Characterization of Groundnut (Arachis hypogaea L.) Test Locations Using Representative Testing Environments With Farmer-Preferred Traits

Richard Oteng-Frimpong; Yussif Baba Kassim; Doris Kanvenaa Puozaa; Jerry Asalma Nboyine; Abdul-Rashid Issah; Masawudu Abdul Rasheed; Joseph Adjebeng-Danquah; Francis Kusi

doi:10.3389/fpls.2021.637860

Characterization of Groundnut (Arachis hypogaea L.) Test Locations Using Representative Testing Environments With Farmer-Preferred Traits

Front Plant Sci. 2021 Mar 15:12:637860. doi: 10.3389/fpls.2021.637860. eCollection 2021.

Authors

Richard Oteng-Frimpong¹, Yussif Baba Kassim¹, Doris Kanvenaa Puozaa¹, Jerry Asalma Nboyine¹, Abdul-Rashid Issah¹, Masawudu Abdul Rasheed¹, Joseph Adjebeng-Danquah¹, Francis Kusi¹

Affiliation

¹ Council for Scientific and Industrial Research (CSIR) - Savanna Agricultural Research Institute, Tamale, Ghana.

Abstract

In this study, the differential rankings of 36 groundnut genotypes under varying environmental conditions were studied at various levels of phenotype. Locations that are generally accepted by the crop- and soil-based research community to represent the entire Guinea and Sudan Savanna agro-ecological zones in Ghana were characterized, this time using a crop. The characterization was done based on four farmer-preferred traits (early and late leaf spot disease ratings, and haulm and pod yields) using three models (i.e., AMMI, GGE, and Finlay-Wilkinson regression). These models were used to capture specific levels of phenotype, namely, genotype-by-environment interaction (GE), genotype main effect plus GE (G+GE), and environment and genotype main effects plus GE (E+G+GE), respectively. The effect of three major environmental covariables was also determined using factorial regression. Location main effect was found to be highly significant (p < 0.001), confirming its importance in cultivar placement. However, unlike genotypes where the best is usually adjudged through statistical ranking, locations are judged against a benchmark, particularly when phenotyping for disease severity. It was also found that the locations represent one complex mega-environment, justifying the need to test new technologies, including genotypes in all of them before they can be approved for adoption nationally. Again, depending on the phenotypic level considered, genotypic rankings may change, causing environmental groupings to change. For instance, all locations clustered to form one group in 2017 for early and late leaf spot diseases and pod yield when GE was considered, but the groupings changed when G+GE was considered for the same traits in the same year. As a result, assessing genotypic performance at the various levels to arrive at a consensus decision is suggested. Genotypes ICGV-IS 141120 and ICGV-IS 13937 were found to be the best performing.

Keywords: AMMI; GGE; early leaf spot; groundnut; late leaf spot; model diagnostics; multi environments trial.