CYTOGENETIC STUDIES OF SOME SPECIES OF TRADESCANTIA (L) AND COMMELINA (L) IN AKWA IBOM STATE, NIGERIA

Akwapoly Journal of Communication and Scientific Research (APJOCASR)

Authors

  • I.J. Udo Akwa Ibom State Polytechnic Ikot Osurua Author
  •   Christiana Utibe Etuk Akwa Ibom State Polytechnic Ikot Osurua Author
  • I. F. Effiong Akwa Ibom State Polytechnic Ikot Osurua Author
  • A. N. Robert Akwa Ibom State Polytechnic Ikot Osurua Author

DOI:

https://doi.org/10.60787/apjcasr.Vol8No2.35

Keywords:

Chromosome, karyotype, Tradescantia , Commelina

Abstract

 Morphological analyses of the vegetative characteristics of two species of Tradescantia and two species of Commelina grown in polythene bags in the greenhouse were done. Inter-specific variation in vegetative and floral morphology was significant (p<0.5). The root tips were harvested between 7:30 am and 9:00 am, pretreated in 8-hydroxyl-quinoline, and transferred into 3:1 ethanol acetic acid for 24 hours. Root tips were hydrolyzed in 10% hydrochloric acid and subsequently squashed in FLP orcein. The chromosome number was 2n = 12 in Tradescantia spathacea with a Karyotype formula of 10m + 2sm. The chromosome number of Tradescantia pallida was 2n = 24 with a Karyotype formula of 22m +2sm, while the Chromosome number was 2n = 22 in Commelina benghalensis with a karyotype formula of 14m+2sm + 4st. The chromosome number was 2n = 30 in Commelina diffusa with a karyotype formula of 28m + 2sm. The mean chromosome lengths in the two genera ranged from 1-4µm. A secondary construction satellite was observed in the longest chromosome of Commelina benghalensis. Morphological and cytological data from the two genera showed considerable differences, which would be helpful to the genera's taxonomic separation.

Author Biographies

  • I.J. Udo, Akwa Ibom State Polytechnic Ikot Osurua

    Department of Biological Sciences, School of Applied Sciences

     

  •   Christiana Utibe Etuk, Akwa Ibom State Polytechnic Ikot Osurua

    Department of Biological Sciences, School of Applied Sciences,

     

  • I. F. Effiong, Akwa Ibom State Polytechnic Ikot Osurua

    Department of Biological Sciences, School of Applied Sciences

     

  • A. N. Robert, Akwa Ibom State Polytechnic Ikot Osurua

    Department of Chemical Sciences, School of Applied Sciences

     

References

REFERENCES

Alarn, N., and Sharma, A. K. (1994). trends of Chromosome Evolution in Family commelinaceae. Nucleus, 27: 231-241.

Arabbeigi, M., Arzani, A. and Saeidi, G. (2011). study of karyotype and nucleolar organizer region (NORs) in wild, synthetics and cultivated wheats. Emirates Journal of Food and Agriculture, 23(2): 196-203.

Bhattacharya, B. (1975). Cytological Studies on Some Members of Indian Commelinaceae. Cytologia, 40: 285-299.

Celarier, R. P. (1955). cytology of the Tradescantieae. Bull. Torrey. Bot Club 82: 30-38.

Chen, R. Y., Song, W. Q. Li, X. Li, M. X. Liang, G. I and Chen, C. B. (2003). Chromosome Atlas of Major Economic Plants Genome in China, Chromosome Atlas of Garden Flowering Plants in China. Science Press, Beijing. 3:113 – 119

Clarke, W. D., Gaut S. B., Duvall M. R. and Clegg M. T. (1993). Phylogenetic relationships of the Bromeliiflorate – Commeliniflorae –

Zingiberiflorae complex of monocots based on rbcl sequence comparisons. Annals of Missourl Botanical Garden 80: 987-998.

Dietrich, A. j. (1986). The Influence of Fixation on the Morphology of Mitotic Chromosomes. Canadian Journal of Genetics and Cytology, 28: 536-539.

Ensermu, K. and Faden, B. (1997). Commelinaceae. In: Flora of Ethiopia and Eritrea, Edwards, S., Mesfin Tadesse, Demissew Sebsebe and Hedberg, Ist Edition. Hydrocharitaceae to Arecaceae. The National Herbarium, Addis Ababa University, Addis Ababa, and Department of Systematic Botany, Uppsala University, Uppsala. pp. 212-215.

Faden, R. B. (1998). Commelinaceae. In: The Families and Genera of Vascular Plants, (Kubitzki, Edition). Springer-Verlag, Berlin. 109-128.

Faden, R. B. (2005). Natural Variation in Commelina benghalensis. Tropical Spider Symposium, Tifton, G. A. 29-35.

Faden, R. B. (2007). New species Tricarpelema (Commelinacea) from the Africa and Asia, including the First Record of the Genus from Africa and a Synopsis of the Genus. Novon, 17(2): 160-171.

Faden, R. B. (2012). Commelinaceae, In: Beentje, H. (Edition.). Flora of Tropical East Africa. Royal Botanic Gardens, Kew: Richmond, 203-204.

Faden, R. B. and Hunt, D. R (1991). The Classification of the Commelinaceae. Taxon 40: 19-31.

Faden, R.B. (2000). Commelinaceae R. Brovn: Spiderwort family. In: Flora of North America Editorial Committee, 2nd Edition. Flora of North America. New York: Oxford University Press, 170-197. Sabirzhangy BF and Vakhitoy. A

Fedorov, A. (1974). Chromosome Numbers of Flower Plants. Otto Koeltz, Koeniggstein. Novon, 11:16-21.

Fujishima, H. (2007a). Karyotype Diversity of Commelina benghalensis L. (Commelinaceae). chromosome Science, 10: 53-63.

Fujishima, H. (2007b). Karyotype Diversity of Commelina diffusa Burm. (Commelinacea). Chromosome Science, 10: 21-28.

Fukishima, H., Jun-yeyon, W., and Chung-yeol, L. 2004. A Karyotypical study on Commelina communis L. in the Korean Peninsula. Chromosome Science 8: 35-44.

Garcia Velazquez, A. (1998). Chromosome Polymorphism and Bivalent-forming Triploid and Tetraploid Tradescantia pallida (Commelinaceae). Cytologia 63:191-197.

Goldblatt, P. and Johnson D. E. (2000). Index to Plant Chromosome Numbers 1996-1997. Monographs in Systematic botany from the Missouri Botanical Garden, 30:1-239.

Handlos, W. L. (1970). Cytological Investigations of Some Commelinaceae from Mexico. Baileya, 17:6-33.

Heitz, B. (1967). Cornrnelinacees. Information of Annals of Caryosyst. EtCytogenet. 1:17-21.

Jones, K. and jopling, C. (1972). Chromosomes and the classification of the Commelinaceae. Botanical journal of the Linnean society. 65: 129-169.

Kaul, V., Koul, A. K. and Sharma, N. (2007). Genetic System of Two Rainy Weeds: Commelina bengalensis L and Commelina caroliniana Walter. Chromosome Botany 2: 99-105.

Kubitzia, K. (1998). The families and genera of vascular plants.

Springer, New York. P. 76.

Levan, A., Fredga, K. and Sanderberg, A. A. (1964). Nomenclature for centrometric position on chromosomes. Hereditas, 52(2): 201-220.

Lewis, W. H., and Taddesse, E. (1964). Chromosomes numbers in Ethiopian Commelinaceae. Kirkia 4: 213-215.

Li, X., Zhu. C., Lin, Z., Wu. Y., Zhang, D., Bai, G., Song, W., Ma, J., Muehlbauer, G., Scanlon, M., Zhang, M. and Yu, J. (2011). Chromosomes size in diploid Eukaryotic species centers on the average length with a conserved boundary. Oxford University Press, England. 212p.

Mabberley, D. (1997). The plant-book. Cambridge University Press, Cambridge. 56p.

Malik, C. P. (1961). Chromosomes numbers in some Indian angiosperms: monocotyledons. Science and culture, 27: 197-198.

Matthew, O. and Peter, O. E. (2013). karyotypic studies of Commelina bengalensis variety and C. forskalaei (Commelinaceae) from Nigeria. Cytologia 78(2): 15 1-156.

Moore, R. J. (1973). Index to plant chromosomes numbers 1967-1971. Regnum vegetable. 90:1-539.

Moore, R., J. (1977). Index to plant chromosomes numbers 1973-1974. Regnum vegetable. 96:1-257.

Morton, J. K. (1967). The Commelinaceae of West Africa: A biosystematic survey. Journal of the Linnean society of botany, 60: 167-221

Mudua, R. (2007). Commelina africana L. Pretora national herbarium, South Africa.

Oladipo, O. T. and Ayo-Ayinde, M. A., (2014). Foliar Epidemal Morphology of the Genera Aneilema and commelina (Commelinaceae). Ife Journal of science. 16(2): 219-225.

Sakurai, T. and Ichikawa, S. (2001). Karyotypes and Giemsa C-banding Patterns of Zebrina pendula, Zebrina purpusii and Sercreasea purpurea, compared with those of tradescantia ohiensis. Genes and Genetic systems, 76: 235-242.

Shingebu, Y. and Kobori, K. (1997). Karyotype variation of Commelina bengalensis correlated with habitats in Kochi Preference, Japan. chromosomes science, 1: 83-87.

Stebbins, B. L. (1971). Chromosomes evolution in higher plants. Addison Wesley, New York. 212p.

Tanaka, R. and Maekawa, F. (1983). Observation of chromosomes in some orchid species from Peru and Mexico. Annals of the Tsukkuba Botanical gardens, 2:33-45.

Verma, P. S. and Agarwal, V. K. (2005). Cell biology, genetics, molecular biology, Evolution and ecology. S. Chand and Company Ltd, New Delhi. 43p.

Weryszko - Chmielewska, E. (1989). An investigation of the Karyotypes of four species from the Genera setcreasea, spironema and Tradescantia (Commelinaceae), Acta societatis botanicorum poloniae, 58: 527-540.

Yang, D. K. and Kang, Z. I. (2004). The chromosomes numbers and karyotype analysis of Commelina bengalensis. Journal of shading Normal university natural science, 19(3): 72-73.

Zheng, J. Y., Ou, C. Y. and Chen, R. Y. (1989). Cytotaxonomical Studies on Commelinaceae in china. Chromosomes numbers and karyotypes of some Chinese species. In: plant chromosomes Research, (Hong D. 3rd edition). Organizing committee of the sino japanese symposium on plant chromosomes, Beijing. 363p.

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Published

2024-10-02

How to Cite

CYTOGENETIC STUDIES OF SOME SPECIES OF TRADESCANTIA (L) AND COMMELINA (L) IN AKWA IBOM STATE, NIGERIA: Akwapoly Journal of Communication and Scientific Research (APJOCASR). (2024). Akwapoly Journal of Communication & Scientific Research, 8(2), 1-17. https://doi.org/10.60787/apjcasr.Vol8No2.35