Injury Indicator of Glyphosate to Alfalfa as affected by Recurrent Selection

El- Sattar Ahmed M. Abd, H. Mostafa Ahlam,, I. Milad Thanaa., Mahmoud T.A.
2019 Alexandria Journal of Agricultural Sciences  
In Egypt, alfalfa represts a suitable choice for forage cultivation expansion, since, the available land and water are of lower quality. The early seeding stage of alfalfa is the most val near able to weed competition. Research results regarding improvement of alfalfa tolerance to glyphosate in Egypt is relatively scare. The recent study was an attempt to trace variability in glyphosate tolerance of alfalfa germplasm. The improvement in tolerance due to recurrent selection was also considered.
more » ... lfalfa plant materials (Medicago sativa,L. ) used in that recent study were five base populations .Two cycles of recurrent selection for Glyphosate tolerance were imposed on each base population. Evaluation of selected cycles (C 1 and C 2 ) along with base populations (C 0 ) was carried-out for each population as a split plot design with Glyphosate treatment (+ and -) as main plots and populations (C 0 , C 1 and C 2 ) as a sub -plots. Glyphosate treated plots were evaluated for injury characters, i.e.; total chlorophyll, injury level, percent of death and shikimic acid content. Significant (p≥0.01) variations were detected among the studied alfalfa population. Also, the recorded values for all injury indicator characters significantly varied among selection cycles. In the meantime, the interactions between the studied population and selection cycles were significant (p ≥0.05). Chlorophyll content expressed as "spade" units was not changed after one cycle of selection (30.22 and 29.15 spade for base population (C 0 ) and first cycle of selection (C 1 ) as an average over the studied population, respectively). While, the second cycle of selection resulted in significantly higher level of total chlorophyll content (34.51 spade). This might indicates that tolerance to glyphosate was associated to higher chlorophyll content. The value of injury level decreased in both of Siwa and Hasawi populations after the first cycle of selection to glyphosate tolerance (-19.51 and -13.22%, respectively). Meanwhile, the progress of selection for glyphosate tolerance in alfalfa populations, gave a substantial decrease in value of injury level in all studied populations, except for, Siwa population that recorded an increase in value of injury level (-47.05, -44.44, -40.91 and -4.35 percent of the respective value recorded for injury level at the first cycle of selection in C.U.F101, Baladi 1, Sirivar and Hasawi populations, respectively).Change in shikimic acid content represented by a decrease reached -35.05, -22.99, -5.49 and -4.26% in Siwa, Baldi 1, C.U.F 101 and Sirivar populations, respectively, after the first cycle of selection for glyphosate tolerance. Only Hasawi population recorded an increase in shikimic acid content reached +251.8% relative to base population. While, after the second cycle of selection an increase in shikimic acid content reached +63.60 and +4.688% for C.U.F101 and Baldi1 populations relative to (C 1 ). Sharing genes among tolerant individuals, increase the frequency of genes responsible for tolerance, consequently expressing higher levels of cide-tolerance. The recent results assume the possibility of obtaining glyphosate tolerant alfalfa population depending on frequent cycles of recurrent selection.
doi:10.21608/alexja.2019.48376 fatcat:gszyguiwy5b3xk4vrcaanylvi4