Abstract:
Stenocarpella maydis and Fusarium graminearum are the
predominant species causing maize (Zea mays L.) cob rots in the
tropics and sub-Saharan Africa. Developing varieties resistant to
cob rots is an alternative strategy that is practical and provides better
insurance for small-scale farmers. The subjectivity of scoring
and the varying virulence responses of these pathogens to environmental
conditions make selection for resistance difficult. The
objectives of this study were to map quantitative trait loci (QTL)
associated with resistance to S. maydis and F. graminearum and to
analyze the possibilities of utilizing these QTL for marker-assisted
selection (MAS). Stable QTL mapped were Fg_4,2 (r2 = 0.22) and
Sm_4,1 (r2 = 0.16) associated with resistance to F. graminearum
and S. maydis, respectively, on chromosome 4. Another QTL associated
with resistance to F. graminearum was Fg_5 (r2 = 0.30)
on chromosome 5. A QTL with pleiotropic effect was detected on
chromosome 1, 22 cM from umc1269 marker (r2 values of 13%
and 22% for resistance to S. maydis and F. graminearum, respectively).
Additive effects ranged from -0.14 to -0.35 for associated
QTL of both pathogens, and all mapped QTL were more than 5 cM
from the nearest molecular marker utilized in the study. Therefore,
there is need to utilize the maize genomic map to identify and test
several markers, < 5 cM, near the detected QTL, in order to locate
more reliable molecular markers for utilization in MAS.
Language:
English
Date of publication:
2014
Country:
Region Focus:
East Africa
University/affiliation:
Journal:
Collection:
RUFORUM Journal Articles
Agris Subject Categories:
Agrovoc terms:
Additional keywords:
Licence conditions:
Open Access
Access restriction:
Form:
Printed resource
Publisher:
ISSN:
1542-7528
E_ISSN:
Edition:
Web URL:
Extent:
214–228