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Paleovegetation Researches Based on Fossil Pollen Analysis in Akgöl (Sakarya): Preliminary Results

Year 2020, , 219 - 230, 03.04.2020
https://doi.org/10.26650/JGEOG2019-0021

Abstract

Fossil pollen analyzes include research of pollen grains from various environments such as lake sediments, peatland, river and marine sediments, glaciers, lignite and coal. Lakes are one of the important data sources for Quaternary palynological studies. Akgöl, which is selected as a research area, is located in Gölkent district of the Ferizli township in the provincial city of Sakarya. Its surface area is 3.5 km2 and its maximum depth is 8 meters. The aim of this study was to investigate vegetation changes around Akgöl in the last 1000 years using fossil pollen analysis in the bottom sediments of the lake. The Piston corer of ITU EMCOL Research Centre was used for recovering sediment cores from Akgöl. Sediment samples of 2 cm3 were collected every 5 centimeters on one of the cores at the Palynology Laboratory of IUC. Fossil pollen analysis was performed according to the “classical method”. The pollen percentage values were calculated for each plant taxa and relative abundance graphs were plotted in the TILIA program. According to preliminary results of the pollen diagram; deciduous forest vegetation has been predominant in the last 1000 years around Akgöl. Maritime pine was introduced into this natural forest by plantation in the recent years.

References

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  • Erdtman, G. (1954). An Introduction to Pollen Analysis, The Chronica Botanica.
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  • Iwanami, Y., Sasakuma, T., Yamada, Y. (1988). Pollen: Illustrations and Scanning Electronmicrographs. Kodonsha-Tokyo.
  • İnandık, H. (1965). Türkiye Gölleri (Morfolojik ve Hidrolojik Özellikleri). İstanbul Üniversitesi Yayınları, No:44: 11-55.
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  • Kazinczi, G., Beres, I., Novak, R., Biro, K., Pathy, Z. (2008a). Common ragweed (Ambrosia artemisiifolia): a review with special regards to the results in Hungary: I. Taxonomy, origin and distribution, morphology, life cycle and reproduction strategy. Herbologia, 9, 55–91.
  • Kazinczi, G., Beres, I., Novak, R., Biro, K., Pathy, Z. (2008b). Common Ragweed (Ambrosiaartemisiifolia L.): a review with special regards to the results in Hungary: II. Importance and harmful eff ect, allergy, habitat, allerpathy and beneficial characteristics. Herbologia, 9, 93–118.
  • Kazinczi, G., Novak, R., Pathy, Z., Beres, I. (2008c). Common ragweed (Ambrosia artemisiifolia L.): a review with special regards to the results in Hungary: III. Resistant biotypes, control methods and authority arrangements. Herbologia, 9, 119–44.
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Akgöl’de (Sakarya) Fosil Polen Analizine Dayalı Paleovejetasyon Araştırmaları: İlk Bulgular

Year 2020, , 219 - 230, 03.04.2020
https://doi.org/10.26650/JGEOG2019-0021

Abstract

Fosil polen analizleri göl çökelleri, turbalıklar, akarsu ve deniz sedimanları, buzullar, linyitler ve taş kömürleri gibi çeşitli ortamlardan elde edilen polenlerin araştırılmasını kapsamaktadır. Kuvaterner dönemine ait palinolojik çalışmaların önemli veri kaynaklarından biri de göllerdir. Araştırma alanı olarak seçilen Akgöl, Sakarya ilinde, Ferizli ilçesinin Gölkent mahallesinde bulunmaktadır. Gölün yüzölçümü 3,5 km2 ve maksimum derinliği 8 m’dir. Bu çalışmanın amacı: gölün dip sedimanlarında fosil polen analizleri yaparak gölün çevresinde son 1000 yılda meydana gelen vejetasyon değişimlerini ortaya çıkarmaktır. Akgöl’den karot alımında İTÜ EMCOL Araştırma Uygulama Merkezi’nin 4x4 m. platformlu piston karotiyeri kullanılmıştır. İstanbul Üniversitesi-Cerrahpaşa, Orman Fakültesi Orman Botaniği Anabilim Dalında bulunan Palinoloji Laboratuvarı’na getirilen karot üzerinde her 5 cm’de bir 2 cm3 lük sediman örnekleri alınmıştır. Bu örneklerde “klasik yönteme” göre fosil polen analizi yapılmıştır. Hazırlanan polen preparatlarında her bir bitki taksonu için polen yüzdesi değerleri hesaplanmış, odunsu ve otsu taksonlara ait yüzde grafikleri TILIA adlı programda çizilmiştir. Polen diyagramından elde edilen ilk bulgulara göre; Akgöl ve çevresinde son 1000 yılda yaprak döken orman vejetasyonu hâkimdir. Bu doğal orman varlığının içine son yıllarda Gymnospermae taksonlarından sahil çamları da dikim yoluyla getirilmiştir.

References

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  • Akyüz Şahin, P., Morkoyunlu Yüce, A., Soylu, E., (2013). Büyük Akgöl (Sakarya) Fitoplankton Kompozisyonu ve Mevsimsel Değişimleri. Eğirdir Su Ürünleri Fakültesi Dergisi, 9(2), 14–21.
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  • Aytuğ, B. (1967b). Polen Morfolojisi ve Türkiye’nin Önemli Gymnospermleri Üzerinde Palinolojik Araştırmalar. İstanbul: Kutulmuş Matbaası.
  • Aytuğ, B., Aykut, S., Merev, N., Edis, G. (1971). İstanbul Çevresi Bitkilerinin Polen Atlası. İstanbul: İ.Ü. Orman Fakültesi Yayınları No: 174, Kurtulmuş Matbaası.
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  • Behçet, L.A. (2004). New Record for the Flora of Turkey: Ambrosia tenuifolia Spreng. (Compositae). Turk J Bot, 28, 201–203.
  • Beug, H. J. (1967). Contributions to the postglacial vegetational history of northern Turkey. In: Cushing EJ, Wright HE (eds). Quaternary paleoecology, New Haven: Yale University Press.
  • Beug, H. J., Bottema, S. (2015). Late Glacial and Holocene vegetation history at Lake Yeniçağa northern Turkey. Veget Hist Archaeobot, 24, 293–301.
  • Bottema, S., Woldring, H. (1990). Anthropogenic indicators in the pollen record of the Eastern Mediterranean. In: Bottema S, EntjesNieborg G, van Zeist W (eds) Man’s role in the shaping of the Eastern Mediterranean landscape. Balkema, Rotterdam.
  • Bottema, S., Woldring, H., Aytuğ, B. (1986). Palynological investigations on the relation between prehistoric man and vegetation in Turkey: The Beyşehir occupation phase. In: Proceedings of 5th Optima meeting, Istanbul, pp 315–326.
  • Bottema, S., Woldring, H., Aytuğ, B. (1993-1994). Late Quaternary Vegetation History of Northern Turkey, Palaeohistoria 35/36, Nederlands: University of Groningen Press. Bradley, R. S. (1999). Quaternary Paleoclimatology, London: Chapman & Hall.
  • Buttenschon R. M., Bohren, C. (2010). Guidelines for management ofcommon ragweed, Ambrosi aartemisiifolia. Euphresco Project Ambrosia, 47.
  • Byfield, J. A., Baytop, A. (1998). Three Alien Species New to the Flora of Turkey. Turk J Bot, 22, 205–208.
  • Caner, H., Algan, O. (2002). Palynology of sapropelic layers from the Marmara Sea. Marine Geology, 190(1-2), 35–46.
  • Dickerson, Jr C.T., Sweet, R. D. (1971). Common ragweed ecotypes. Weed Sci, 19, 64–66.
  • Eastwood, W. J., Roberts, N., Lamb, H.F., Tibby, J. C. (1999). Holocene environmental change in southwest Turkey: a palaeoecological record of lake and catchment-related changes. Quaternary Science Reviews 18, 671-695.
  • Eastwood, W. J., Leng, M. J., Roberts, N., Davis, B. (2007). Holocene climate change in the eastern Mediterranean region: a comparison of stable isotope and pollen data from Lake Gölhisar, southwest Turkey”. Journal of Quaternary Science, 22(4), 327–341.
  • England, A., Eastwood, W. J., Roberts, C. N., Turner, R., Haldon, J. F. (2008). Historical landscape change in Cappadocia (central Turkey): a palaeoecological investigation of annually laminated sediments from Nar Lake. The Holocene, 18(8), 1229–1245
  • Erdtman, G. (1952). Pollen Morphology and Plant Taxonomy- Angiosperms. The Chronica Botanica Company, Waltham, Mass., U.S.A.
  • Erdtman, G. (1957). Pollen and Spore Morphology / Plant Taxonomy - Gymnospermae, Pteridopyhta, Bryophyta. Stockholm.
  • Erdtman, G. (1954). An Introduction to Pollen Analysis, The Chronica Botanica.
  • Faegri, K., Iversen, J. (1964). Textbook of Pollen Analysis. II Edition, Munksgaard, Copenhagen, Denmark.
  • Fumanal, B., Chauvel, B., Bretagnolle, F. (2007). Estimation of pollen and seed production of common ragweed in France. Ann Agric Environ Med, 14, 233–6.
  • Grimm, E. (2015). Tilia Software. Illinois State Museum, Springfield. Hesse, M., Zetter, R., Halbritter, H., Weber, M., Buchner, R., FroschRadivo, A., Ulrich, S. (2009). Pollen Terminology an illustrated handbook. Austria, Springer Wien New York.
  • Hicks, S., Ammann, B., Latalowa, M., Pardoe, H., Tinsley., H. (1996). European Pollen Monitoring Programme: Project Description and Guidelines. University of Oulu, 28 pp.
  • Hicks, S., Tinsley, H., Huusko, A., Jensen, C., Hattestrand, M., Gerasimides, A., Kvavadze, E. (2001). Some comments on spatial variation in arboreal pollen deposition: First records from the Pollen Monitoring Programme (PMP). Review of Palaeobotany and Palynology, 117, 183–194.
  • Iwanami, Y., Sasakuma, T., Yamada, Y. (1988). Pollen: Illustrations and Scanning Electronmicrographs. Kodonsha-Tokyo.
  • İnandık, H. (1965). Türkiye Gölleri (Morfolojik ve Hidrolojik Özellikleri). İstanbul Üniversitesi Yayınları, No:44: 11-55.
  • İzdebski, A. (2012). The Changing Landscapes of Byzantine Northern Anatolia. Archaeologia Bulgarica, 16, 47–66.
  • Kazinczi, G., Beres, I., Novak, R., Biro, K., Pathy, Z. (2008a). Common ragweed (Ambrosia artemisiifolia): a review with special regards to the results in Hungary: I. Taxonomy, origin and distribution, morphology, life cycle and reproduction strategy. Herbologia, 9, 55–91.
  • Kazinczi, G., Beres, I., Novak, R., Biro, K., Pathy, Z. (2008b). Common Ragweed (Ambrosiaartemisiifolia L.): a review with special regards to the results in Hungary: II. Importance and harmful eff ect, allergy, habitat, allerpathy and beneficial characteristics. Herbologia, 9, 93–118.
  • Kazinczi, G., Novak, R., Pathy, Z., Beres, I. (2008c). Common ragweed (Ambrosia artemisiifolia L.): a review with special regards to the results in Hungary: III. Resistant biotypes, control methods and authority arrangements. Herbologia, 9, 119–44.
  • Kupicha, F. K. (1975). Ambrosia L. In: Davis PH (ed). Flora of Turkey and the East Aegean Islands, Vol. 5, 46-47. Edinburgh: Edinburgh Univ Press.
  • Leroy, S. A. G., Schwab, M. J, Costa, J. M. P. (2010). Seismic influence on the last 1500-year infill history of Lake Sapanca (North Anatolian Fault, NW Turkey). Tectonophysics, 486, 15–20.
  • Leroy, S. A. G., Albay, M. (2010). Palynomorphs of brackish and marine species in cores from the freshwater Lake Sapanca, NW Turkey, Review of Palaeobotany and Palynology, 160, 181–188.
  • Leroy, S. A. G., Boyraz, S., Gürbüz A. (2009). High-resolution palynological analysis in Lake Sapanca as a tool to detect recent earthquakes on the North Anatolian Fault, Quaternary Science Reviews, 28, 2616–2632.
  • Litt, T., Krastel, S., Sturm, M., Kipfer, R., Örcen, S., Heumann, G., Franz, S.O., Ülgen, U.B., Niessen, F. (2009). PALEOVAN, International Continental Scientific Drilling Program (ICDP): site survey results and perspectives. Quaternary Science Reviews 28, 1555–1567.
  • Lowe, J., Walker, M. (2015). Reconstructing Quaternary Environments, Third Edition, Routledge, Oxon and New York. Miebach, A., Niestrath, P., Roeser, P., Litt, T. (2016). Impacts of climate and humans on the vegetation in northwestern Turkey: palynological insights from Lake Iznik since the Last Glacial. Clime of the Past, 12, 575–593.
  • Moore, P., Webb, J. A., Collinson, M. E. (1991). Pollen Analysis, 2nd Edition. Blackwell, Oxford, 216 pp.
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There are 62 citations in total.

Details

Primary Language Turkish
Journal Section Research Article
Authors

Nurgül Karlıoğlu Kılıç This is me 0000-0002-6255-6819

Rüya Yılmaz Dağdeviren This is me 0000-0003-1209-5257

Dursun Acar This is me 0000-0003-3336-1534

Melda Küçükdemirci This is me 0000-0002-2937-1855

Özlem Makaroğlu This is me 0000-0001-7629-5747

M. Ömer Karaöz This is me 0000-0001-6292-4119

Damla Şahin Altun This is me 0000-0003-0464-2361

Ahmet Tutar This is me 0000-0001-5524-8001

Ayhan Horuz This is me 0000-0002-8338-3208

Ali Gürel This is me 0000-0001-5189-7346

Zahidul Islam This is me 0000-0002-6221-0682

M. Namık Çağatay This is me 0000-0003-4677-3802

Publication Date April 3, 2020
Submission Date July 16, 2019
Published in Issue Year 2020

Cite

APA Karlıoğlu Kılıç, N., Yılmaz Dağdeviren, R., Acar, D., Küçükdemirci, M., et al. (2020). Akgöl’de (Sakarya) Fosil Polen Analizine Dayalı Paleovejetasyon Araştırmaları: İlk Bulgular. Journal of Geography(40), 219-230. https://doi.org/10.26650/JGEOG2019-0021
AMA Karlıoğlu Kılıç N, Yılmaz Dağdeviren R, Acar D, Küçükdemirci M, Makaroğlu Ö, Karaöz MÖ, Şahin Altun D, Tutar A, Horuz A, Gürel A, Islam Z, Çağatay MN. Akgöl’de (Sakarya) Fosil Polen Analizine Dayalı Paleovejetasyon Araştırmaları: İlk Bulgular. Journal of Geography. April 2020;(40):219-230. doi:10.26650/JGEOG2019-0021
Chicago Karlıoğlu Kılıç, Nurgül, Rüya Yılmaz Dağdeviren, Dursun Acar, Melda Küçükdemirci, Özlem Makaroğlu, M. Ömer Karaöz, Damla Şahin Altun, Ahmet Tutar, Ayhan Horuz, Ali Gürel, Zahidul Islam, and M. Namık Çağatay. “Akgöl’de (Sakarya) Fosil Polen Analizine Dayalı Paleovejetasyon Araştırmaları: İlk Bulgular”. Journal of Geography, no. 40 (April 2020): 219-30. https://doi.org/10.26650/JGEOG2019-0021.
EndNote Karlıoğlu Kılıç N, Yılmaz Dağdeviren R, Acar D, Küçükdemirci M, Makaroğlu Ö, Karaöz MÖ, Şahin Altun D, Tutar A, Horuz A, Gürel A, Islam Z, Çağatay MN (April 1, 2020) Akgöl’de (Sakarya) Fosil Polen Analizine Dayalı Paleovejetasyon Araştırmaları: İlk Bulgular. Journal of Geography 40 219–230.
IEEE N. Karlıoğlu Kılıç, “Akgöl’de (Sakarya) Fosil Polen Analizine Dayalı Paleovejetasyon Araştırmaları: İlk Bulgular”, Journal of Geography, no. 40, pp. 219–230, April 2020, doi: 10.26650/JGEOG2019-0021.
ISNAD Karlıoğlu Kılıç, Nurgül et al. “Akgöl’de (Sakarya) Fosil Polen Analizine Dayalı Paleovejetasyon Araştırmaları: İlk Bulgular”. Journal of Geography 40 (April 2020), 219-230. https://doi.org/10.26650/JGEOG2019-0021.
JAMA Karlıoğlu Kılıç N, Yılmaz Dağdeviren R, Acar D, Küçükdemirci M, Makaroğlu Ö, Karaöz MÖ, Şahin Altun D, Tutar A, Horuz A, Gürel A, Islam Z, Çağatay MN. Akgöl’de (Sakarya) Fosil Polen Analizine Dayalı Paleovejetasyon Araştırmaları: İlk Bulgular. Journal of Geography. 2020;:219–230.
MLA Karlıoğlu Kılıç, Nurgül et al. “Akgöl’de (Sakarya) Fosil Polen Analizine Dayalı Paleovejetasyon Araştırmaları: İlk Bulgular”. Journal of Geography, no. 40, 2020, pp. 219-30, doi:10.26650/JGEOG2019-0021.
Vancouver Karlıoğlu Kılıç N, Yılmaz Dağdeviren R, Acar D, Küçükdemirci M, Makaroğlu Ö, Karaöz MÖ, Şahin Altun D, Tutar A, Horuz A, Gürel A, Islam Z, Çağatay MN. Akgöl’de (Sakarya) Fosil Polen Analizine Dayalı Paleovejetasyon Araştırmaları: İlk Bulgular. Journal of Geography. 2020(40):219-30.