02010naa a2200229 a 450000100080000000500110000800800410001902400450006010000180010524501070012326000090023052013070023965000120154665000270155865000230158565000230160865000250163165000140165665300220167070000180169277300700171015200342023-06-20       1974    bl uuuu     u00u1 u    #d7 ahttps://doi.org/10.1079/BJN197400732DOI1 aSATTER, L. D.  aEffect of ammonia concentration on rumen microbial protein production in vitro.h[electronic resource]  c1974  a1. The effect of ammonia concentration on microbial protein production was determined in continuous-culture fermentors charged with ruminal contents obtained from steers fed on either a protein-free purified diet, a maize-based all-concentrate diet, or a forage?concentrate (23:77) diet. Urea was infused into the fermentors to maintain various concentrations of ammonia in the incubating mixtures. 2. Under nitrogen-limiting conditions, microbial protein yield measured as tungstic acid-precipitable N (TAPN) increased linearly with supplementary urea until ammonia started to accumulate in the incubating ingesta. Increasing the ammonia concentration beyond 50 mg NH3-N/l had no effect on microbial protein production. 3. The molar proportions of volatile acids produced were not affected by the level of urea supplementation. Total acid production was decreased slightly under N-limiting conditions, but not to the same extent as microbial protein production. 4. Estimated yield of microbial dry matter/mol ATP produced averaged 15·6 when non-limiting N as urea was provided with the purified diet. 5. These results suggest that addition of non-protein N supplements to ruminant rations are warranted only if the prevailing concentration of ruminal ammonia is less than 50 mg NH3-N/l ruminal fluid.  aAmmonia  aIn vitro digestibility  aMicrobial proteins  aRuminant nutrition  aVolatile fatty acids  aRuminante  aNutricao Proteica1 aSLYTER, L. L.  tBritish Journal of Nutritiongv. 32, n. 2, p. 199-208, Sep. 1974.