Abstract:
The study aimed to evaluate the growth and yield performance of premier
fodder varieties grown with reduced inorganic fertilizer with effective microorgan-
isms (EM) and Vermi products (VP). The experiment was carried out in a farmer's
field at Rambewa, Sri Lanka (8.440° N 80.505° E). The study was a 4 x 4 factorial
layout in a Randomized Complete Block Design with three replicates. Selected com-
mercially available EM and farm-made VP were assigned into four levels of combi-
nations; F 1 : Vermitea + 50 % Recommended Level of Inorganic Fertilizer (RLIF), F 2 :
EM + 50% RLIF, F3 : EM + Vermitea + 50% RLIF and F 4 : RLIF. Four fodder varities;
Napier (Pennisetum purpureum x Pennisetum glaucum) cv Pakchong-1, Red Napier,
Fodder Sorghum (Sorghum bicolor) var. Sugargraze and Fodder Maize (Zea mays)
var. Weera were grown under recommended management practices. Growth and
yield parameters were recorded at the time of harvesting. There was no significant
(P>0.05) interaction between fodder and fertilizer for plant height, leaf numbers,
width and length, fresh and dry matter (DM) yields, DM percentage and brix value.
Recorded DM yields for Pakchong-1, Red Napier, Maize and Sorghum grown with
F4 were 2923 ± 309, 2167 ± 1046, 10311 ± 1515 and 19122 ± 5286 kg ha -1 , respec-
tively. The 50 % reduction of inorganic fertilizer resulted in 1714±324 – 2852±722,
1872±421 – 3826±1184, 8648±1215 – 11962±1774 and 8796±1066 – 13460±1147
kg ha -1 of DM yields from Pakchong-1, Red Napier, Maize and Sorghum, respec-
tively. The study concludes that the reduction of inorganic fertilizer up to 50% does
not affect the yield and growth parameters compared with RLIF application in studied
fodder varieties. Thus, the usage of EM and VP technology can be recommended to
improve ecosystem health in tank cascade systems in dry and intermediate zones of
the country.
