The Anatolian diagonal is a theoretical dividing line which runs diagonally across central and eastern Turkey from the northeastern corner of the Mediterranean Sea to the southeastern corner of the Black Sea, and roughly cuts across part of the course of the upper Euphrates River within Turkey's borders.
Biogeographical barrier
The diagonal was first proposed by the British botanist Peter Hadland Davis in 1971. He noticed that many species of plant that existed west of the diagonal were not present to the east, while others found to the east were not present to the west. Of 550 species analysed, 135 were "eastern" and 228 "western". However, Davis considered that there were no physical, geological or climatic differences or change in soil type that could account for the phenomenon.[1] Not only does the Anatolian diagonal form a barrier to floral biodiversity, but about four hundred species of plant are endemic to this diagonal and are found nowhere else.[2]
In 1989, the Turkish botanists T. Ekim and A. Güner examined the distribution of species by detailed study of the Flora of Turkey, eight volumes of which had been published by then. They came to the conclusion that the diagonal did indeed exist and they found that 33% of the plant species considered were affected by the diagonal in one way or another. They then considered the reasons behind the phenomenon. There was a difference in altitude between the two sides of the diagonal, with the land to the west being lower. Another difference was the climatological regions: to the west there were arid and semi-arid forms of the Mediterranean climate whereas to the east there were semi-arid, sub-humid and humid forms. In the middle portion of the diagonal there was a gypsum feature, but what effect that had on plant distribution was unclear. They concluded that the ecological differences between the two sides of the diagonal were of greater significance than the palaeo-geological history of the area.[1]
The Irano-Anatolian region is a significant biodiversity hotspot in the Near East and Anatolia is the transition point between the European and Turko-Iranian floras.[3] Turkey was beyond the southern limit of ice in the last ice age, and Anatolia may be considered to be a potential glacial refugium for species of plants and animals in Europe. In the late Pleistocene, sea levels in this region were lower than they are today by as much as 130 m (427 ft) and land bridges intermittently formed across the Bosphorus and the Sea of Marmara.[3] After the end of the most recent ice age, plants surviving to the west of the Anatolian diagonal could spread back into Europe while those to the east could spread into Syria, Iraq and the Near East.[4]
The Taurus Mountains provide a cool damp climate for species that cannot survive the hot dry summer climate on either side, and this could have encouraged survival and speciation, resulting in the many endemic species found here today.[3]
References
- 1 2 Ekim, T.; Güner, A. (1989). "The Anatolian Diagonal: fact or fiction?". Proceedings of the Royal Society of Edinburgh, Section B: Biological Sciences. 86: 69–77. doi:10.1017/S0269727000008915.
- ↑ Münir Öztürk; Khalid Rehman Hakeem; I. Faridah-Hanum; Recep Efe (2015). Climate Change Impacts on High-Altitude Ecosystems. Springer. pp. 280–283. ISBN 978-3-319-12859-7.
- 1 2 3 Ansell, Stephen W.; Stenøien, Hans K.; Grundmann, Michael; Russell, Stephen J.; Koch, Marcus A.; Schneider, Harald; Vogel, Johannes C. (2011). "The importance of Anatolian mountains as the cradle of global diversity in Arabis alpina, a key arctic–alpine species". Annals of Botany. 108 (2): 241–252. doi:10.1093/aob/mcr134. PMC 3143044. PMID 21712298.
- ↑ Bilgin, Rasit (2011). "Back to the Suture: The Distribution of Intraspecific Genetic Diversity in and Around Anatolia". International Journal of Molecular Sciences. 12 (6): 4080–4103. doi:10.3390/ijms12064080. ISSN 1422-0067. PMC 3131610. PMID 21747726.