摘要:Joel KA, Runo S, Muchugi A. 2018. Genetic diversity and virulence study of Striga hermonthica from Kenya and Uganda on
selected sorghum varieties. Nusantara Bioscience 10: 111-120. Parasitic weeds pose a severe problem in agricultural production,
causing massive crop losses in many regions of the world and especially Africa. One example to be considered the most significant
biological constraint to food production in sub-Saharan Africa (SSA) is Striga hermonthica, the most widespread among the Striga
species in the semi-arid tropical African zones. The wide geographical distribution set conditions for genetically structured populations.
The genetic variations among the weed populations allow for the quick breakdown of resistance in crops hence making control of the
weed difficult. Efficient and effective control of S. hermonthica demands knowledge on inherent genetic variability within local and
regional races of the weed. However, the genetic diversity and virulence of S. hermonthica ecotypes in Kenya and Uganda on selected
sorghum varieties remain unknown. This study aimed at evaluating the genetic diversity among seven S. hermonthica populations from
locations in Kenya and Uganda using 5 primer sets of Expressed Sequence Tags-Simple Sequence Repeats (EST-SSR). The genetic
diversity was moderate as shown by the Nei’s genetic distance values. AMOVA measured low genetic differentiation among the
populations. This study also investigated twelve sorghum varieties for their response to S. hermonthica infection. The result
demonstrated that the varieties resistance responses to S. hermonthica varied widely. The phenotype of resistant interaction was
characterized by the inability of the weeds haustoria to penetrate the sorghums root endodermis due to severe necrosis and in rare cases
the parasites radicle growing away from the host root. The resistant sorghum varieties were the Asareca W2, Asareca AG3, N13 and the
Wild-type which had low mean number of S. hermonthica plantlets growing on their roots, while the most susceptible varieties were Sap
027, Epurpur which had the highest mean number of S. hermonthica plantlets growing on their roots. There was a highly significant
difference in the means of the number of Striga growing on the roots of sorghum varieties, Striga dry biomass and S. hermonthica
length between the susceptible and resistant ones. This knowledge holds unique potentiality since resistant sorghum germplasm tested
will be sourced and targeted to the seven specific geographical areas where virulence of the particular S. hermonthica populations was
characterized.
