Comparing genetic diversity of Sitophilus zeamais (Motchulsky) popula-tions sampled in several agro-ecological areas between Central African Republic and Senegal

Authors

  • Asta Eliane Bambou Department of Animal Biology, Cheikh Anta Diop University, Dakar 5005, Senegal
  • Serge Florent Bolevane Ouantinam Department of Live Sciences, University of Bangui, Bangui 908, Central African Republic
  • Cheikh Thiaw Senegalese Institute of Agricultural Research/National Center of Agronomics Research (ISRA- CNRA); Box: 53 Senegal
  • Jean Alain Mokossesse Department of Live Sciences, University of Bangui, Bangui 908, Central African Republic
  • Assane Ndong Department of Animal Biology, Cheikh Anta Diop University, Dakar 5005, Senegal
  • Mamadou Kane CBGP-BIOPASS; IRD Bel Air, B.P: 1386 Dakar Senegal
  • Mbacke Sembène Department of Animal Biology, Cheikh Anta Diop University, Dakar 5005, Senegal

DOI:

https://doi.org/10.38150/sajeb.4(4).p172-182

Abstract

Maize is attacked by many post-harvest pests including Sitophilus spp and Prostephanus spp, which causes remarkable loss during storage. Approxi-mately 30 to 40 % loss in the absence of treatment has been reported world-wide. This study compare genetically Central African and Senegalese popula-tions of Sitophilus zeamais from various agroecological zones using 3 mark-ers namely cytochrome b, cytochrome oxidase and nuclear 28S gene. S. zeamais samples were analyzed on both of two other sites 34 for the 28S gene; 68 for cytochrome b and 36 for the cytochrome oxydase. Results ana-lyzed by AMOVA have shown high genetic variation outside population of each country (6.17 % with Cyt b; 21.45 % with 49.83 % and COI in the case of 28S) and low within subpopulations (-10.06 % for Cyt b, 9.36 % for the COI and -15.23 % for 28S). Majority haplotype is shared between the two popula-tions for 28S and cytochrome b genes and there is a very high haplotype di-versity in populations of Senegal considering the Cytochrome b gene (0.781 + / - 0.00364) while with COI and 28S, high values of diversity are observed in Central African sequences, respectively 1.000 + / - 0.00274 and 0.867 + / - 0.011. Genetic differentiation obtained according to the geographical origin is significant between the two populations; however, it is not at the level of subpopulations. Developed by the three approaches (parsimony, likelihood and Bayesian) phylogenetic trees are resolved and show a speciation of the two populations according to the geographical origin.

Author Biographies

Asta Eliane Bambou, Department of Animal Biology, Cheikh Anta Diop University, Dakar 5005, Senegal

Department of Animal Biology, Cheikh Anta Diop University, Dakar 5005, Senegal

Serge Florent Bolevane Ouantinam, Department of Live Sciences, University of Bangui, Bangui 908, Central African Republic

Department of Live Sciences, University of Bangui, Bangui 908, Central African Republic

Cheikh Thiaw, Senegalese Institute of Agricultural Research/National Center of Agronomics Research (ISRA- CNRA); Box: 53 Senegal

Senegalese Institute of Agricultural Research/National Center of Agronomics Research (ISRA- CNRA); Box: 53 Senegal

Jean Alain Mokossesse, Department of Live Sciences, University of Bangui, Bangui 908, Central African Republic

Department of Live Sciences, University of Bangui, Bangui 908, Central African Republic

Assane Ndong, Department of Animal Biology, Cheikh Anta Diop University, Dakar 5005, Senegal

Department of Animal Biology, Cheikh Anta Diop University, Dakar 5005, Senegal

Mamadou Kane, CBGP-BIOPASS; IRD Bel Air, B.P: 1386 Dakar Senegal

CBGP-BIOPASS; IRD Bel Air, B.P: 1386 Dakar, Senegal

Mbacke Sembène, Department of Animal Biology, Cheikh Anta Diop University, Dakar 5005, Senegal

Department of Animal Biology, Cheikh Anta Diop University, Dakar 5005, Senegal

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Published

2014-10-19

Issue

Vol. 4 No. 4 (2014)

Section

Research Articles