PHYLOGENETIC ANALYSIS ON FOUR SPECIES OF TILAPIA (Oreochromis niloticus, Tilapia zilli, Sarotherodon galilaeus, Sarotherodon melanotheron) IN NIGERIA

Authors

  • O. T. AGBEBI
  • J. ECHEFU

DOI:

https://doi.org/10.51406/jagse.v16i2.1707

Keywords:

Tilapia, Phylogenetics, Evolution, Sequences, PCR amplification, Taxonomy

Abstract

An investigation into evolutionary history of four species of Tilapia species was carried out as a taxonomy tool to relate most tilapia species found within the Nigerian waters. These species are (Oreochromis niloticus, Tilapia zilli, Sarotherodon galilaeus, Sarotherodon melanotheron). Blood samples from the four species of tilapia were collected and preserved on Fast Technology for Analysis (FTA) cards for DNA extraction and PCR amplification. The various nucleotide sequences of the four Tilapia species found in the Mitochondria D-loop region were copied and aligned with the use of BioEdit and Mega 6.0 softwares. Three phylogenetic trees were drawn to show the evolutionary relationship amongst the four species of tilapia. The results indicated that Sarotherodon galilaeus and Sarotherodon melanotheron are sister texa and share a common ancestor with Oreochromis niloticus. Tilapia zilli is an out group which is the most distantly related to the three species (Oreochromis niloticus, Sarotherodon galilaeus Sarotherodon melanotheron). Tilapia zilli (Israel) and Tilapia zilli are sister texa and share a common ancestor in Tilapia sparmanii. The study also revealed ancestry relationship among other species of fish Cyprinus caprio and Clarias gariepinus formed a clade with the three tilapia species (Tilapia zilli, Tilapia zilli (Israel) and Tilapia sparmanii), which share an unknown but common ancestor.

References

Afolabi, J. A., Imoudu, P. B. and Fagbenro, O. A. (2000). Peri-urban tilapia culture in homestead concrete tanks: economic and technical viability in Nigeria. Proceedings of Fifth International Symposium on Tilapia in Aquaculture (ISTA V), pp.575-581. (K. Fitzsimmons and J.C. Filho, eds.). Rio de Janeiro, Brazil.

Agnese J. F., Adepo-Gourene B., Abban E. K. And Fermon Y. (1997). Genetic differentiation among natural populations of Nile tilapia Oreochromis niloticus. Heredity 79:88-96.

Ansah, Y. B., and Frimpong, E. A. (2015). Impact of the adoption of BMPs on social welfare: A case study of commercial floating feeds for pond culture of tilapia in Ghana. Cogent Food & Agriculture, 1(1), 1048579.

Bostock, J., McAndrew, B., Richards, R., Jauncey, K., Telfer, T., Lorenzen, K., ... & Corner, R. (2010). Aquaculture: global status and trends.Philosophical Transactions of the Royal Society of London B: Biological Sciences, 365(1554), 2897-2912.

Dimmic M. W., Rest J. S., Mindell D. P., and Gold-stein R. A. (2002). Amino acid substitution matrix for inference of retro virus and reverse transcript as ephylogeny. Journal of Molecular Evolution 55:65-73.
Fagbenro O. A. (2002). Tilapia: fish for thought. 32nd Inaugural Lecture, Federal University of Technology, Akure, Nigeria. 77pp

Fagbenro, O. A. and Adebayo, O. T. (2005). A review of the animal and aquafeed industries in Nigeria. In: A synthesis of the formulated animal and aquafeed industry in sub-Saharan Africa, pp.25-36. (John Moeland Matthias Halwart, eds.). CIFA Occasional Paper No.26, FAO, Rome. 61pp.

Felsenstein, J. (1996). [24] Inferring phylogenies from protein sequences by parsimony, distance, and likelihood methods. Methods in Enzymology, 266, 418-427.

Huelsenbeck J. P., Ronquist F., Nielsen R., and Bollback J. P. (2001). Bayesian inference of phylogeny and its impact on evolutionary biology. Science 294: 2310-2314.
Josupeit, H. (2010). World supply and demand of tilapia. FAO, Rome.

Klett V., and Meyer A. (2002). What, if anything, is a Tilapia?—mitochondrial ND2 phylogeny of tilapiines and the evolution of parental care systems in the African cichlid fishes. Molecular Biology and Evolution, 19(6), 865-883.

Lowe S., Browne M., Boudjelas S., and De Poorter M. (2000). 100 of the world's worst invasive alien species: a selection from the global invasive species database (p. 12). Auckland, New Zealand: Invasive Species Specialist Group.

McAndrew, B. J., & Majumdar, K. C. (1983). Tilapia stock identification using electrophoretic markers. Aquaculture, 30(1), 249-261.

Omotoso, F. O., & Fagbenro, O. A. (2005). Role of aquaculture in poverty alleviation in Nigeria. World aquaculture. Vol. 36, No. 3 pp 19-23

Saitou, N., & Nei, M. (1987). The neighbor-joining method: a new method for reconstructing phylogenetic trees. Molecular Biology and Evolution, 4(4), 406-425.

Swofford D. L., Olsen G. J., Waddell P. J. and Hillis D. M. (1996). Phylogenetic inference. In Molecular Systematics (D. M. Hillis, C. Moritz, and B. K. Mable, eds.) pp. 407-514. Sinauer, Sunderland, Massachusetts.

Trewavas, E. 1942. The Cichlid Fishes of Syria and Palestine. Annal and Magazine of Natural History: Series 11 Volume 9, issue 55, 526-536.

Downloads

Published

2017-11-22

Issue

Vol. 16 No. 2 (2016)

Section

Original Manuscript