Local knowledge or Indigenous Technical/Traditional knowledge (ITK) is the knowledge belonging to a specific community or local group and that the people in a given community have developed over time, and still continue to develop. Agriculture and allied activities continue to be an important occupation and form the main base of the economy in Sikkim. There are various pests and diseases in crop plants which cause severe loss in yield resulting in reduced production.
Maize and Imperata cylindrica have been utilized globally as a pollen source for induction of haploids in wheat through chromosome elimination technique. Pollen parents with a higher haploid induction rate are desired for recovering the high frequency of haploids in wheat and related species. The present investigation was carried out with the aim to assess haploid induction efficiency of diverse germplasm of maize and I. cylindrica in different generations of intra and intergeneric crosses of hexaploid and tetraploid wheat and triticale-wheat derivatives. Crosses of twenty-six lines (female) with each of two I. cylindrica and twenty-one maize genotypes (testers) were evaluated for four haploid induction parameters viz., pseudoseed formation frequency (PFF), embryo formation frequency (EFF), haploid regeneration frequency (HRF) and haploid formation frequency (HFF). I. cylindrica outperformed maize in haploid induction rate with a frequency of embryos formed with I. cylindrica (18.39%) were significantly higher as compared to maize (4.08%). In the case of I. cylindrica genotype Ic-ye identified best with mean EFF of 30.55, 14.48 and 25.43% for hexaploids, tetraploids and triticale × wheat derivatives, respectively whereas in the case of maize genotype HPMC-60 performed best with EFF of 12.61% for hexaploids, HPMC-58 (12.58%) for tetraploids and HPMC-16 for triticale × wheat derivatives with EFF of 8.91%. I. cylindrica genotype Ic-ye and maize genotypes HPMC-14, HPMC-53, HPMC-60, HPMC-64 with significantly positive GCA for haploid induction parameters may be utilized as efficient pollen parents for recovering higher frequency of haploids in wheat.
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