Abstract
At the International Livestock Research Institute (ILRI), Addis Ababa, Ethiopia, 171 germplasm accessions of Napier grass were studied using 20 SSR markers with the objective of assessing the allelic richness and genetic diversity of the collections held at ILRI and the Brazilian Agricultural Research Corporation (EMBRAPA), and to determine distinct accessions to be introduced to enhance the diversity in each of the genebank collections. A total of 148 alleles were observed in the whole collection, of which 140 and 93 alleles were observed in the ILRI and EMBRAPA collections, respectively. Fifty-five and 8 alleles were found to be unique to the ILRI and EMBRAPA collections, respectively, while 85 alleles were shared between the collections. The number of alleles per marker ranged from 1 to 23 with an average value of 7.4 across both collections. The heterozygosity per locus ranged from 0.000 to 0.808 with an average value of 0.463. A principal coordinate analysis grouped accessions into 3 main groups, whereas a hierarchical cluster analysis indicated 4 main clusters. From a genebank management and conservation perspective, the marker profile of the accessions was used in the process of selecting and acquiring distinct lines to be added to the ILRI and EMBRAPA collections. Accordingly, 54 accessions and elite lines were selected and introduced from EMBRAPA to the ILRI collection, while 8 distinct accessions from ILRI were added to the EMBRAPA collection. In general, a useful marker profile of an expanded Napier grass collection has been generated which could be used to enhance the conservation, use and management of the available genetic resources of this important forage crop.
Highlights
Livestock play a crucial role in the socio-economic development of many developing countries in tropical and subtropical regions of the world
The results revealed the existence of diverse genetic resources in the collections maintained by both centers and the presence of some distinct material in each of the collections
Greater allelic richness was discovered in the International Livestock Research Institute (ILRI) genebank collection, despite the fact that it contains only 59 accessions compared with 107 accessions from the Empresa Brasileira de Pesquisa Agropecuária (EMBRAPA) collection
Summary
Livestock play a crucial role in the socio-economic development of many developing countries in tropical and subtropical regions of the world. Year-round availability and supply of forages have always been a huge challenge for sustainable livestock production at the household level, where smallholder farmers are dependent on small plots of land for mixed farming (Ayantunde et al 2005; Smith et al 2013). The challenge is becoming even more difficult with the current trends of climate change, increasing population density per unit area with the associated growing demand for meat, milk and eggs, an alarming rate of urbanization and limited availability of arable land (Smith et al 2013). Achieving the sustainable development goals of eradicating poverty, ending hunger, enhanced food security and promoting climate-smart action at the household level of smallholder farmers would be very difficult without addressing the feed and forage component of livestock production.
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