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Animal Production Science Animal Production Science Society
Food, fibre and pharmaceuticals from animals
RESEARCH ARTICLE

Tropical cattle methane emissions: the role of natural statins supplementation

C. A. Ramírez-Restrepo A D , C. J. O’Neill A , N. López-Villalobos C , J. Padmanabha B and C. McSweeney B
+ Author Affiliations
- Author Affiliations

A CSIRO Sustainable Agriculture Flagship, Animal Food and Health Sciences, ATSIP, James Cook University, Townsville, Qld 4811, Australia.

B CSIRO Sustainable Agriculture Flagship, Animal Food and Health Sciences, Queensland BioScience Precinct, St Lucia, Brisbane, Qld 4067, Australia.

C Institute of Veterinary, Animal and Biomedical Sciences, Massey University, Palmerston North 4442, New Zealand.

D Corresponding author. Email: carlos.ramirez@csiro.au

Animal Production Science 54(9) 1294-1299 https://doi.org/10.1071/AN14246
Submitted: 12 March 2014  Accepted: 18 May 2014   Published: 10 July 2014

Abstract

A natural food-based supplementation in the basal diet (BD) of cattle for lowering methane emissions was conducted over a 2.5-month period in 2013 at Lansdown Research Station, in north Queensland, Australia. Using eight rumen-cannulated Belmont Red Composite steers [436 ± 18.2 kg liveweight (LW); least squares means ± s.e.m.] fed a diet mixture of 0.85 CSIRO’s Ridley beef finisher pellets and 0.15 Rhodes grass (Chloris gayana); Experiment 1 compared for 7 weeks dose-dependent effects of the fermented-Monascus purpureus red rice powder (FRR) on dry matter intake (DMI), feed efficiency and tolerability. Consistent with the developed feeding methodology, the second experiment used four (461 ± 18.2 kg LW) fistulated Belmont Red Composite steers to assess rumen fermentation parameters and methane emissions measured in an open-circuit respiratory chamber system over ~4 weeks. Overall, LW increased throughout the study. In Experiment 1, the supplementation of FRR containing a natural lovastatin (monakolin K) reached 120 g/day (i.e. 2.88 ± 0.057 mg monakolin K/kg LW) fed in two approximately equal portions at 0900 hours and 1600 hours. However, once the diet was equal to or higher than 110 g/day of FRR, adverse effects were evident in terms of DMI (P < 0.05) and animal physiology. Compared with the BD, dietary intake of 40 g of FRR/day (i.e. 0.92 ± 0.034 mg monakolin K/kg LW) was associated (P < 0.05) with increased DMI and reduced methane yield (g/kg DMI) emissions. However, the effect was transient and not observed as FRR increased to 100 g/day. It was concluded that the adverse effects of FRR on animal health precludes further investigation with high doses of supplementation, and the transient reduction in methane yield was probably due to rumen adaptation.

Additional keywords: cholesterol, fermented red rice, lovastatin, metabolism, monakolin K, Monascus purpureus.


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