[Ackerfield, J., Wen, J., 2003. Evolution of Hedera L. (the ivy genus, Araliaceae): insights from chloroplast DNA data. International Journal of Plant Science, 164: 593–602.10.1086/375423]Search in Google Scholar
[Alp, F.M., Gebologlu, M.D., 2017. Two different molecular markers (SSR & IPBS) assessment on Coriandrum sativum L. with capillary electrophoresis. Fresenius Enviro-mental Bulletin, 26: 4568–4573.]Search in Google Scholar
[Andeden, E.E., Baloch, F.S., Derya, M., Kilian, B., Özkan, H., 2013. iPBS – Retrotransposons-based genetic diversity and relationship among wild annual Cicer species. Journal of Plant Biochemistry and Biotechnology, 22: 453–466.10.1007/s13562-012-0175-5]Search in Google Scholar
[Baloch, F.S., Derya, M., Andeden, E.E., Alsaleh, A., Cömertpay, G., Kilian, B., Özkan, H., 2015. Inter-primer binding site retrotransposon and inter-simple sequence repeat diversity among wild Lens species. Biochemical Systematics and Ecology, 58: 162–168.10.1016/j.bse.2014.12.002]Search in Google Scholar
[Borna, F., Luo, S., Ahmad, N.M., Nazeri, V., Shokrpour, M., Trethowan, R., 2017. Genetic diversity in population of the medicinal plant Leonurus cardiaca L. revealed by inter-primer binding site (iPBS) markers. Genetic Resources and Crop Evolution, 64: 479–492.10.1007/s10722-016-0373-4]Search in Google Scholar
[Bošeľová, D., Žiarovská, J., 2016. Direct PCR as the platform of Hedera helix, L. genotypying without the extraction of DNA. Journal of Central European Agriculture, 17 (4): 941–949.10.5513/JCEA01/17.4.1795]Search in Google Scholar
[Bošeľová, D., Žiarovská, J., Hlavačková, L., Ražná, K., Bežo, M., 2016. Comparative analysis of different methods of Hedera helix DNA extraction and molecular evidence of the functionality in PCR. Acta Fytotechnica et Zootechnica, 19: 144–149.10.15414/afz.2016.19.04.144-149]Search in Google Scholar
[Brandvain, Y., Kenney, A.M., Flagel, L., Coop, G., Sweigart, A.L., 2014. Speciation and introgression between Mimulus nasutus and Mimulus guttatus. PLOS Genetics, 10 (6): e1004410.10.1371/journal.pgen.1004410407252424967630]Search in Google Scholar
[Clarke, M.M., Reichard, S.H., Hamilton, C.W., 2006. Prevalence of different horticultural taxa of ivy (Hedera spp., Araliaceae) in invading populations. Biological Invasion, 8: 149–157.10.1007/s10530-004-2424-6]Search in Google Scholar
[Davey, J.W., Blaxter, M.L., 2010. RADseq: next generation population genetics. Briefings in Functional Genomics, 9: 416–423.10.1093/bfgp/elq031308077121266344]Search in Google Scholar
[Davies, I.D., Cary, G.J., Landguth, E.L., Lindenmayer, D.B., Banks, S.C., 2016. Implications of recurrent disturbance for genetic diversity, Ecology and Evolution, 6: 1181–1196.10.1002/ece3.1948472544926839689]Search in Google Scholar
[Demirel, U., Tindaş, İ., Yavuz, C., Baloch, F.S., Çalişkan, M.E., 2018. Assessing genetic diversity of potato geno-types using inter-PBS retrotransposon marker system. Plant Genetic Resources, 16: 137–145.10.1017/S1479262117000041]Search in Google Scholar
[Duan, Y.B., Guo, L.L., Wei, D.E., Hou, X.G., 2015. Genetic diversity analysis of tree peony germplasm using iPBS markers. Genetics and Molecular Research, 14: 7556–7566.10.4238/2015.July.3.3126214434]Search in Google Scholar
[Eckert, A.J., 2011. Seeing the forest for the trees: statistical phylogeography in a changing world. New Phytologist, 189: 894–897.10.1111/j.1469-8137.2010.03631.x21288241]Search in Google Scholar
[Fehrmann, L., Philbrick, C.T., Halliburton, R., 2012. Intraspecific variation in Podostemum ceratophyllum (Podostemaceae): evidence of refugia and colonization since the last glacial maximum. American Journal of Botany, 99: 145–151.10.3732/ajb.110027522203653]Search in Google Scholar
[Govindaraj, M., Vetriventhan, M., Srinivasan, M., 2015. Importance of genetic diversity assessment in crop plants and its recent advances: an overview of its analytical perspectives. Genetic Research International, 2015: article ID 431487, 14 p.10.1155/2015/431487438338625874132]Search in Google Scholar
[Green, A. F., Ramsey,T. S., Ramsey, J., 2011. Phylogeny and biogeography of ivies (Hedera spp., Araliaceae), a polyploid complex of woody vines. Systematic Botany, 36: 1114–1127.10.1600/036364411X605100]Search in Google Scholar
[Green, A.F., Ramsey, T.S., Ramsey, J., 2013. Polyploidy and invasion of English ivy (Hedera spp., Araliaceae) in North American forests. Biological Invasions, 15: 2219–2241.10.1007/s10530-013-0446-7]Search in Google Scholar
[Grivet, D., Petit, R.J., 2002. Phylogeography of the common ivy (Hedera sp.) in Europe: genetic differentiation through space and time. Molecular Ecology, 11: 1351–1362.10.1046/j.1365-294X.2002.01522.x12144657]Search in Google Scholar
[Gugger, P.F., Gionzález-Rodríguez, A., Rodríguez-Correa, H., Sugita, S., Cavender-Bares, J., 2011. Southward Pleistocene migration of Douglas-fir into Mexico: phylogeography, ecological niche modeling, and conservation of “rear edge” populations. New Phytologist, 189: 1185–1199.10.1111/j.1469-8137.2010.03559.x21118265]Search in Google Scholar
[Guo, D., Duo, M., Hou, X., Thang, G., 2014. Molecular diversity analysis of grape varieties based on iPBS markers. Biochemical Systematics and Ecology, 52: 27–32.10.1016/j.bse.2013.10.008]Search in Google Scholar
[Hasanova, S.Z., Akparov, A., Mammadov, L., Amirov, S., Babayeva, J., Nasibova, Z., Mukhtarova, K., Shikhaliyeva, V., İzzatullayeva, M., Abbasov, M., 2017. Genetic diversity of chickpea genotypes as revealed by ISSR and RAPD markers. Genetika, 49: 415–423.10.2298/GENSR1702415H]Search in Google Scholar
[Hoffman, A.A., Willi, Y., 2008. Detecting genetic responses to environmental change. Nature Reviews Genetics, 9: 421–432.10.1038/nrg233918463665]Search in Google Scholar
[Holderegger, R., Kamm, U., Gugerli, F., 2006. Adaptive vs. neutral genetic diversity: implications for landscape genetics. Landscape Ecology, 21: 797–807.10.1007/s10980-005-5245-9]Search in Google Scholar
[Hooshyar, H., Talari, S., Feyzi, F., 2014. Therapeutic effect of Hedera helix alcoholic extracts cutaneus leishmaniasis caused by Leishmania major in Balb/c mice. Jundishapur Journal of Microbiology, 7 (4): e9432.10.5812/jjm.9432413862425147703]Search in Google Scholar
[Kalendar, R., Antonius, K., Smýkal, P., Schulman, A.H., 2010. iPBS: a universal method for DNA fingerprinting and retrotransposon isolation. Theoretical and Applied Genetics, 121: 1419–1430.10.1007/s00122-010-1398-220623102]Search in Google Scholar
[Katayama, N., Kato, M., Imaichi, R., 2016. Habitat specifity enhances genetic differentiation in two species of aquatic Podostemaceae in Japan. American Journal of Botany, 103: 317–324.10.3732/ajb.150038526838363]Search in Google Scholar
[Kothera, L., Richards, CH.M., Carney, S.E., 2007. Genetic diversity and structure in the rare Colorado endemic plant Physaria bellii Mulligan (Brassicaceae). Conservation Genetics, 8: 1043–1050.10.1007/s10592-006-9252-4]Search in Google Scholar
[Kumar, A.P., Mishra, S., Singh, C., Sundaresan, V., 2014. Efficiency of ISSR and RAPD markers in genetic divergence analysis and conservation management of Justicia adhatoda L., a medicinal plant. Plant Systematic and Evolution, 300: 1409–1420.10.1007/s00606-013-0970-z]Search in Google Scholar
[Lenaghan, S.C., Burris, J.N., Chourey, K., Huang, Y., Xia, L., Lady, B., Sharma, R., Pan, CH., Lejeune, Z., Foister, S., Hettich, R.L., Stewart, Jr. C.N., Zhang, M., 2013. Isolation and chemical analysis of nanoparticles from English ivy (Hedera helix, L.). Journal of the Royal Society Interface, 10 (87): 20130392.10.1098/rsif.2013.0392375799923883948]Search in Google Scholar
[Lutsenko, Y., Bylka, W., Matławska, I., Darmohray, R., 2010. Hedera helix as a medical plant. Herba Polonica, 6: 83–96.]Search in Google Scholar
[Mehmood, A., Jaskani, M.J., Ahmad, S., Ahmad, R., 2013. Evaluation of genetic diversity in open pollinated guava by iPBS primers. Pakistan Journal of Agricultural Sciences, 50: 591–597.]Search in Google Scholar
[Minn, Y., Gailing, O., Finkeldey, R., 2015. Genetic diversity and structure of teak (Tectona grandis L. f.) and dahat (Tectona hamiltoniana Wall.) based on chloroplast microsatellites and amplified fragment length polymorphism markers. Genetic Resources and Crop Evolution, 63: 961–974.10.1007/s10722-015-0293-8]Search in Google Scholar
[Nadeem, M.A., Nawaz, M.A., Shahid, M.Q., Dogan, Y., Comertpay, G., Yildiz, M., Hatipoglu, R., Ahmad, F., Alsaleh, A., Labhane, N., Ozkan, H., Chung, G., Baloch, F.S., 2018. DNA molecular markers in plant breeding: current status and recent advancements in genomic selection and genome editing. Biotechnology & Biotechnological Equipment, 32: 261–285.10.1080/13102818.2017.1400401]Search in Google Scholar
[Obermayer, R., Greilhuber, J., 2000. Genome size in Hedera helix L. – a clarification. Caryologia: International Journal of Cytology, Cytosystematics and Cytogenetics, 53 (1): 1–4.10.1080/00087114.2000.10589175]Search in Google Scholar
[Pârvu, M., Vlase, L., Pârvu, A.E., Rosca-Casian, O., Gheldiu, A.M., Pârvu, O., 2015. Phenolic compounds and antifungal activity of Hedera helix L. (ivy) flowers and fruits. Notulae Botanicale HortiAgrobotanici Cluj-Napoca, 43: 53–58.10.15835/nbha4319644]Search in Google Scholar
[Schierenbeck, K.A., 2017. Population-level genetic variation and climate change in a biodiversity hotspot. Annals of Botany, 119: 215–228.10.1093/aob/mcw214]Search in Google Scholar
[Vargas, P., Mcallister, H.A., Morton, C., Jury, S.L., Wilkinson, M.J., 1999. Polyploid speciation in Hedera (Araliaceae): phylogenetic and biogeographic insights based on chromosome counts and ITS sequences. Plant Systematics and Evolution, 219: 165–179.10.1007/BF00985577]Search in Google Scholar
[Xu, J.Y., Zhu, Y., Yi, Z., Wu, G., Xie, G.Y., Qin, M.J., 2018. Molecular diversity analysis of Tetradium ruticarpum (WuZhuYu) in China based on inter-primer binding site (iPBS) markers and inter-simple sequence repeat ISSR markers. Chinese Journal of Natural Medicines, 16: 1–9.10.1016/S1875-5364(18)30024-4]Search in Google Scholar
[Valcárcel, V., Fiz, O., Vargas, P., 2003. Chloroplast and nuclear evidence for multiple origins of polyploids and diploids of Hedera (Araliaceae) in the Mediterranean basin. Molecular Phylogenetic and Evolution, 27: 1–20.10.1016/S1055-7903(02)00364-0]Search in Google Scholar
[Záhumenická, P., Fernández, E.C., Šedivá, J., Žiarovská, J., Ros-Santaella, J.L., Martínez-Fernández, D., Russo, D., Milella, L., 2018. Morphological, physiological and genomic comparisons between diploids and induced tetraploids in Anemone sylvestris L. Plant Cell, Tissue and Organ Culture, 132: 317–327.10.1007/s11240-017-1331-3]Search in Google Scholar