Genotype by environment cultivar evaluation for cassava brown streak disease resistance in Tanzania

•17 cultivars from 5 countries evaluated for CBSD resistance at 9 sites in Tanzania.•Site differences in disease pressure and vector abundance drove CBSD spread.•Seven cultivars were identified with strong resistance to CBSD.•CBSD-susceptible cultivars gave high yields at low disease pressure sites....

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Published in:Virus research 2020-09, Vol.286, p.198017-198017, Article 198017
Main Authors: Shirima, Rudolph R., Legg, James P., Maeda, Daniel G., Tumwegamire, Silver, Mkamilo, Geoffrey, Mtunda, Kiddo, Kulembeka, Heneriko, Ndyetabula, Innocent, Kimata, Bernadetha P., Matondo, Dwasi Gambo, Ceasar, Gloria, Mushi, Edda, Sichalwe, Karoline, Kanju, Edward
Format: Article
Language:English
Subjects:
agro-ecological zone
Cassava
CBSV
Disease Resistance - genetics
Genotype
Manihot - virology
Phylogeny
Plant Diseases - genetics
Plant Diseases - virology
Potyviridae - genetics
resistance
RNA, Viral - genetics
Sequence Analysis, DNA
Tanzania
UCBSV
yield
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Summary:•17 cultivars from 5 countries evaluated for CBSD resistance at 9 sites in Tanzania.•Site differences in disease pressure and vector abundance drove CBSD spread.•Seven cultivars were identified with strong resistance to CBSD.•CBSD-susceptible cultivars gave high yields at low disease pressure sites.•CBSD control should combine host plant resistance with phytosanitary measures. Cassava brown steak disease (CBSD), caused by Cassava brown streak virus (CBSV) and Ugandan cassava brown streak virus (UCBSV), is the most important biotic constraint to cassava production in East and Central Africa. Concerted efforts are required to prevent further spread into West Africa as well as to reduce losses in areas already affected. The study reported here was part of a five-country (Kenya, Malawi, Mozambique, Tanzania and Uganda) programme that aimed to identify superior cassava cultivars resistant to CBSD and to disseminate them widely in the region. Seventeen tissue-cultured and virus-tested cultivars were evaluated in Tanzania across nine sites with diverse CBSD inoculum conditions. Experiments were planted using an alpha-lattice design and assessments were made of surrounding inoculum pressure, CBSD foliar and root incidence and root yield at harvest. There were large differences in CBSD infection between sites, with greatest spread recorded from the north-western Lake (Victoria) zone. Differences were driven by Bemisia tabaci whitefly vector abundance and CBSD inoculum pressure. Both CBSV and UCBSV were almost equally represented in cassava fields surrounding experimental plots, although CBSV predominated in the north-west whilst UCBSV was more frequent in coastal and southern sites. However, the incidence of CBSV was much greater than that of UCBSV in initially virus-free experimental plots, suggesting that CBSV is more virulent. Cultivars could be categorised into three groups based on the degree of CBSD symptom expression in shoots and roots. The seven cultivars (F10_30R2, Eyope, Mkumba, Mkuranga1, Narocass1, Nase3 and Orera) in the most resistant category each had shoot and root incidences of less than 20%. Fresh root yield differed between sites and cultivars, but there was no genotype by environment interaction for this trait, probably attributable to the large fertility and soil moisture differences between sites. Susceptible cultivars and the local check performed well in the absence of CBSD pressure, highlighting the importance of exploiting quality and yie
ISSN:0168-1702
1872-7492
DOI:10.1016/j.virusres.2020.198017