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Monotipik Steveniella satyrioides türünün anatomik morfolojik ve mikromorfolojik özellikleri

Year 2019, Volume: 6 Issue: 2, 573 - 584, 26.12.2019
https://doi.org/10.35193/bseufbd.603395

Abstract

Çalışmamızda angiospermlerin en büyük iki
familyasından birisi olan Orchidaceae familyasına ait Türkiye’de yayılış
gösteren Steveniella satyrioides
(Stev.) Schltr. türü morfolojik, anatomik ve mikromorfolojik yönden
incelenmiştir. S. satyrioides
monotipik bir türdür ve çiçek yapısı Orchis
cinsine ait türler ile benzerlik göstermektedir. Anatomik incelemelerde türün
kök, gövde ve yaprağından mikrotomla kesitler alınmıştır. Morfolojik
incelemeler için arazide gözlemler yapılmış ve toplanan örnekler üzerinde
ölçümler yapılmıştır. Mikromorfolojik incelemelerde herbaryum örnekleri
kullanılarak elektron mikroskop (SEM) çekimleri yapılmıştır. Kökte ksilem
kolları, kristal ve nişasta varlığı, gövdede öz boşluğu, iletim demet şekli ve
yaprakta stoma tipi gibi özellikler belirlenmiştir.  Bitki boyu, yaprak sayısı, çiçeklenme durumu
ve yumru sayısı gibi genel morfolojik özellikler tespit edilmiştir.
Mikromorfolojik incelemeler yaprak yüzey süslemeleri açısından
değerlendirilmiştir. Çalışmamız sonucunda S.
satyrioides
türüne ait tüm anatomik, morfolojik ve mikromorfolojik özellikler
detaylı bir şekilde ortaya konulmuştur. 

Supporting Institution

Türkiye Bilimsel ve Teknolojik Araştırma Kurumu

Project Number

114Z702

Thanks

Bu çalışma, Türkiye Bilimsel ve Teknolojik Araştırma Kurumu (TÜBİTAK) tarafından desteklenmiştir (114Z702).

References

  • [1] Nevski, S. A. (1935). Fam. 36. The orchids—Orchidaceae Lindl. Pages 589–730 in V. L. Komarov (ed.), Flora USSR (in Russian). Moskva - Leningrad: Publ. Acad. Sci. USSR, 4.
  • [2] Renz, J., & Taubenheim, G. (1984). Dactylorhiza Necker ex Nevskié. Flora of Turkey and the East Aegean Islands Vol. 8. Editör: Davis, P.H. Edinburgh: Edinburgh University Press.
  • [3] Vanykov, I. (1914). Notes on Orchis satyrioides Stev. (in Russian). Tr. Juryevskogo Botan, Sada Imperatorskogo Juryevskogo Universiteta 15: 292-295.
  • [4] Fateryga, A. V., Ivanov, S. P., & Fateryga, V. V. (2013). Pollination ecology of Steveniella satyrioides (Spreng.) Schltr. (Orchidaceae) in Ayan Natural Landmark (the Crimea). Укр. ботан. журн, 70(2), 195-201.
  • [5] Sezik, E. E. (1984). Orkidelerimiz: Türkiye'nin orkideleri. Sandoz kültür yayınları.
  • [6] Nazarov, V. V. (1995). Pollination of Steveniella satyrioides (Orchidaceae) by wasps (Hymenoptera, Vespoidea) in the Crimea, Lindleyana, 10(2), 109-114.
  • [7] Brodmann, J., Twele, R., Francke, W., Luo Yi-bo, L., Xi-qiang, S., & Ayasse, M. (2008). Orchid mimics honey bee alarm pheromone in order to attract hornets for pollination, Current Biology, 18, 740-744.
  • [8] Brodmann, J., Twele, R., Francke, W., Yi-Bo, L., Xi-qiang, S., & Ayasse, M. (2009). Orchid mimics honey bee alarm pheromone in order to attract hornets for pollination, Current Biology, 19(16), 1368-1372.
  • [9] Proctor, M., Yeo, P., & Lack, A. (1996). The Natural History of Pollination, 2nd ed. London, UK: Harper Collins Publishers.
  • [10] Cozzolino, S., & Widmer, A. (2005). Orchid diversity: an evolutionary consequence of deception? Trends Ecology and Evolution 20: 487-494.
  • [11] Kowalkowska, A. K., Margonska, H. B., Kozieradzka-Kiszkurno, M., & Bohdanowicz, J. (2012). Studies on the ultrastructure of a threespurred fumeauxiana form of Anacamptis pyramidalis, Plant Systematics and Evolution, 298: 1025-1035.
  • [12] Şeker, Ş. S., Akbulut, M. K., & Şenel, G. (2016). Labellum micromorphology of some orchid genera (Orchidaceae) distributed in the Black Sea region in Turkey, Turkish Journal of Botany, 40(6), 623-636.
  • [13] Şenel, G., Akbulut, M. K., & Şeker, Ş. S. (2019). Comparative anatomical properties of some Epidendroideae and Orchidoideae species distributed in NE Turkey, Protoplasma, 256(3), 655-668.
  • [14] Bateman, R. M. (2001). Evolution and classification of European orchids: insights from molecular and morphological characters, Journal Europäischer Orchideen, 33: 33-119.
  • [15] Shipunov, A. B., & Bateman R. M. (2005). Geometric morphometrics as a tool for understanding Dactylorhiza (Orchidaceae) diversity in European Russia, Biological Journal of the Linnean Society, 85: 1-12.
  • [16] Inda, L. A., Pimentel, M., & Chase, M. W. (2010). Chalcone synthase variation and phylogenetic relationships in Dactylorhiza (Orchidaceae). Botanical Journal of the Linnean Society, 163, 155-165.
  • [17] Arditti, J. (1977). Orchid biology, reviews and perspectives. Ithaca: I. Comstock publishing associates, Cornell University Press.
  • [18] Dressler, R. L. (1993). Phylogeny and Classification of the Orchids Family. Portland: Dioscorides Press.
  • [19] Nordström, S., & Hedrén, M. (2009). Genetic diversity and differentiation of allopolyploid Dactylorhiza (Orchidaceae) with particular focus on the D. majalis ssp. traunsteineri lapponica complex. Biological Journal of the Linnean Society, 97: 52-67.
  • [20] IBM Corp. Released (2013). IBM SPSS Statistics for Windows, Version 22.0. Armonk, NY: IBM Corp.
  • [21] Quattrocchio, F., Wing, J., van der Woude, K., Souer, E., de Vetten, N., Mol, J., & Koes, R. (1999). Molecular analysis of the anthocyanin 2 gene of petunia and its role in the evolution of flower color, Plant Cell 11(8), 1433–1444.
  • [22] Gajewski, M., Radzonowska, J., Danilcenko, H., Jariene, E., & Cerniauskiene, J. (2008). Quality of pumpkin cultivars in relation to sensory characteristics, Not Botanicae Horti Agrobotanici Cluj-Napoca, 36,73–79
  • [23] Şenel, G., Şeker, Ş. S., Akbulut, M. K., & Akçin, Ö. E. (2018). An integrative anatomical, morphological, micromorphological and molecular approach to Turkish Epidendroid and Orchidoid species (Orchidaceae), Nordic Journal of Botany, 36(7), e01700.
  • [24] Davis, P. H. (1965). Flora of Turkey and the east Aegean islands, Vol. 10. Edinburgh: Edinburgh University Press.
  • [25] Dycus, A. M., & Knudson, L. (1957). The role of the velamen of the aerial roots of orchids, Botanical Gazette, 78-87.
  • [26] Oliveira, V. D. C., & Sajo, M. D. G. (1999). Anatomia foliar de espécies epífitas de Orchidaceae, Revista Brasileira de Botânica, 22 (3), 365-374.
  • [27] Aybeke, M., Sezik, E., & Olgun, G. (2010). Vegetative anatomy of some Ophrys, Orchis and Dactylorhiza (Orchidaceae) taxa in Trakya region of Turkey, Flora-Morphology, Distribution, Functional Ecology of Plants, 205(2), 73-89.
  • [28] Stern, W. L., & Judd, W. S. (2001). Comparative anatomy of Catasetiinae (Orchidaceae), Botanical Journal of Linnean Society, 136, 153-178.
  • [29] Akçin, T. A., Özdener, Y., & Akçin, A. (2009). Taxonomic value of seed characters in orchids from Turkey, Belgian Journal of Botany142 (2), 124-139.
  • [30] Gamarra, R., Ortúñez, E., Cela, P. G., & Guadaño, V. (2012). Anacamptis versus Orchis (Orchidaceae): Seed micromorphology and its taxonomic significance, Plant Systematics and Evolution, 298, 597-607.
  • [31] Şenel, G., Şeker, Ş. S., Akbulut, M. K., & Akçin, Ö. E. (2018). An integrative anatomical, morphological, micromorphological and molecular approach to Turkish epidendroid and orchidoid species (Orchidaceae). Nordic Journal of Botany, 36(7), e01700.
Year 2019, Volume: 6 Issue: 2, 573 - 584, 26.12.2019
https://doi.org/10.35193/bseufbd.603395

Abstract

Project Number

114Z702

References

  • [1] Nevski, S. A. (1935). Fam. 36. The orchids—Orchidaceae Lindl. Pages 589–730 in V. L. Komarov (ed.), Flora USSR (in Russian). Moskva - Leningrad: Publ. Acad. Sci. USSR, 4.
  • [2] Renz, J., & Taubenheim, G. (1984). Dactylorhiza Necker ex Nevskié. Flora of Turkey and the East Aegean Islands Vol. 8. Editör: Davis, P.H. Edinburgh: Edinburgh University Press.
  • [3] Vanykov, I. (1914). Notes on Orchis satyrioides Stev. (in Russian). Tr. Juryevskogo Botan, Sada Imperatorskogo Juryevskogo Universiteta 15: 292-295.
  • [4] Fateryga, A. V., Ivanov, S. P., & Fateryga, V. V. (2013). Pollination ecology of Steveniella satyrioides (Spreng.) Schltr. (Orchidaceae) in Ayan Natural Landmark (the Crimea). Укр. ботан. журн, 70(2), 195-201.
  • [5] Sezik, E. E. (1984). Orkidelerimiz: Türkiye'nin orkideleri. Sandoz kültür yayınları.
  • [6] Nazarov, V. V. (1995). Pollination of Steveniella satyrioides (Orchidaceae) by wasps (Hymenoptera, Vespoidea) in the Crimea, Lindleyana, 10(2), 109-114.
  • [7] Brodmann, J., Twele, R., Francke, W., Luo Yi-bo, L., Xi-qiang, S., & Ayasse, M. (2008). Orchid mimics honey bee alarm pheromone in order to attract hornets for pollination, Current Biology, 18, 740-744.
  • [8] Brodmann, J., Twele, R., Francke, W., Yi-Bo, L., Xi-qiang, S., & Ayasse, M. (2009). Orchid mimics honey bee alarm pheromone in order to attract hornets for pollination, Current Biology, 19(16), 1368-1372.
  • [9] Proctor, M., Yeo, P., & Lack, A. (1996). The Natural History of Pollination, 2nd ed. London, UK: Harper Collins Publishers.
  • [10] Cozzolino, S., & Widmer, A. (2005). Orchid diversity: an evolutionary consequence of deception? Trends Ecology and Evolution 20: 487-494.
  • [11] Kowalkowska, A. K., Margonska, H. B., Kozieradzka-Kiszkurno, M., & Bohdanowicz, J. (2012). Studies on the ultrastructure of a threespurred fumeauxiana form of Anacamptis pyramidalis, Plant Systematics and Evolution, 298: 1025-1035.
  • [12] Şeker, Ş. S., Akbulut, M. K., & Şenel, G. (2016). Labellum micromorphology of some orchid genera (Orchidaceae) distributed in the Black Sea region in Turkey, Turkish Journal of Botany, 40(6), 623-636.
  • [13] Şenel, G., Akbulut, M. K., & Şeker, Ş. S. (2019). Comparative anatomical properties of some Epidendroideae and Orchidoideae species distributed in NE Turkey, Protoplasma, 256(3), 655-668.
  • [14] Bateman, R. M. (2001). Evolution and classification of European orchids: insights from molecular and morphological characters, Journal Europäischer Orchideen, 33: 33-119.
  • [15] Shipunov, A. B., & Bateman R. M. (2005). Geometric morphometrics as a tool for understanding Dactylorhiza (Orchidaceae) diversity in European Russia, Biological Journal of the Linnean Society, 85: 1-12.
  • [16] Inda, L. A., Pimentel, M., & Chase, M. W. (2010). Chalcone synthase variation and phylogenetic relationships in Dactylorhiza (Orchidaceae). Botanical Journal of the Linnean Society, 163, 155-165.
  • [17] Arditti, J. (1977). Orchid biology, reviews and perspectives. Ithaca: I. Comstock publishing associates, Cornell University Press.
  • [18] Dressler, R. L. (1993). Phylogeny and Classification of the Orchids Family. Portland: Dioscorides Press.
  • [19] Nordström, S., & Hedrén, M. (2009). Genetic diversity and differentiation of allopolyploid Dactylorhiza (Orchidaceae) with particular focus on the D. majalis ssp. traunsteineri lapponica complex. Biological Journal of the Linnean Society, 97: 52-67.
  • [20] IBM Corp. Released (2013). IBM SPSS Statistics for Windows, Version 22.0. Armonk, NY: IBM Corp.
  • [21] Quattrocchio, F., Wing, J., van der Woude, K., Souer, E., de Vetten, N., Mol, J., & Koes, R. (1999). Molecular analysis of the anthocyanin 2 gene of petunia and its role in the evolution of flower color, Plant Cell 11(8), 1433–1444.
  • [22] Gajewski, M., Radzonowska, J., Danilcenko, H., Jariene, E., & Cerniauskiene, J. (2008). Quality of pumpkin cultivars in relation to sensory characteristics, Not Botanicae Horti Agrobotanici Cluj-Napoca, 36,73–79
  • [23] Şenel, G., Şeker, Ş. S., Akbulut, M. K., & Akçin, Ö. E. (2018). An integrative anatomical, morphological, micromorphological and molecular approach to Turkish Epidendroid and Orchidoid species (Orchidaceae), Nordic Journal of Botany, 36(7), e01700.
  • [24] Davis, P. H. (1965). Flora of Turkey and the east Aegean islands, Vol. 10. Edinburgh: Edinburgh University Press.
  • [25] Dycus, A. M., & Knudson, L. (1957). The role of the velamen of the aerial roots of orchids, Botanical Gazette, 78-87.
  • [26] Oliveira, V. D. C., & Sajo, M. D. G. (1999). Anatomia foliar de espécies epífitas de Orchidaceae, Revista Brasileira de Botânica, 22 (3), 365-374.
  • [27] Aybeke, M., Sezik, E., & Olgun, G. (2010). Vegetative anatomy of some Ophrys, Orchis and Dactylorhiza (Orchidaceae) taxa in Trakya region of Turkey, Flora-Morphology, Distribution, Functional Ecology of Plants, 205(2), 73-89.
  • [28] Stern, W. L., & Judd, W. S. (2001). Comparative anatomy of Catasetiinae (Orchidaceae), Botanical Journal of Linnean Society, 136, 153-178.
  • [29] Akçin, T. A., Özdener, Y., & Akçin, A. (2009). Taxonomic value of seed characters in orchids from Turkey, Belgian Journal of Botany142 (2), 124-139.
  • [30] Gamarra, R., Ortúñez, E., Cela, P. G., & Guadaño, V. (2012). Anacamptis versus Orchis (Orchidaceae): Seed micromorphology and its taxonomic significance, Plant Systematics and Evolution, 298, 597-607.
  • [31] Şenel, G., Şeker, Ş. S., Akbulut, M. K., & Akçin, Ö. E. (2018). An integrative anatomical, morphological, micromorphological and molecular approach to Turkish epidendroid and orchidoid species (Orchidaceae). Nordic Journal of Botany, 36(7), e01700.
There are 31 citations in total.

Details

Primary Language Turkish
Journal Section Articles
Authors

Mustafa Kemal Akbulut 0000-0002-3362-785X

Şenay Süngü Şeker This is me 0000-0003-4993-988X

Gülcan Şenel 0000-0002-8967-7290

Project Number 114Z702
Publication Date December 26, 2019
Submission Date August 7, 2019
Acceptance Date December 8, 2019
Published in Issue Year 2019 Volume: 6 Issue: 2

Cite

APA Akbulut, M. K., Süngü Şeker, Ş., & Şenel, G. (2019). Monotipik Steveniella satyrioides türünün anatomik morfolojik ve mikromorfolojik özellikleri. Bilecik Şeyh Edebali Üniversitesi Fen Bilimleri Dergisi, 6(2), 573-584. https://doi.org/10.35193/bseufbd.603395

Cited By

Orkide Yumru Ontogenisi
Osmaniye Korkut Ata Üniversitesi Fen Bilimleri Enstitüsü Dergisi
https://doi.org/10.47495/okufbed.1061127