Jr. Roche et al., Variations in the dietary cation-anion difference and the acid-base balance of dairy cows on a pasture-based diet in south-eastern Australia, GRASS FOR S, 55(1), 2000, pp. 26-36
The variation in the dietary cation-anion difference (DCAD) and the urinary
pH of dairy cows was examined over the year 1996-97 in Victoria, south-eas
tern Australia. Mineral concentrations in the pasture and dairy cow milk pr
oduction were also examined. Three farmlets (A, B and C) under different fe
eding and management systems were used for the purpose of the study. Feedin
g management was based on grazed grass with stocking rates of 1.4, 2.5 and
4.7 cows ha(-1) for farmlets A, B and C respectively. Cows on farmlets B an
d C received more supplementary feed than those on the A farmlet.
The urine of the cows in each herd was sampled for pH twice monthly, after
morning milking. A sample of the feed on offer the previous day was collect
ed and analysed for crude protein, in vitro dry-matter digestibility and ma
crominerals. Milk yields were recorded on the same day as urine sampling an
d weather data for the previous day were also collected.
Pasture cation-anion difference was not greatly influenced by stocking rate
or associated management practices, although mineral concentrations in pas
ture did vary. Urine pH was unaffected by changes in climate, management st
rategies (e.g. stocking rate), season and stage of lactation. Moreover, uri
ne pH was also unaffected by changes in DCAD until the DCAD declined below
approximately +15 mequiv. 100 g(-1) for two consecutive sampling periods.
It is concluded that when this threshold for DCAD (+15 mequiv. 100 g(-1)) i
s breached, even in late lactation, a decrease in urine pH occurs. In south
-eastern Australia, the DCAD offered to non-lactating cows in the last 2 we
eks of pregnancy, in spring-calving herds, on a pasture-based diet is nearl
y always above that regarded as optimum in other feeding systems.