Abstract
Two experiments were undertaken in which grass silage was used in conjunction with a series of different concentrate types designed to examine the effect of carbohydrate source, protein level and degradability on total dietary phosphorus (P) utilization with emphasis on P pollution. Twelve Holstein-Friesian dairy cows in early to mid-lactation were used in an incomplete changeover design with four periods consisting of 4 weeks each. Phosphorus intake ranged from 54 to 80 g/day and faecal P represented the principal route by which ingested P was disposed of by cows, with insignificant amounts being voided in urine. A positive linear relationship between faecal P and P intake was established. In Experiment 1, P utilization was affected by dietary carbohydrate type, with an associated output of 3.3 g faecal P/g milk P produced for all treatments except those utilizing low degradable starch and low protein supplements, where a mean value of 2.8 g faecal P/g milk P was observed. In Experiment 2, where two protein levels and three protein degradabilities were examined, the efficiency of P utilization for milk P production was not affected by either level or degradability of crude protein (CP) but a significant reduction in faecal P excretion due to lower protein and P intake was observed. In general, P utilization in Experiment 2 was substantially improved compared to the Experiment 1, with an associated output of 1.8 g faecal P/g milk P produced. The improved utilization of P in Experiment 2 could be due to lower P content of the diets offered and higher dry matter (DM) intake. For dairy cows weighing 600 kg, consuming 17-18 kg DM/day and producing about 25 kg milk, P excretion in faeces and hence P pollution to the environment might be minimized without compromising lactational performance by formulating diets to supply about 68 g P/day, which is close to recent published recommended requirements for P.
Highlights
Phosphorus (P) is a key mineral essential to nearly every aspect of metabolism in a dairy cow (NRC, 2001)
The desired P levels were achieved in the negative control (NEG) and positive control (POS) treatments, while in the other treatments P intake ranged from 65.7 to 77.7 g/day
The NEG control reduced silage dry matter intake (DMI) by 16% compared to the POS control, and an average of 11% with respect to the different energy source treatments (HNDF, low degradable starch (LDS), high degradable starch (HDS) and SS)
Summary
Phosphorus (P) is a key mineral essential to nearly every aspect of metabolism in a dairy cow (NRC, 2001). P needs to be supplied in sufficient quantity to optimize animal performance. Dairy cows use less than 4045% of dietary P intake (Jongbloed and Valk, 1998), the rest is excreted mainly in faeces. It is desirable to formulate P rations according to the requirement of the animals and reduce P pollution by dairy cows without compromising lactational performance. Paucity of data in relation to P metabolism and different interpretations of what are available has lead to a variety of recommendations for P requirement of dairy cows by different national research committees (e.g., AFRC, 1991; GFE, 2001; NRC, 2001)
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