Citation: Rm. Pemberton et al., An electrochemical immunosensor for milk progesterone using a continuous flow system, BIOSENS BIO, 16(9-12), 2001, pp. 715-723
Authors:
Ditcham, WGF
Al-Obaidi, AHR
McStay, D
Mottram, TT
Brownlie, J
Thompson, I
Citation: Wgf. Ditcham et al., An immunosensor with potential for the detection of viral antigens in bodyfluids, based on surface second harmonic generation, BIOSENS BIO, 16(3), 2001, pp. 221-224
Authors:
Dewhurst, RJ
Evans, RT
Mottram, TT
Spanel, P
Smith, D
Citation: Rj. Dewhurst et al., Assessment of rumen processes by selected-lon-flow-tube mass spectrometricanalysis of rumen gases, J DAIRY SCI, 84(6), 2001, pp. 1438-1444
Citation: Rm. Pemberton et al., An assay for the enzyme N-acetyl-beta-D-glucosaminidase (NAGase) based on electrochemical detection using screen-printed carbon electrodes (SPCEs), ANALYST, 126(11), 2001, pp. 1866-1871
Citation: Rm. Lark et al., A time series model of daily milk yields and its possible use for detection of a disease (ketosis), ANIM SCI, 69, 1999, pp. 573-582
Authors:
Gardner, JW
Hines, EL
Molinier, F
Bartlett, PN
Mottram, TT
Citation: Jw. Gardner et al., Prediction of health of dairy cattle from breath samples using neural network with parametric model of dynamic response of array of semiconducting gas sensors, IEE P-SCI M, 146(2), 1999, pp. 102-106
Citation: Tt. Mottram et al., An experiment to determine the feasibility of automatically detecting hyperketonaemia in dairy cows, LIVEST PROD, 61(1), 1999, pp. 7-11
Authors:
Frost, AR
Mottram, TT
Allen, CJ
White, RP
Citation: Ar. Frost et al., Influence of milking interval on the total bacterial count in a simulated automatic milking system, J DAIRY RES, 66(1), 1999, pp. 125-129