Twenty-two sorghum genotypes were evaluated for grain mould response, 13 mo
rphological and biochemical traits thought to contribute to resistance, and
3 agronomic traits related to utilization. Measurements of grain mould (fi
eld grade score, threshed grade score, ergosterol content, and percentage g
ermination) were strongly correlated with one another. Highly significant c
orrelations between measures of grain mould and seed hardness, seed phenol
content in acid methanol extract, and glume colour indicated that they stro
ngly affected grain mould response. Harder grain, higher levels of seed phe
nols, and darker glumes contributed to grain mould resistance. Weaker and l
ess consistent correlations between measures of grain mould and seed colour
, seed flavan-4-ol content, glume phenol and flavan-4-ol contents, and glum
e cover indicated relatively less effect of these traits on grain mould res
ponse. Genotype means indicated that combinations of several traits are req
uired to achieve resistance. Germplasm lines, including coloured-seeded lin
es IS 14375, IS 14387, IS 18144, and IS 18528, and white-seeded lines IS 21
443, IS 24495 and IS 25017, showed greatest grain mould resistance. Improve
d lines generally had poorer grain mould resistance than these landraces. H
owever, the best improved lines were comparable in resistance to white-seed
ed landraces. B58586, IS 14375 and IS 14387 are hard-seeded guinea sorghum
lines that can be used as sources of grain mould resistance for West Africa
. SP 33316, SP 33349 and GM 15018 are agronomically elite lines that can be
used as sources of grain mould resistance for further improvement of white
-seeded sorghum for South Asia and other regions.