Simple sequence repeat‐based mini‐core collection for white Guinea yam (Dioscorea rotundata) germplasm

Babil Pachakkil,Shinsuke Yamanaka,Ranjana Bhattacharjee,Hiroko Takagi,Ryohei Terauchi,Ryo Matsumoto,Satoru Muranaka,Gezahegn Girma,Muluneh Tamiru‐Oli,Robert Asiedu,Michael Abberton

doi:10.1002/csc2.20431

Abstract

AbstractA core subset with a small number of accessions representing the genetic diversity of the base collection plays a vital role in facilitating efficient utilization of plant genetic resources. This is particularly relevant for vegetatively propagated large plant size tuber crops with a long growing period, such as white Guinea yam (Dioscorea rotundata Poir.). For the efficient utilization of D. rotundata genetic resources, this study was aimed at developing a mini‐core collection from a core collection of 447 D. rotundata accessions maintained at the International Institute of Tropical Agriculture (IITA). Accordingly, a D. rotundata mini‐core collection representing 102 accessions was selected using 16 simple sequence repeat (SSR) markers, retaining ∼98% of the SSR allelic diversity of the base collection. A similar level of diversity was captured within the mini‐core collection and the base collection with respect to 21 morphological traits, ploidy level, and geographic origin. The mini‐core collection demonstrated a wide range of variation in agronomic traits such as growth period, number of tubers, average tuber weight, and total yield per plant. This variation was considerable when compared with the variation observed for the same traits among the 10 lines or genotypes conventionally used in the breeding program at IITA, which were included in this study as checks. The selected mini‐core accessions could serve as a working collection to broaden the genetic variation for use in practical breeding programs, as well as in future genomic analyses aimed at the genetic improvement of D. rotundata in West Africa.

Highlights

Yam is a common name for multiple crop species belonging to the genus Dioscorea that are widely cultivated as staple crop in tropical and subtropical regions
The aims of this study were to assess the genetic diversity in D. rotundata accessions maintained at the Institute of Tropical Agriculture (IITA) Genetic Resources Center (GRC), which represents the largest collection of this species worldwide, using simple sequence repeat (SSR) markers and to develop a mini-core collection that could aid in efficient utilization of genetic resources in white Guinea yam improvement programs
ΔK showed a maximum at K = 8, suggesting that eight genetically distinct clusters were observed among accessions of the base collection (Figure 1)

Summary

Introduction

Yam is a common name for multiple crop species belonging to the genus Dioscorea that are widely cultivated as staple crop in tropical and subtropical regions. Is the most cultivated species in this region, representing majority of the total yam production. For D. rotundata, considerable efforts have been made worldwide to collect, maintain, and characterize germplasm, mainly from countries in the “yam belt,” including Cote d’Ivoire (Hamon & Bakary, 1990), Ghana (Demuyakor, Dukrog, & Chikpah, 2013), Togo (Dansi et al, 2013), Benin (Dansi et al, 1999), Nigeria (Mignouna et al, 2005), and Cameroon (Mignouna, Dansi, & Zok, 2002). The International Institute of Tropical Agriculture (IITA), based in Ibadan, Nigeria, holds the largest collection of yam genetic resources, with over 3,000 accessions, mainly from West African countries (Girma et al, 2018)

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