemental composition from Potter Peninsula, 25 de Mayo (King George) Island, Antarctica. Ann Mar Sci, 2(1), 009-015.
  • Rodriguez, J. M., Passo, A., Chiapella, J. O. 2018. Lichen species assemblage gradient in South Shetlands Islands, Antarctica: relationship to deglaciation and microsite conditions. Polar Biology, 41(12), 2523-2531.
  • Roux, C. 2012. Liste des lichens et champignons lichénicoles de France. Bulletin de la Société linnéenne de Provence Numéro spécial, 16, 1-220.
  • Schmitz, D., Putzke, J., de Albuquerque, M. P., Schünemann, A. L., Vieira, F. C. B., Victoria, F. D. C., Pereira, A. B. 2018. Description of plant communities on Half Moon Island, Antarctica. Polar Research, 37(1), 1523663.
  • Smith, R. I. L. 1993. The vegetation of Cockburn Island, Antarctica. Polar Biology, 13, 535–542.
  • Stewart, J. 2011. Antarctica: an encyclopedia (2nd Edition). McFarland Company Inc, USA, 1771p.
  • Tamura, K., Stecher, G., & Kumar, S. 2021. MEGA11: molecular evolutionary genetics analysis version 11. Molecular biology and evolution, 38(7), 3022-3027.
  • Thor, G. 1995. Reassessment of the first lichen and moss collections from Heimefrontfjella, Dronning Maud Land. Antarctic science, 7(3), 261-264.
  • van den Boom, P. P., & Alvarado, P. 2021. Catillaria flexuosa (Catillariaceae), a new lichen species described from the Netherlands. The Lichenologist, 53(2), 193-202.
  • Węgrzyn, M. 2008. New records of lichens and lichenicolous fungi from the Polish Tatra Mountains. Polish Botanical Journal, 53(2), 163-168.
  • White, T. J., Bruns, T., Lee, S., Taylor, J. 1990. Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetics, pp. 315-322. Innis M, A., Gelfand, D. H., Sninsky, J. J., White, T. J. (eds) PCR Protocols: a Guide to Methods and Applications,. Academic Press, New York, 482p.
  • Wirth, V., Hauck, M., Brackel, W. V., Cezanne, R., de Bruyn, U., Dürhammer, O., Schiefelbein, U. 2011. Checklist of lichens and lichenicolous fungi in Germany. Georg August University of Göttingen, Version, 2, 19.

James Ross Adası (Antarktika Yarımadası, Antarktika)'ndan Bazı Likenleşmiş Mantarların Dna Barkodlaması

Yıl 2022, Cilt: 38 Sayı: 3, 458 - 475, 30.12.2022

Öz

Antarktika’da zorlu çevresel koşullar nedeniyle canlıların yaşamı oldukça sınırlanmıştır. Zorlu çevresel koşullarda hayatta kalabilen likenleşmiş mantarlar Antarktika’nın baskın vejetasyonunu oluşturmaktadır. Antarktika’da likenleşmiş mantarların biyoçeşitliliği ile ilgili çalışmalar anatomik ve morfolojik gözlemlere dayalı olarak uzun yıllardır devam etmektedir. Ancak DNA barkodlama yöntemlerinin kullanılmasıyla son yıllarda bu çalışmalar hız kazanmaktadır ve her geçen gün yeni türler keşfedilmektedir. Öte yandan geçmişten bu yana bilinen türlerin DNA barkodlamaları da yapılmakta ve anatomik/morfolojik teşhislerin doğrulanmaktadır. Bu bağlamda bu çalışmada James Ross Adası (Antarktika Yarımadası, Antarktika)’ndan daha önce rapor edilen likenleşmiş mantar türlerinden Catillaria contristans (Nyl.) Zahlbr., Gyalidea antarctica Øvstedal & Vězda, Physconia muscigena (Ach.) Poelt, Rhizocarpon geminatum Körb., Steinera intricata (Øvstedal) Ertz ve Xanthocarpia tominii (Savicz) Frödén, Arup & Søchting türlerinin nrITS’e dayalı DNA barkodlamaları yapılmıştır. Ayrıca çalışmada türlere ait detaylı deskripsiyonlara da yer verilmiştir

Proje Numarası

118Z587

Kaynakça

  • Alstrup, V., Hansen, E. S., Daniels, F. J. 2000. Lichenized, lichenicolous and other fungi from North and North-East Greenland. Folia Cryptogamica Estonica, 37, 1-20.
  • Andersen, H. L., & Ekman, S. 2005. Disintegration of the Micareaceae (lichenized Ascomycota): a molecular phylogeny based on mitochondrial rDNA sequences. Mycological Research, 109(1), 21-30.
  • Cannone, N., Seppelt, R. 2008. A preliminary floristic classification of southern and northern Victoria Land vegetation, continental Antarctica. Antarctic Science, 20(6), 553-562.
  • Castello, M., Martellos, S., Nimis, P. L. 2006. VICTORIA: an on-line information system on the lichens of Victoria Land (Continental Antarctica). Polar Biology, 29(7), 604-608.
  • Colesie, C., Gommeaux, M., Green, T. A., Büdel, B. 2014a. Biological soil crusts in continental Antarctica: Garwood Valley southern Victoria Land, and Diamond Hill, Darwin Mountains region. Antarctic Science, 26(2), 115-123.
  • Davydov, E. A., & Yakovchenko, L. S. 2017. Rhizocarpon smaragdulum, a new monosporic yellow-thalline species and some additional species of the genus Rhizocarpon from the Altai Mountains (Siberia). The Lichenologist, 49(5), 457-466.
  • Elvebakk, A., & Bjerke, J. W. 2006. The Skibotn area in North Norway–an example of very high lichen species richness far to the north: A supplement with an annotated list of species. Mycotaxon, 96, 141-146.
  • Ertz, D., Poulsen, R. S., Charrier, M., & Søchting, U. 2017. Taxonomy and phylogeny of the genus Steinera (Arctomiales, Arctomiaceae) in the subantarctic islands of Crozet and Kerguelen. Phytotaxa, 324(3), 201-238.
  • Esslinger, T. L., McCune, B., & Haughland, D. L. 2017. Physconia labrata, a new species from western North America and Asia. The Bryologist, 120(4), 427-434.
  • Favero-Longo, S. E., Worland, M. R., Convey, P., Smith, R. I. L., Piervittori, R., Guglielmin, M., Cannone, N. 2016. Primary succession of lichen and bryophyte communities following glacial recession on Signy Island, South Orkney Islands, Maritime Antarctic. Antarctic Science, 24(4), 323-336.
  • Fryday, A. M. 2000. On Rhizocarpon obscuratum (Ach.) Massal., with notes on some related species in the British Isles. The Lichenologist, 32(3), 207-224.
  • Fryday, A. M. 2003. Additional lichen records from New Zealand 31. Australasian Lichenology, 46, 36-40.
  • Fryday, A. M. 2006. New and interesting North American lichen records from the alpine and sub-alpine zones of Mt. Katahdin, Maine. The Bryologist, 109(4), 570-579.
  • Gardes, M., & Bruns, T. D. 1993. ITS primers with enhanced specificity for basidiomycetes‐application to the identification of mycorrhizae and rusts. Molecular ecology, 2(2), 113-118.
  • Gilbert, O. L., Fryday, A. M. 1996. Observations on the lichen flora of high ground in the west of Ireland. The Lichenologist, 28(2), 113-127.
  • Green, T. A., Seppelt, R. D., Brabyn, L. R., Beard, C., Türk, R., Lange, O. L. 2015. Flora and vegetation of Cape Hallett and vicinity, northern Victoria Land, Antarctica. Polar Biology, 38(11), 1825-1845.
  • Halıcı, M. G. 2017. Similarities of Lichen biodiversity in Erciyes Mountain (Kayseri, Turkey) and James Ross Island (Antarctica). SEAB-2017, Ukraine. https://elib.bsu.by/handle/123456789/180475 (Access date: 01.07.2022).
  • Halıcı, M. G., Barták, M. 2019. Sphaerellothecium reticulatum (Zopf) Etayo, a new lichenicolous fungus for Antarctica. Czech Polar Reports, 9(1), 13-19.
  • Halıcı, M. G., Barták, M., Güllü, M. 2018. Identification of some lichenised fungi from James Ross Island (Antarctic Peninsula) using nrITS markers. New Zealand journal of botany, 56(3), 276-290.
  • Halıcı, M. G., Fryday, A., Kahraman Yiğit, M. & Avcı, F. N. 2022c. An acid deficient population of Lambiella psephota from Antarctica and a new combination in the genus from Campbell Island with a world-wide key to the genus. Biological Diversity and Conservation, 15(1), 1-9.
  • Halıcı, M. G., Güllü, M., Barták, M. 2017. First record of a common endolithic lichenized fungus species Catenarina desolata Søchting, Søgaard Elvebakk. from James Ross Island (Antarctic Peninsula). Czech Polar Reports, 7(1), 11-17.
  • Halıcı, M. G., Güllü, M., Yiğit, M. K., & Barták, M. 2022a. Three new records of lichenised fungi for Antarctica. Polar Record, 58, e22.
  • Halıcı, M. G., Kahraman, M. 2021. Antarktika Karasal Vejetasyonunun En Baskın Elemanları: Likenleşmiş Mantarlar ve İklim Değişikliğinin İzlenmesinde Kullanılmaları, ss. 89-96. In Salihoğlu, B., Öztürk, B. (Eds). İklim Değişikliği ve Türkiye Denizleri Üzerine Etkileri. Ankara: ODTÜ Deniz Bilimleri Enstitüsü Türk Deniz Araştırmaları Vakfı, 275s.
  • Halıcı, M. G., Kahraman, M., Scur, M. C., & Kitaura, M. J. 2021. Leptogium pirireisii, a new species of lichenized Ascomycota (Collemataceae) from James Ross Island in Antarctica. New Zealand Journal of Botany, 1-9.
  • Halici, M. G., Möller, E., Timdal, E., Yiğit, M. K., & Bölükbaşi, E. 2022b. Rhizocarpon ozsoyae sp. nova (Rhizocarpaceae, lichenized Ascomycetes) from James Ross Island (Antarctic Peninsula). Herzogia, 35(1), 105-114.
  • Halıcı, M. G., Osmanoğlu, O. M., Kahraman, M. 2020. A new record of lichenized fungus species for Antarctica: Peltigera castanea Goward, Goffinet Miądl. Czech Polar Reports Journal, 10(1), 50-58.
  • Halıcı, M. G., Vondrák, J., Demirel, R., Ceylan, A., & Candan, M. (2014). Teloschistaceae (lichenized Ascomycetes) in Turkey II.–Some poorly known taxa. Supported by molecular data. Nova Hedwigia, 98(3-4), 449-458.
  • Hall, T. 1999. BioEdit: a user-friendly biological sequence alignment editor and analysis program for Windows 95/98/NT. In Nucleic Acids Symposium Series, 41, 95-98.
  • James, P. W. 1965. A new check-list of British lichens. The Lichenologist, 3(1), 95-153.
  • Kahraman Yiğit, M., & Halıcı, M. G. 2021. Buellia epigaea (Pers.) Tuck, a new record of lichenized fungus species for Antarctica. Czech Polar Reports, 11(1), 9-15.
  • Kelman, E. 2015. Wildlife Colonies in the Ross Sea. Supervised Project Report (ANTA604), https://ir.canterbury.ac.nz/handle/10092/14110 (Access date: 01.07.2022).
  • Kim, J. H., Ahn, I. Y., Hong, S. G., Andreev, M., Lim, K. M., Oh, M. J., Hur, J. S. 2006. Lichen flora around the Korean Antarctic Scientific Station, King George Island, Antarctic. The Journal of Microbiology, 44(5), 480-491.
  • Kitaura, M. J., Costa, P. C., Scur, M. C., & Lorenz, A. P. 2019. Genetic and morphological variations of the lichenized fungus Steinera intricata (Arctomiaceae, Lecanoromycetes) from southern South America to Antarctic Peninsula. Polar Biology, 42(5), 907-918.
  • Kristinsson, H. 1999. Gróðurbreytingar á klapparsamfélögum við Hvalfjörð frá 1976 til 1997. Gróðurfar; Umhverfisáhrif; Hvalfjörður. http://utgafa.ni.is/skyrslur/1999/NI-99001.pdf (Access date: 01.07.2022).
  • Kristinsson, H., Hansen, E. S., Zhurbenko, M. 2006. Pan-Arctic Lichen Checklist. Conservation of Arctic Flora and Fauna Working Group (CAFF), Akureyri, Iceland, 123p.
  • Lücking, R., Stuart, B. L., & Lumbsch, H. T. 2004. Phylogenetic relationships of Gomphillaceae and Asterothyriaceae: evidence from a combined Bayesian analysis of nuclear and mitochondrial sequences. Mycologia, 96(2), 283-294.
  • McCarthy, P., Elix, J. 2014. The lichen genus Rhizocarpon in mainland Australia. Telopea, 16, 195-211.
  • Miller, N. G., Fryday, A. M., Hinds, J. W. 2005. Bryophytes and lichens of a calcium-rich spring seep isolated on the granitic terrain of Mt. Katahdin, Maine, USA. Rhodora, 107(932), 339-359.
  • Nayaka, S., Upretı, D. 2019. Diversity and ecophysiology of lichens in Schirmacher Oasis, Antarctica. Twenty Eighth Indian Antarctic Expedition 2008 Ministry of Earth Sciences. Technical Publication No. 26, 305-326.
  • Olech, M. 1989. Lichens from the Admiralty Bay region, King George Island (South Shetland Islands, Antarctica). Acta Societatis Botanicorum Poloniae, 58(3), 493-512.
  • Olech, M. 1994. Lichenological assessment of the Cape Lions Rump, King George Island, South Shetland Islands; a baseline for monitoring biological changes. Polish Polar Research, 15(3-4), 111-130.
  • Olech, M., Słaby, A. 2012. The lichen biota of Antarctic Specially Protected Area No. 151, Lions Rump (King George Island). In: Lichen protection-Protected lichen species. Sonar Literacki, Gorzów Wielkopolski, pp. 67-79.
  • Orekhova, A, Marečková, M, Hazdrová, J, Barták, M. 2018. The effect of upper cortex absence on spectral reflectance indices in Antarctic lichens during thallus dehydration. Czech Polar Reports, 8, 107-118.
  • Øvstedal, D. O., Lewis-Smith, R. I. 2001. Lichens of Antarctica and South Georgia. A Guide to Their Identification and Ecology. Cambridge: Cambridge University Press, 411p.
  • Pereira, A. B., Spielmann, A. A., Martins, M. F. N., Francelino, M. R. 2007. Plant communities from ice-free areas of Keller Peninsula, King George İsland, Antarctica. Oecologia Brasiliensis, 11(1), 14-22.
  • Putzke, J. 2020. Bryophytes and their Associates in South Shetland Islands-Antarctica. Contemporary Research on Bryophytes, 1, 8-19.
  • Rivera, M. S, Perez Catán, S, Di Fonzo, C. I, Dopchiz, L, Arribere, M. A, Ansaldo, M, Bubach, D. F. 2018. Lichen as biomonitor of atmospheric elemental composition from Potter Peninsula, 25 de Mayo (King George) Island, Antarctica. Ann Mar Sci, 2(1), 009-015.
  • Rodriguez, J. M., Passo, A., Chiapella, J. O. 2018. Lichen species assemblage gradient in South Shetlands Islands, Antarctica: relationship to deglaciation and microsite conditions. Polar Biology, 41(12), 2523-2531.
  • Roux, C. 2012. Liste des lichens et champignons lichénicoles de France. Bulletin de la Société linnéenne de Provence Numéro spécial, 16, 1-220.
  • Schmitz, D., Putzke, J., de Albuquerque, M. P., Schünemann, A. L., Vieira, F. C. B., Victoria, F. D. C., Pereira, A. B. 2018. Description of plant communities on Half Moon Island, Antarctica. Polar Research, 37(1), 1523663.
  • Smith, R. I. L. 1993. The vegetation of Cockburn Island, Antarctica. Polar Biology, 13, 535–542.
  • Stewart, J. 2011. Antarctica: an encyclopedia (2nd Edition). McFarland Company Inc, USA, 1771p.
  • Tamura, K., Stecher, G., & Kumar, S. 2021. MEGA11: molecular evolutionary genetics analysis version 11. Molecular biology and evolution, 38(7), 3022-3027.
  • Thor, G. 1995. Reassessment of the first lichen and moss collections from Heimefrontfjella, Dronning Maud Land. Antarctic science, 7(3), 261-264.
  • van den Boom, P. P., & Alvarado, P. 2021. Catillaria flexuosa (Catillariaceae), a new lichen species described from the Netherlands. The Lichenologist, 53(2), 193-202.
  • Węgrzyn, M. 2008. New records of lichens and lichenicolous fungi from the Polish Tatra Mountains. Polish Botanical Journal, 53(2), 163-168.
  • White, T. J., Bruns, T., Lee, S., Taylor, J. 1990. Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetics, pp. 315-322. Innis M, A., Gelfand, D. H., Sninsky, J. J., White, T. J. (eds) PCR Protocols: a Guide to Methods and Applications,. Academic Press, New York, 482p.
  • Wirth, V., Hauck, M., Brackel, W. V., Cezanne, R., de Bruyn, U., Dürhammer, O., Schiefelbein, U. 2011. Checklist of lichens and lichenicolous fungi in Germany. Georg August University of Göttingen, Version, 2, 19.
Toplam 58 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Merve Kahraman Yiğit 0000-0002-8082-8574

Dr. Mithat Güllü

Mehmet Gökhan Halıcı

Proje Numarası 118Z587
Yayımlanma Tarihi 30 Aralık 2022
Yayımlandığı Sayı Yıl 2022 Cilt: 38 Sayı: 3

Kaynak Göster

APA Kahraman Yiğit, M., Güllü, D. M., & Halıcı, M. G. (2022). James Ross Adası (Antarktika Yarımadası, Antarktika)’ndan Bazı Likenleşmiş Mantarların Dna Barkodlaması. Erciyes Üniversitesi Fen Bilimleri Enstitüsü Fen Bilimleri Dergisi, 38(3), 458-475.
AMA Kahraman Yiğit M, Güllü DM, Halıcı MG. James Ross Adası (Antarktika Yarımadası, Antarktika)’ndan Bazı Likenleşmiş Mantarların Dna Barkodlaması. Erciyes Üniversitesi Fen Bilimleri Enstitüsü Fen Bilimleri Dergisi. Aralık 2022;38(3):458-475.
Chicago Kahraman Yiğit, Merve, Dr. Mithat Güllü, ve Mehmet Gökhan Halıcı. “James Ross Adası (Antarktika Yarımadası, Antarktika)’ndan Bazı Likenleşmiş Mantarların Dna Barkodlaması”. Erciyes Üniversitesi Fen Bilimleri Enstitüsü Fen Bilimleri Dergisi 38, sy. 3 (Aralık 2022): 458-75.
EndNote Kahraman Yiğit M, Güllü DM, Halıcı MG (01 Aralık 2022) James Ross Adası (Antarktika Yarımadası, Antarktika)’ndan Bazı Likenleşmiş Mantarların Dna Barkodlaması. Erciyes Üniversitesi Fen Bilimleri Enstitüsü Fen Bilimleri Dergisi 38 3 458–475.
IEEE M. Kahraman Yiğit, D. M. Güllü, ve M. G. Halıcı, “James Ross Adası (Antarktika Yarımadası, Antarktika)’ndan Bazı Likenleşmiş Mantarların Dna Barkodlaması”, Erciyes Üniversitesi Fen Bilimleri Enstitüsü Fen Bilimleri Dergisi, c. 38, sy. 3, ss. 458–475, 2022.
ISNAD Kahraman Yiğit, Merve vd. “James Ross Adası (Antarktika Yarımadası, Antarktika)’ndan Bazı Likenleşmiş Mantarların Dna Barkodlaması”. Erciyes Üniversitesi Fen Bilimleri Enstitüsü Fen Bilimleri Dergisi 38/3 (Aralık 2022), 458-475.
JAMA Kahraman Yiğit M, Güllü DM, Halıcı MG. James Ross Adası (Antarktika Yarımadası, Antarktika)’ndan Bazı Likenleşmiş Mantarların Dna Barkodlaması. Erciyes Üniversitesi Fen Bilimleri Enstitüsü Fen Bilimleri Dergisi. 2022;38:458–475.
MLA Kahraman Yiğit, Merve vd. “James Ross Adası (Antarktika Yarımadası, Antarktika)’ndan Bazı Likenleşmiş Mantarların Dna Barkodlaması”. Erciyes Üniversitesi Fen Bilimleri Enstitüsü Fen Bilimleri Dergisi, c. 38, sy. 3, 2022, ss. 458-75.
Vancouver Kahraman Yiğit M, Güllü DM, Halıcı MG. James Ross Adası (Antarktika Yarımadası, Antarktika)’ndan Bazı Likenleşmiş Mantarların Dna Barkodlaması. Erciyes Üniversitesi Fen Bilimleri Enstitüsü Fen Bilimleri Dergisi. 2022;38(3):458-75.

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