Abstract:
Sri Lankan pulse production is inadequate, leading to reliance on costly imports,
particularly lentils. Pigeon pea, Cajanus cajan (L.) is a promising alternative due to
its high protein content, drought tolerance, and ability to enhance soil fertility through
biological nitrogen fixation. However, the limited genetic potential of current
varieties has restricted its adoption. This study assessed the morphological,
physiological, and yield, traits of seven (07) pigeon pea lines and the recommended
variety Prasada to identify resilient, high-yielding candidates for varietal
development. An open-field experiment was conducted at the Grain Legumes and Oil
Crop Research and Development Center, Angunakolapelessa, Sri Lanka using a
randomized complete block design (RCBD) with three replications. Growth
attributes: height, number of branches, flowering and maturity duration and yield
attributes: number of pods, seeds, and seed weight were recorded. Data were analyzed
using one-way ANOVA and repeated measure ANOVA in SAS software. Breeding
line WWPL 21-02 exhibited significantly (p<0.05) higher branching, while WWPL
21-01 recorded significantly greater plant height and stem circumference. Variation
in flowering and maturity was observed, with varieties Prasada and WWPL 21-01
showing significantly longer flowering periods, while ICPL 7629, ICPL 9739, and
WWPL 21-02 matured earlier. Breeding line WWPL 21-01 had a significantly
(p<0.05) higher pod count and yield. Both WWPL 21-01 and WWPL 21-02, recorded
a significantly highest yield per net plot, indicating their potential for improved
productivity. ICPL 7636 exhibited significantly (p<0.05) high seeds per pod, while
ICPL 7629 had the highest seed weight. In conclusion, pigeon pea lines WWPL 21
01 and WWPL 21-02 were identified as high-yielding and superior for most evaluated
traits. The findings support developing high-yielding pigeon pea varieties to boost
pulse production, reduce reliance on imports, and ensure food security in Sri Lanka.
