A New Chromosome Number Report in Stachys L. Species by Use of Karyological Analysis

Rajabi Mazaher, Akram; Miri, Seied Mehdi; Mohammadi, Abdollah

doi:10.22080/jgr.2020.19758.1201

A New Chromosome Number Report in Stachys L. Species by Use of Karyological Analysis

Document Type : Research Article

Authors

¹ Department of Horticulture, Karaj Branch, Islamic Azad University, Karaj, Iran

² Department of Plant Breeding, Karaj Branch, Islamic Azad University, Karaj, Iran

10.22080/jgr.2020.19758.1201

Abstract

The somatic chromosome numbers and karyotype features of seven populations representing three species of Stachys L. (Lamiaceae), which are naturally distributed across Iran, were described. The results confirm the presence of different basic chromosome numbers including x = 15 and 17 within the genus. All the studied taxa were diploid and the chromosome counts of two species including S. benthamiana and S. setifera (2n = 34) are reported for the first time, while the chromosome number of S. byzantina (2n = 30) is confirmed. The chromosomes in the studied taxa of Stachys were generally small, as the longest chromosome length was detected on S. setifera (18713) (2.26 μm), whereas S. setifera (23354) demonstrated the shortest length (1.46 μm). The karyotypes were symmetrical composing of metacentric chromosomes as indicated by their mean arm ratio (AR) that ranged between 1.11 in S. setifera (23354) and 1.29 in S. byzantina (37985), so it was classified as class 1A according to Stebbins’ categories. Based on the values of total form percentage (TF%, 47.1%), Arano index of karyotype asymmetry (AsK%, 52.5%), symmetry index (S%, 94.0%) and differences of range relative length (DRL, 0.36), S. setifera (23354) had the most inter-and intra-chromosomal symmetric karyotype. Also, S. byzantina (37985) had the most inter-and intra-chromosomal asymmetric karyotype based on the values of TF% (42.0%), AsK% (56.1%), and relative length of chromosome (RL%, 6.6%). The results of cluster analysis based on chromosomal parameters divided the taxa into two main groups using the Ward method. Group I included taxa with x = 17 and group II contained S. byzantina (x = 15).

Keywords

References

Akçiçek E, Dirmenci T, Dündar E. 2012. Taxonomical notes on Stachys sect. Eriostomum (Lamiaceae) in Turkey. Turk J Bot 36: 217-234.

Akçiçek E. 2020. Taxonomic revision of Stachys sect. Olisia (Lamiaceae: Lamioideae) in Turkey. Phytotaxa 449: 109-148.

Arano H. 1963. Cytological studies in subfamily Carduoideae (Compositae) of Japan. IX. The karyotype analysis and phylogenic considerations on Pertya and Ainsliaea. Bot Mag (Tokyo) 76: 32-39.

Baltisberger M, Widmer A. 2009. Karyological data of some angiosperms from Romania. Willdenowia 39: 353-363.

Baltisberger M. 2002. Cytological investigations on some Albanian plant species. Candollea 56: 245-260.

Baltisberger M. 2006. Cytological investigations on Bulgarian phanerogams. Willdenowia 36 (Special Issue): 205-216.

Bilušić Vundać V. 2019. Taxonomical and phytochemical characterisation of 10 Stachys taxa recorded in the Balkan Peninsula flora: A review. Plants 8:32.

Dirmenci T, Yıldız B, Akçiçek E, Martin E, Dündar E. 2011. Stachys vuralii (Lamiaceae), a new species from north Anatolia, Turkey. Ann Bot Fenn 48: 401-408.

Fallahi M, Mohammadi A, Miri SM. 2020. The natural variation in six populations of Calendula officinalis L.: A karyotype study. J Genet Resour 6:34-40.

Floden AA. 2016. A new endemic hedgenettle (Stachys: Lamiaceae) from Tennessee. Phytoneuron 53: 1-6.

Gedik O, Kocabaş YZ. 2020. Karyological characteristics of five endemic species with a natural spread in Kahramanmaraş flora. Acta Bio Turcica 33: 132-139.

Gill LS. 1980. Cytotaxonomy of the genus Stachys L. in Canada. Caryologia 33: 473-481.

Goren AC. 2014. Use of Stachys species (mountain tea) as herbal tea and food. Rec Nat Prod 8: 71-82.

Güner Ö, Selvi S, Altınordu F, Martin E. 2019. The analysis of some biological data on Stachys kurdica (Lamiaceae) in Turkey. Phytol Balc 25: 271-280.

Huziwara Y. 1962. Karyotype analysis in some genera of Compositeae. VIII. Further studies on the chromosome of Aster. Am J Bot 49: 116-119.

Keshavarzi M, Rezaei MB, Miri SM. 2016. The comparison of morphological and phytochemical evaluation in some population of Stachys lavandulifolia Vahl. in different provinces under field conditions. Eco-phytochem J Med Plant 4: 78-87.

Khadivi-Khub A, Aghaei Y. 2015. Chromosome counts and karyotypic study of Stachys lavandulifolia Vahl. Braz J Bot 38: 113-118.

Levan A, Fredga K, Sandberg AA. 1964. Nomenclature for centromeric position on chromosomes. Hereditas 52: 201-220.

Marhold K. 2011. IAPT/IOPB chromosome data 11. Taxon 60: 1220-1223.

Martin E, Altınordu F, Güner Ö, Akçiçek E. 2016. Karyological studies of six endemic species of Stachys (Lamiaceae) subsect. Fragiles from Turkey. Cytologia 81: 231-236.

Martin E, Çetin Ö, Akçiçek E, Dirmenci T. 2011. New chromosome counts of genus Stachys (Lamiaceae) from Turkey. Turk J Bot 35: 671-680.

Medeiros-Neto E, Nollet F, Moraes AP, Felix LP. 2017. Intrachromosomal karyotype asymmetry in Orchidaceae. Genet Mol Biol 40: 610-619.

Oroji Salmasi K, Javadi H, Miri SM. 2019. Karyotype analysis of some Allium species in Iran. J Plant Physiol Breed 9: 115-127.

Peruzzi L, Eroğlu HE. 2013. Karyotype asymmetry: again, how to measure and what to measure? Comp Cytogen 7: 1-9.

Rad AC, Atri M, Mohsenzadeh F, Jahandideh E. 2012. Chromosome counts in Stachys inflata Benth.(Laminoideae): Chromosome number variation in different populations from Iran. Chromosome Bot 7:67-71.

Salmaki Y, Zarre S, Govaerts R, Bräuchler C. 2012. A taxonomic revision of the genus Stachys (Lamiaceae: Lamioideae) in Iran. Bot J Linn Soc 170: 573-617.

Samaropoulou S, Bareka P, Artelari R, Kamari G. 2013. Karyological studies on some endemic and rare species of Kephalonia, Ionian Islands, Greece. Fl Medit 23: 215-221.

Seijo JG, Fernández A. 2003. Karyotype analysis and chromosome evolution in South American species of Lathyrus (Leguminosae). Am J Bot 90: 980-987.

Stebbins GL. 1971. Chromosomal Evolution in Higher Plants. Edward Arnold LTD, London, 87-89.

Strid A. 1965. Studies in the Aegean flora: VI. Notes on some genera of Labiatae. In: Nordenstam B, ed. Botaniska notiser, Sweden Lund Bot 118: 104-122.

Tarinejad AR, Mirshekari B. 2009. Study on variation of karyotypes between and within species of Salvia officinalis L., Stachys byzantine L. and Dracocephalum molarica L. Acta Hortic 853: 39-46.

Techio VH, Resende LV, Braz GT, Resende KF, Samartini CQ. 2017. Unconventional vegetables collected in Brazil: chromosome number and description of nuclear DNA content. Crop Breed Appl Biotechnol 17: 320-326.

Tundis R, Peruzzi L, Menichini F. 2014. Phytochemical and biological studies of Stachys species in relation to chemotaxonomy: A review. Phytochemistry 102: 7-39.

Zakaria RA, Zare N. 2013. Karyotypic analysis on Stachys lavandulifolia Vahl from Northwest of Iran. Iran J Rangeland Forest Plant Breed Genet Res 21: 132-139.

Zuo L, Yuan Q. 2011. The difference between the heterogeneity of the centromeric index and intrachromosomal asymmetry. Plant Syst Evol 297: 141-145.

A New Chromosome Number Report in Stachys L. Species by Use of Karyological Analysis

References

Volume 7, Issue 1
2021
Pages 29-35

Files

Share

How to cite

Statistics

A New Chromosome Number Report in Stachys L. Species by Use of Karyological Analysis

References

Volume 7, Issue 1 2021Pages 29-35

Files

Share

How to cite

Statistics

Volume 7, Issue 1
2021
Pages 29-35