___

Allen, A. P. ve diğ., "Kinetic effects of temperature on rates of genetic divergence and speciation", Proc Natl Acad Sci USA 103: 9130-9135 (2006).

Arslan ve diğ. "Review of chromosome races in blind mole rats (Spalax and Nannospalax)", Folia Zool., 65(4): 249-301 (2016).

Avivi, A., ve diğ., "Neuroglobin, cytoglobin, and myoglobin contribute to hypoxia adaptation of the subterranean mole rat Spalax", Proc. Natl. Acad. Sci. U.S.A., 107: 21570- 21575 (2010).

Barnosky, A. D., "Distinguishing the effects of the Red Queen and Court Jester on Miocene mammal evolution in the northern Rocky Mountains", J. Vertebr Paleontol. 21: 172-85 (2001).

Benton, M. J., "The Red Queen and the Court Jester: Species diversity and the role of biotic and abiotic factors through time", Science, 323:728-32 (2009).

Bilgin, R., "Back to the suture: the distribution of intraspecific genetic diversity in and around Anatolia", Int J Mol Sci., 12:4080-4103 (2011).

Bonvicino, C. R., Dandrea, P. S. ve Borodin, P. M., "Pericentric inversion in natural populations of Oligoryzomys nigripes (Rodentia: Sigmodontinae)", Genome 44: 791-796 (2001).

Britton-Davidian, J., "Rapid chromosomal evolution in island mice", Nature 403: 158 (2000).

Catzeflis, F. ve diğ., "Relationships of the chromosomal species in the Eurasian mole rats of the Spalax ehrenbergi group as determined by DNA-DNA hybridization, and an estimate of the spalacid-murid divergence time", Journal of Molecular Evolution, 29: 223-232 (1989).

Chişamera ve diğ., "Bukovina blind mole rat Spalax graecus revisited: phylogenetics, morphology, taxonomy, habitat associations and conservation", Mammal Rev. 44: 19-29 (2014).

Coşkun, Y., Ulutürk, S. ve Yürümez, G., 'Chromosomal diversity in mole-rat of the species Nannospalax ehrenbergi (Rodentia: Spalacidae) from south Anatolia, Turkey'', Mammalian Biology, 71: 244-250 (2006).

De Bruijn, H. ve diğ. "Report of the RCMNS working group on fossil mammals, Reisensburg 1990", Newsletter on Stratigraphy, 26: 65-118 (1992).

De Bruijn, H. ve diğ. "Small mammals from the Early Miocene of Sabuncubeli (Manisa, S.W. Anatolia, Turkey", Beitrage Paläontologie, 30: 57-87 (2006).

De Bruijn, H. , Markovic, Z., ve Wessels, W. "Late Oligocene rodents from Banovici (Bosnia and Herzegovina)", Palaeodiversity, 6, 63-105 (2013).

DeBry, R. W. ve Sagel, R. M., "Phylogeny of Rodentia (mammalia) inferred from the nuclear-encoded gene IRBP", Mol Phylogenet Evol., 19 (2): 290-301 (2001).

Dobigny, G., Britton-Davidian, J. ve Robinson, T. J., "Chromosomal polymorphism in mammals: an evolutionary perspective", Biol Rev. (2015) doi:10.1111/brv.12213.

Fang, X.D., ve diğ., "Genome-wide adaptive complexes to undergound stresses in blind mole rats", Nat. Commun., 5: 3966 (2014).

Faria, R. ve Navarro, A., "Chromosomal speciation revisited: rearranging theory with pieces of evidence", Trends Ecol Evol 25: 660-669 (2010).

Fortelius, ve diğ., "Evolution of Neogene mammals in Eurasia: environmental forcing and biotic interactions" Annual Review of Earth and Planetary Sciences, 42: 579-604 (2014).

Hadid, Y., ve diğ., "Is evolution of blind mole rats determined by climate oscillations?", Plos One 7 (1): e30043 (2012).

Hendriks, W., ve diğ., "The lens protein alpha A-crystallin of the blind mole rat, Spalax ehrenbergi: evolutionary change and functional constrains", Proceedings of the National Academy of Sciences of the United States of America, 84: 5320-5324 (1987).

Hendry, A. P., "Selection against migrants contributes to the rapid evolution of ecologically dependent reproductive isolation", Evol Ecol Res, 6: 1219-1236 (2004).

Hewitt, G. M. 2000. The genetic legacy of the Quaternary ice ages. Nature, 405: 907-913. Hooper, D. M. ve Price, T. D., "Rates of karyotypic evolution in Estrildid finches differ between island and continental clades", Evolution, 69: 890-903 (2015).

Ivanitskaya, E. ve Nevo, E. "Cytogenetics of mole rats of the Spalax ehrenbergi superspecies from Jordan (Spalacidae, Rodentia)", Z. Säugetierkd., 63: 336-346 (1998).

Ivanitskaya, E., Belyayev, A. ve Nevo, E. "Heterochromatin differentiation shows the pathways of karyotypic evolution in Israeli mole rats (Spalax, Spalacidae, Rodentia)", Cytogenet. Genome Res., 111: 159-165 (2005).

Ivanitskaya, E., Coskun, Y. ve Nevo, E., "Banded karyotypes of mole rats (Spalax, Spalacidae, Rodentia) from Turkey", J. Zool. Syst. Evol. Res., 35: 171-177 (1997)

Ivanitskaya. E. ve diğ., "Discrimination of 2n = 60 Spalax leucodon cytotypes (Spalacidae, Rodentia) in Turkey by means of classical and molecular cytogenetic techniques". Cytogenet. Genome Res. 122: 139-149 (2008).

Jansa, S. A. ve Weksler, M.,"Phylogeny of muroid rodents: relationships within and among major lineages as determined by IRBP gene sequences", Mol Phylogenet Evol., 31 (1): 256- 276 (2004).

Kandemir, I., "Phylogeny of species and cytotypes of mole rats (Spalacidae) in Turkey inferred from mitochondrial cytochrome b gene sequences", Folia Zoologica 61(1):25-33 (2012).

Kankılıç, T. ve diğ. "Genetic Diversity and Geographic Variation of Chromosomal races of Nannospalax xanthodon (Nordmann, 1840) and Nannospalax ehrenbergi (Nehring, 1898) from Turkey, Revealed by RAPD Analysis", Acta Zoologica Bulgarica 65(1):45-58 (2013).

Kankılıç, T. ve diğ., ''Contributions to the karyology and distribution areas of cytotypes of Nannospalax leucodon (Rodentia: Spalacidae) in Western Anatolia'', Acta Zoologica Bulgarica 62(2), 161-167 (2010).

Kankılıç, T. ve diğ., ''Karyological comparison of populations of the Spalax leucodon Nordmann, 1840 supersupecies (Rodentia: Spalacidae) in Turkey'', Zoology in the Middle East, 42: 15-24 (2007).

Kankılıç, T. ve Gürpınar, C. "Revised classification design of the Anatolian species of Nannospalax (Rodentia: Spalacidae) using RFLP analysis", Türk Journal of Zoology 38: 68-78 (2014).

Kankılıç, Te., Çolak, E. ve Kankılıç, T., ''Macro - Anatomical and Karyological Features of Two Blind Mole Rat Subspecies (Rodentia: Spalacidae) from Turkey'', Anatomy and Histology Embryology 38, 145-153 (2009).

King, M., "Species Evolution: The Role of Chromosome Change" Cambridge University Press, Cambridge (1995).

Kirkpatrick, M. ve Barton, N., "Chromosome inversions, local adaptation and speciation",Genetics 173: 419-434 (2006).

Kleinschmidt, T. ve diğ., "Mole rat hemoglobin: primary structure and evolutionary aspects in a second karyotype of Spalax ehrenbergi, Rodentia, (2n =52)", Biological Chemistry Hoppe-Seyler, 366: 679-685 (1985).

Klein Hofmeijer, G. vede Bruijn, H.. "The mammals from the Lower Miocene of Aliveri (Island of Evia, Greece)", Part 4: The Spalacidae and Anomalomyidae: Proceedings of the Koninklijke Nederlandse Akademie van Wetenschappen, B 88: 185-198 (1985).

Krystufek B., ve diğ., "Evolutionary history of mole rats (genus Nannospalax) inferred from mitochondrial cytochrome b sequence", Biological Journal of the Linnean Society 105, 446- 455 (2012).

Krystufek, B. ve Vohralík, V., "Mammals of Turkey and Cyprus. Rodentia II. Cricetinae, Muridae, Spalacidae, Calomyscidae,Capromyidae, Hystricidae, Castoridae", Knjiznica Annales Majora, Koper, (2009).

Lande, R. The expected fixation rate of chromosomal inversions. Evolution 743-752 (1984).

Li, W. H., ve diğ., "Rates of nucleotide substitution in primates and rodents and the generation-time effect hypothesis", Mol Phylogenet Evol, 5: 182-187 (1996).

Lin, G-H. ve diğ., "Transcriptome sequencing and phylogenomic resolution within Spalacidae (Rodentia)", BMC Genomics 15:32 (2014).

Martin, A. P. ve Palumbi, S. R., "Body size, metabolic rate, generation time, and the molecular clock", Proce Natl Acad Sci USA 90: 4087-4091 (1993).

Martinez, P. A. ve diğ., "A comparative study on karyotypic diversification rate in mammals", Heredity, 118: 366-373 (2017).

Matur, F. ve diğ., "Chromosomal evolution of the genus Nannospalax (Palmer 1903) (Rodentia, Muridae) from western Turkey", Turk. J. Zool., 37: 470-487 (2013).

Michaux, J. ve Catzeflis, F., "The bushlike radiation of muroid rodents is exemplified by the molecular phylogeny of the LCAT nuclear gene", Mol Phylogenet Evol., 17 (2): 280-293 (2000).

Mirzaie Ataabadi, M. ve diğ. "Continental scale patterns in Neogene mammal community evolution and biogeography: a Europe-Asia perspective", Wang ve diğ. Fossil Mammals of Asia, University of Columbia Press. Sayfa: 629-55, (2013).

Musser, G. ve Carleton, M., "Superfamily Muroidea", Wilson, DE. ve Reeder, DM., Mammal species of the world. A taxonomic and geographic reference. The Johns Hopkins University Press, 3rd edition, Baltimore.Sayfa: 894-1531 (2005).

Navarro, A. ve Barton, N. H., "Chromosomal speciation and molecular divergenceaccelerated evolution in rearranged chromosomes", Science 300: 321-324 (2003).

Németh ve diğ., "Old views and new insights: taxonomic revision of the Bukovina blind mole rat, Spalax graecus (Rodentia: Spalacinae)", Zool. J. Linn. Soc. 169: 903-914 (2013).

Nevo, E., "Evolutionary theory and process of active speciation and adaptive radiaton in subterranean mole rats, Spalax ehrenbergi superspecies in Israel", Evol. Biol. 25: 1-125 (1991).

Nevo E., "Mosaic evolution of subterranean mammals: regression, progression and global convergence", Oxford University Press,Oxford. Sayfa: 375-387 (1999).

Nevo, E., "Evolution under environmental stress at macro-and microscales", Genome Biol. Evol., 2: 1039-1052 (2011).

Nevo, E., "Stress, adaptation, and speciation in the evolution of the blind mole rat, Spalax, in Israel", Mol. Phylogenet. Evol., 66: 515-525 (2013).

Nevo, E., Filippucci, MG., Beiles, A., "Genetic polymorphisms in subterranean mammals (Spalax ehrenbergi superspecies) in the Near East revisited: patterns and theory". Heredity 72: 465-487 (1994a).

Nevo, E. ve diğ. "Chromosomal speciation and adaptive radiation of mole rats in Asia Minor correlated with increased ecological stress", Proc. Natl. Acad. Sci. USA 91: 8160-8164 (1994b).

Nevo, E. ve diğ., "Karyotype and genetic evolution in speciation of subterranean mole rats of the genus Spalax in Turkey", Biol. J. Linn. Soc. 54: 203-229 (1995).

Nevo, E. ve diğ., "Speciation and adaptive radiation of subterranean mole rats, Spalax ehrenbergi superspecies, in Jordan", Biol. J. Linn. Soc. 69: 263-281 (2000).

Nevo, E., Ivanitskaya, E., ve Beiles, A., "Adaptive radiation of Blind Subterranean Mole Rats: Naming and Revisiting the Four Sibling Species of the Spalax ehrenbergi Superspecies in Israel: Spalax galili (2n=52), S. golani (2n=54), S. carmeli (2n=58) and S. judaei (2n=60)", Bachkhuys Publishers, Leiden, The Netherlands (2001).

Parsons, P. A., "Environments and evolution interactions between stress, resource inadequacy, and energetic efficiency", Biol. Rev. Camb. Philos. Soc., 80: 589-610 (2005).

Randi, E., "Phylogeography of South European mammals", Weiss, S. ve Ferrand, N., Phylogeography of Southern European Refugia, Springer. Sayfa: 101-126 ( 2007).

Rieseberg, L. H., "Chromosomal rearrangements and speciation", Trends Ecol Evol 16: 351- 358 (2001).

Savic, I. ve Nevo, E., "The Spalacidae: evolutionary history, speciation, and population biology", Nevo, E. ve Reig, OA., Evolution of subterranean mammals at the organismal and molecular levels. Alan R. Liss, Inc. New York. Sayfa: 129-153 (1990).

Savic, I. ve Soldatovic, B. "Distribution range and evolution of chromosomal forms in the Spalacidae of the Balkan Peninsula and bordering regions", J. Biogeogr., 6: 363-374 (1979).

Savic, I. ve Soldatovic, B. "Karyotype evolution and taxonomy of the genus Nannospalax Palmer, 1903, Mammalia, in Europe", Serbian Academy of Sciences and Arts, Separate editions, 59: 1-104 (1984).

Schmitt, T. ve Varga, Z., "Extra-Mediterranean refugia: the rule and not the exception?" Front Zool., 9:1-12 (2012).

Sözen, M. ve diğ. ''Some karyological records and a new cytotype for Spalax (Mammalia: Rodentia) in Turkey'', Folia Zoologica, 55: 247-256 (2006)

Sözen, M. ve diğ., "Cytotypes of Nannospalax xanthodon (Satunin, 1898) (Rodentia: Spalacidae) from western Anatolia", Turkish Journal of Zoology, 37:1108- 25 (2013).

Sözen, M. A., "Karyological study on subterranean mole rats of the Spalax leucodon Nordmann, 1840 superspecies in Turkey", Zeitschrift für Säugetierkunde, 69: 420-429 (2004).

Stanyon, R. ve Graphodatsky, A., "Evolutionary dynamics of mammalian karyotypes", Cytogenet Genome Res., 137: 83-285 (2012).

Steppan, S., Adkins, R. ve Anderson, J., "Phylogeny and divergence-date estimates of rapid radiations in muroid rodents based on multiple nuclear genes", Syst Biol., 53 (4): 533-553 (2004).

Şen, S., ve Sarıca, N., "Middle-Late Miocene Spalacidae (Mammalia) from western Anatolia, and the phylogeny of the family", Bulletin of the Earth Sciences Application Centre of the Hacetepe University, 32(1), 21-50 (2011).

Topachevskii, V. A.,"The fauna of the USSR: mammals, mole rats, Spalacidae", Leningrad: Nauka. (in Russian), Vol. III, no. 3 (1969).

Ünay, E., "On fossil Spalacidae (Rodentia) In: The Evolution of Western Eurasian Neogene Mammal", Faunas, R. L. Bernor, V. Falbusch and H. W Mittmann, Columbia University Press, New York, Sayfa: 246-252 (1996).

Ünay, E. ve Göktaş, F., "Late Early Miocene and Quaternary small mammals in the surroundings of Söke (Aydın): Preliminary results", Geological Bulletin of Turkey, 42: 99-113 (1999).

Ünay, E. ve Göktaş, F., "Small mammal biochronology of the Early Miocene lignitiferous sediments around Kınık (Gördes): preliminary results", Geological Bulletin of Turkey, 43: 1- 5 (2000).Van Valen, L., "A new evolutionary law", Evol. Theory, 1: 1-30 (1973).

Van Valen, L., "Morphological variation and width of ecological niche", Am. Nat., Vol. 99, Sayfa: 377-390 (1965).

Villena, F. P. ve Sapienza, C. "Female meiosis drives karyotypic evolution in mammals", Genetics 159: 1179-1189 (2001).

Wilson, D. E., ve Reeder, D. M., ''Mammal Species of the World: A Taxonomic and Geographic Reference", Third Edition, The Johns Hopkins University Press, Baltimore, (2005)