Kenyan farmers appreciate the higher yield of 50% non-pollen producing Maize (Zea mays) hybrids

Abstract: Summary Incorporating the dominant male sterile gene, Ms44, in new maize varieties results in 50% non-pollen producing (FNP) varieties. This makes the varieties more nitrogen efficient and increases yield directly by an average of 200 kg ha−1 across yield levels. However, as half of the plants do not shed pollen, the presence of Ms44 in an FNP variety is clearly visible. This technology can improve food production and security in the African maize-based agri-food systems, but only if accepted by farmers. Fa… Show more

“…Farmer evaluations in on-farm trials were conducted using gender-disaggregated PVS. These assessments showed acceptance, across genders, of the FNP trait; although farmers noticed differences in tassel and pollen formation between FNP hybrids and conventional hybrids, they favored FNP hybrids overall due to the improved ear size and increased yield ( De Groote et al, 2023 ).…”

Innovative approaches to integrating gender into conventional maize breeding: lessons from the Seed Production Technology for Africa project

“…Farmer evaluations in on-farm trials were conducted using gender-disaggregated PVS. These assessments showed acceptance, across genders, of the FNP trait; although farmers noticed differences in tassel and pollen formation between FNP hybrids and conventional hybrids, they favored FNP hybrids overall due to the improved ear size and increased yield ( De Groote et al, 2023 ).…”

Innovative approaches to integrating gender into conventional maize breeding: lessons from the Seed Production Technology for Africa project