Genomic characterization of Ugandan smallholder farmer‐preferred cassava varieties

Iragaba, Paula; Kawuki, Robert; Bauchet, Guillaume; Ramu, Punna; Tufan, Hale; Earle, Elizabeth D.; Gore, Michael A.; Wolfe, Marnin D.

doi:10.1002/csc2.20152

Cited by 13 publications

(7 citation statements)

References 36 publications

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“…Previously, a study by Iragaba et al . (2020) also found that smallholder farmers in different districts grow different varieties, a phenomenon that could tag varietal preferences to specific communities owing to relative ease of access of planting materials within a community as compared to ease of access between communities. With continued engagement of end users in the breeding process and increasing access to improved seed, such disparities could be reduced.…”

Section: Resultsmentioning

confidence: 99%

Identification of cassava quality attributes preferred by Ugandan users along the food chain

Iragaba

Hamba

Nuwamanya

et al. 2020

Int J of Food Sci Tech

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This study aimed to identify cassava quality attributes preferred by users along the food chain, in order to provide breeders with criteria for prioritization. Survey, and consumer-testing studies were conducted within Apac and Luwero districts in Uganda. Additionally, sensory evaluation by trained panelists was conducted to determine descriptors for assessing quality of boiled roots. Results revealed softness of boiled roots and in-ground storability as key attributes influencing varietal preference besides high yield, non-bitter roots, disease resistance, early maturity and drought resistance. For some attributes like in-ground storability, preference differed significantly between locations, and showed differentiation by gender. Local varieties were found to be superior in quality attributes. From sensory evaluation, 21 descriptors associated with appearance, texture, taste and aroma of boiled roots were determined. Findings from this study are vital for breeders to adopt gender-responsive approaches in order to develop varieties that meet the needs and preferences of end-users.

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Section: Resultsmentioning

confidence: 99%

Identification of cassava quality attributes preferred by Ugandan users along the food chain

Iragaba

Hamba

Nuwamanya

et al. 2020

Int J of Food Sci Tech

Self Cite

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“…Cassava improvement has recently received renewed attention with major projects to investigate the potential use of genomic selection in breeding (Wolfe et al, 2017), its sourcesink relationships (Sonnewald et al, 2020) and its photosynthetic efficiency (De Souza and Long, 2018). These improvement efforts are geared toward smallholder farmers with an interest in translating cassava end-product quality traits into breeding outcomes (Iragaba et al, 2020). Although cassava can be clonally propagated by stem cuttings, crop improvement via breeding requires genetic recombination using sexual crosses between parents from diverse genetic populations that flower in a timely and synchronous manner.…”

Section: Introductionmentioning

confidence: 99%

Flower Development in Cassava Is Feminized by Cytokinin, While Proliferation Is Stimulated by Anti-Ethylene and Pruning: Transcriptome Responses

et al. 2021

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Cassava, a tropical storage-root crop, is a major source of food security for millions in the tropics. Cassava breeding, however, is hindered by the poor development of flowers and a low ratio of female flowers to male flowers. To advance the understanding of the mechanistic factors regulating cassava flowering, combinations of plant growth regulators (PGRs) and pruning treatments were examined for their effectiveness in improving flower production and fruit set in field conditions. Pruning the fork-type branches, which arise at the shoot apex immediately below newly formed inflorescences, stimulated inflorescence and floral development. The anti-ethylene PGR silver thiosulfate (STS) also increased flower abundance. Both pruning and STS increased flower numbers while having minimal influence on sex ratios. In contrast, the cytokinin benzyladenine (BA) feminized flowers without increasing flower abundance. Combining pruning and STS treatments led to an additive increase in flower abundance; with the addition of BA, over 80% of flowers were females. This three-way treatment combination of pruning+STS+BA also led to an increase in fruit number. Transcriptomic analysis of gene expression in tissues of the apical region and developing inflorescence revealed that the enhancement of flower development by STS+BA was accompanied by downregulation of several genes associated with repression of flowering, including homologs of TEMPRANILLO1 (TEM1), GA receptor GID1b, and ABA signaling genes ABI1 and PP2CA. We conclude that flower-enhancing treatments with pruning, STS, and BA create widespread changes in the network of hormone signaling and regulatory factors beyond ethylene and cytokinin.

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“…The first dataset loaded is a VCF containing 314 Musa acuminata samples genotyped with 142,119 genotype-by-sequencing (GBS) markers; this data is available in the Breedbase instance https://musabase.org/breeders_toolbox/protocol/1 and contains triploid genotypes [ 26 , 27 ]. The second dataset loaded is a VCF containing 924 Manihot esculenta samples genotyped with 287,952 GBS markers and is available in the Breedbase instance https://cassavabase.org/breeders_toolbox/protocol/6 [ 28 ]. The third dataset loaded is a VCF containing 1,325 Zea mays samples genotyped with 955,690 GBS markers and is available in the Breedbase instance https://imagebreed.org/breeders_toolbox/protocol/5 [ 29 ].…”

Section: Resultsmentioning

confidence: 99%

High density genotype storage for plant breeding in the Chado schema of Breedbase

et al. 2020

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Modern breeding programs routinely use genome-wide information for selecting individuals to advance. The large volumes of genotypic information required present a challenge for data storage and query efficiency. Major use cases require genotyping data to be linked with trait phenotyping data. In contrast to phenotyping data that are often stored in relational database schemas, next-generation genotyping data are traditionally stored in non-relational storage systems due to their extremely large scope. This study presents a novel data model implemented in Breedbase (https://breedbase.org/) for uniting relational phenotyping data and non-relational genotyping data within the open-source PostgreSQL database engine. Breedbase is an open-source, web-database designed to manage all of a breeder’s informatics needs: management of field experiments, phenotypic and genotypic data collection and storage, and statistical analyses. The genotyping data is stored in a PostgreSQL data-type known as binary JavaScript Object Notation (JSONb), where the JSON structures closely follow the Variant Call Format (VCF) data model. The Breedbase genotyping data model can handle different ploidy levels, structural variants, and any genotype encoded in VCF. JSONb is both compressed and indexed, resulting in a space and time efficient system. Furthermore, file caching maximizes data retrieval performance. Integration of all breeding data within the Chado database schema retains referential integrity that may be lost when genotyping and phenotyping data are stored in separate systems. Benchmarking demonstrates that the system is fast enough for computation of a genomic relationship matrix (GRM) and genome wide association study (GWAS) for datasets involving 1,325 diploid Zea mays, 314 triploid Musa acuminata, and 924 diploid Manihot esculenta samples genotyped with 955,690, 142,119, and 287,952 genotype-by-sequencing (GBS) markers, respectively.

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Genomic characterization of Ugandan smallholder farmer‐preferred cassava varieties

Cited by 13 publications

References 36 publications

Identification of cassava quality attributes preferred by Ugandan users along the food chain

Identification of cassava quality attributes preferred by Ugandan users along the food chain

Flower Development in Cassava Is Feminized by Cytokinin, While Proliferation Is Stimulated by Anti-Ethylene and Pruning: Transcriptome Responses

High density genotype storage for plant breeding in the Chado schema of Breedbase

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