Breeding procedures used in pearl millet [Pennisetum glaucum (L.) R. B
r.] improvement in India and the USA are aimed at exploitation of hybr
id vigor for both grain and forage yields. Selection efforts in Africa
have been limited to intrapopulation improvement for grain yield. Kno
wledge of heterotic patterns and combining ability of the widely culti
vated African landraces would be useful in the development of a sound
breeding program in Africa. The objectives of this study were to evalu
ate the combining ability and heterosis among African pearl millet pop
ulations and to explore the utility of interpopulation improvement for
the development of high yielding varieties and hybrids. Five populati
ons and their 10 interpopulation crosses were evaluated in a randomize
d complete-block design with six replications at two locations in Nige
r during the 1989 and 1990 rainy seasons. Plant height, flowering time
, natural incidence of downy mildew, spike length, grain yield, and 10
00-seed weight were measured in different populations. Significant dif
ferences among entries for most of the traits were observed. Better-pa
rent heterosis for grain yield ranged from 25 (Iniari x Ugandi) to 81%
(Mansori x Ex-Bornu). Six of the crosses showed significant heterosis
and gave 36 to 81% more grain yield than their better parent. All cro
sses except one were significantly more tolerant to downy mildew than
their better parent. Mean squares for general combining ability were s
ignificant (P < 0.05) for most traits indicating the importance of add
itive gene effects for these traits. The large heterotic effects and t
he magnitude of the additive effects observed in the experiment should
be useful in choosing pearl millet landraces for intercrossing in the
development of cultivars with improved grain yield.