A logical approach to understanding physiological mechanisms underpinning growth efficiency in broilers explained by a single selected genetic locus

Angus Reid; Peter Wilson; Natasha Whenham; Ian Dunn

A logical approach to understanding physiological mechanisms underpinning growth efficiency in broilers explained by a single selected genetic locus

Research output: Contribution to journal › Meeting abstract › peer-review

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A logical approach to understanding physiological mechanisms underpinning growth efficiency in broilers explained by a single selected genetic locus. / Reid, Angus; Wilson, Peter; Whenham, Natasha; Dunn, Ian.

In: British Poultry Abstracts, Vol. 12, No. 1, 12.12.2016, p. 11-12.

Research output: Contribution to journal › Meeting abstract › peer-review

Harvard

Reid, A, Wilson, P, Whenham, N & Dunn, I 2016, 'A logical approach to understanding physiological mechanisms underpinning growth efficiency in broilers explained by a single selected genetic locus', British Poultry Abstracts, vol. 12, no. 1, pp. 11-12. <http://www.tandfonline.com/doi/pdf/10.1080/17466202.2016.1245929?needAccess=true>

APA

Reid, A., Wilson, P., Whenham, N., & Dunn, I. (2016). A logical approach to understanding physiological mechanisms underpinning growth efficiency in broilers explained by a single selected genetic locus. British Poultry Abstracts, 12(1), 11-12. http://www.tandfonline.com/doi/pdf/10.1080/17466202.2016.1245929?needAccess=true

Vancouver

Reid A, Wilson P, Whenham N, Dunn I. A logical approach to understanding physiological mechanisms underpinning growth efficiency in broilers explained by a single selected genetic locus. British Poultry Abstracts. 2016 Dec 12;12(1):11-12.

Author

Reid, Angus ; Wilson, Peter ; Whenham, Natasha ; Dunn, Ian. / A logical approach to understanding physiological mechanisms underpinning growth efficiency in broilers explained by a single selected genetic locus. In: British Poultry Abstracts. 2016 ; Vol. 12, No. 1. pp. 11-12.