Continuous Storage Root Formation and Bulking in Sweetpotato

Astere Bararyenya,Reuben Ssali,Mildred Ochwo-Ssemakula,Paul Gibson,Natasha Mwila,Robert Mwanga,Wolfgang Grüneberg,Herbert Talwana,Thomas Odong,Phinehas Tukamuhabwa,Jan Low

doi:10.12688/gatesopenres.12895.3

Astere Bararyenya, Reuben Ssali + Show 9 more

Open Access

https://doi.org/10.12688/gatesopenres.12895.3

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Abstract

This study investigated the phenotypic variation of continuous storage root formation and bulking (CSRFAB) growth patterns underlying the development of sweetpotato genotypes for identification of potential varieties adapted to piecemeal harvesting for small scale farmers. The research was conducted between September 2016 and August 2017 in Uganda. Genotypes from two distinct sweetpotato genepool populations (Population Uganda A and Population Uganda B) comprising 130 genotypes, previously separated using 31 simple sequence repeat (SSR) markers were used. Measurements (4 harvest times with 4 plants each) were repeated on genotypes in a randomized complete block design with 2 replications in 2 locations for 2 seasons. We developed a scoring scale of 1 to 9 and used it to compare growth changes between consecutive harvests. Data analysis was done using residual or restricted maximum likelihood (REML) in GenStat 18th Edition. There were strong linear and quadratic trends over time (P<0.001) indicating a non-linear growth pattern within and between locations, seasons, and genotypes for most traits. Some genotypes displayed early initiation and a determinate linear increase of bulking, while others showed late initiation following a quadratic growth pattern. Broad sense heritability of CSRFAB would be low due to large GxE interactions, however, it was relatively high (50.5%) compared to other yield related traits indicating high genetic influence and accuracy of the developed method to quantify yield overtime. A high level of reproducibility (89%) was observed comparing 2016B and 2017A seasons (A and B are first and second season, respectively) at the National Crops Resources Research Institute (NaCRRI), Namulonge, Uganda. Choosing CSRFAB genotypes can more than double the sweetpotato production (average maximum yield of 13.1 t/ha for discontinuous storage root formation and bulking (DSRFAB) versus 28.6 t/ha for CSRFAB demonstrating the importance of this underresearched component of storage root yield.

Highlights

The authors have provided long and detailed information on the overall productivity issues of sweetpotato
The interaction between season, location and harvest time (SLH) was highly significant (P
Heritability was relatively high for SRNO (67.2%) and CSRFAB (50.5%)

Summary

Introduction

The authors have provided long and detailed information on the overall productivity issues of sweetpotato. The authors should refocus on the challenges and opportunities of piecemeal harvesting under field conditions, and data and literature on continuous storage root formation and bulking. Problems such as termites, terminal drought stress, multiple and intercropping systems, and limited agricultural lands etc. It is unfortunate that the manuscript failed to acknowledge this scientific consensus and how it could have informed the current work and led to the advancement of the understanding of storage root formation in general, and within the context of the study location in particular. I hope that the following critiques will aid the authors in the refining of this manuscript to allow for revision in the future

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