Tm. Davison et al., AN EVALUATION OF KIKUYU-CLOVER PASTURES AS A DAIRY PRODUCTION SYSTEM .2. MILK-PRODUCTION AND SYSTEM COMPARISONS, Tropical grasslands, 31(1), 1997, pp. 15-23
Milk production from an irrigated, perennial kikuyu (Pennisetum clande
stinum) cv. Whittet - Haifa white clover (Trifolium repens cv. Haifa)
- Safari clover (T. semipilosum cv. Safari) pasture was evaluated in 6
treatments, at a range of stocking rates (2.5, 3.75 and 5.0 cows/ha)
and nitrogen fertiliser levels (0, 150, 300 and 600 kg/ha N) in an inc
omplete factorial design. A seventh treatment consisting mainly of ann
ual ryegrass (Lolium spp.) pasture was stocked at 5 cows/ha with 400 k
g/ha N (5/ANN). Pastures in the study were stocked continuously over 3
years. Milk production per cow meaned over the 3 years was 4649 kg at
2.5 cows/ha, 4115 kg at 3.75 cows/ha and 3861 kg at 5 cows/ha on pere
nnial pasture, and 4026 kg at 5 cows/ha on annual pastures. Milk yield
per ha (MYH, kg) was linearly related to stocking rate (SR, cows/ha)
by the equation: MYH = 3712 + 3153 SR (r(2) = 0.63; P < 0.05). Milk yi
eld was not significantly changed by nitrogen fertiliser at 3.75 or 5
cows/ha. Milk yield per cow (MY) was related to the clover % in the di
et (CLD) with CLD in February giving the best prediction for lactation
milk yield (MY, kg/cow): MY = 3602 + 47.7 CLD (r(2) = 0.42; P < 0.01)
. There was a trend for cows stocked at 5 cows/ha on kikuyu-clover pas
ture to be lighter than those on other treatments. Milk protein % (MP)
declined with increasing N fertiliser (NF, kg/ma N) input by the equa
tion: MP = 3.03-0.0002 NF (r(2) = 0.85; P < 0.01). The lower annual co
st of perennial kikuyu-clover pasture, its comparable milk production
with an annual ryegrass system and the ability to withstand high stock
ing rates make it a viable alternative for subtropical dairy systems.