Reis, P.J. 1992, ‘Variations in the strength of wool fibres – A review,’ Australian Journal of Agricultural Research, vol. 43, pp. 1337-1351
Rogers, G.E. 1990, ‘Improvements of wool production through genetic engineering’ Tribtech, January 1990, vol. 8.
Rogers, G.E. 2004, ‘Hair follicle differentiation and regulation,’ International Journal of Developmental Biology, vol 48, pp. 163-170.
Jones, L.N. and Rivett, D.E. 1997. ‘The role of 18-Methyleicosanoic acid in the structure and formation of mammalian hair fibres. Micron, vol 28, pp 469-485.
Zahn, H., Wortmann, F. and J. and Hoecker, H., 2005. ‘Considerations on the occurrence of Loricrin and Involucrin in the cell envelope of wool cuticle cells.’ International Journal of Sheep and Wool Science, vol 53, pp 1-13.
Steinert, P.M. and Freedberg, I.M., 1991. Chp1. Epidermal Structural Proteins. Molecular proteins and cellular biology of keratins. In Physiology, Hynd, P.I., 1989 ‘Effects of nutrition on wool follicle cell kinetics in sheep differing in efficiency of wool production’, vol 40, pp 409-417. Australian Journal of Agricultural Researchbiochemistry and molecular biology of the skin. Vol 1 (ed) Goldsmith, L.A. Oxford University Press, New York, pp 120-129.
Powell, B.C., Walker, S.K., Bawden, C.S., Sivaprasad, A.V. and Rogers, G.E. (1994) “Transgenic sheep and wool growth : possibilities and current status” Reproduction, Fertility and Development 6: 615-623
Bawden, C.S., Powell, B.D., Walker, S.K. and Rogers, G.E. (1998) “Expression of an intermediate filament keratin transgene in sheep fibre alters structure” Transgenic Research 7:273-287
Bawden, C.S., McLaughlin, C.J., Penno, N.M., Walker, S.K., Nynd, P.I. and Rogers, G.E. (2000) “Genetic manipulation to modify wool properties and fibre growth rates” Proceedings of New Zealand Society of Animal Production, 60: 147
Hearle, (2000) “A critical review of the structural mechanics of wool and hair fibres” International Journal of Biological Macromolecules 27: 123-138
Houdebine (2002) “The methods to generate transgenic animals and control gene expression” Journal of Biotechnology 98: 145-60
Wheeler, M.B., Walers, E.M. and Clark, S.G. (2003) “Transgenic animals in biomedicine and agriculture: outlook for the future” [Animal Reproduction Science 79: 265-289]
Australian Wool Testing Authority Ltd. (AWTA), 2002a, Testing the Wool Clip.
Australian Wool Testing Authority Ltd. (AWTA), 2002b, Testing the Wool Clip, Glossary of Terms.
Australian Wool Testing Authority Ltd. (AWTA), 2005, Newsletter, April 2005.
Douglas, S.A.S., 2000, Wool Trading Requirements and Technical Limitations of IWTO Test Methods, AWTA Ltd, Melbourne.
Sommerville, P.J., 2001, Fundamental Principles of Fibre Fineness Measurement Part 1: The Technical and Commercial Requirements of Wool Testing Systems, AWTA Ltd.
Sommerville, P.J., 2002, Fundamental Principles of Fibre Fineness Measurement Part 2: Understanding Fibre Diameter Measurement, AWTA Ltd.
Whan, R.B. 1973, Potential saving from the sale of wool by measurement, in: 1973, Objective Measurement of Wool in Australia, Australian Wool Corporation.
Mandel, J. 1984, The Precision and Accuracy of Measurements, in the Statistical Analysis of Experimental Data, Dover Publications Inc, Mineola, N.Y., U.S.A. chapter 6, part 1, pp 102-117.
Mandel, J. 1984, The Precision and Accuracy of Measurements, in the Statistical Analysis of Experimental Data, Dover Publications Inc, Mineola, N.Y., U.S.A. chapter 6, part 2, pp 118-130.
Teasdale, D. 1991, Wool Preparation, Marketing and Processing, in Australian Sheep and Wool Handbook, ed D.J. Cottle pp 309-348.
Baxter, P., 2001, Precision of measurement of diameter and diameter-length profile, of greasy wool staples on-farm, using the OFDA2000 instrument, Wool Technology and Sheep Breeding, vol 49 (1), pp. 42-52. Reprinted from the 10th International Wool Textile Conference, Germany, Nov, 2000.
Marler, J.W. and Baxter, P. 2004. The 2003 Australian Wool Innovation On-farm fibre measurement instrument evaluation trial. Part 1: Accuracy and Precision Trials, IWTO CTF 01 May 2004, Evian.
IWTO, IWTO-0 (2003), Procedures for the development, review, progression or relegation of IWTO test methods and draft test methods Appendix B, Presentation of supporting technical data.
IWTO, IWTO-0 (2003), Procedures for the development, review, progression or relegation of IWTO test methods and draft test methods Appendix D, Statistical methods.
Australian Wool Testing Authority Ltd. (AWTA), 2002, Testing the Wool Clip.
Australian Wool Testing Authority Ltd. (AWTA), 2003, Classing using in-shed testing: Why do fine lines measure coarser than predicted?, AWTA Information sheet, February 2003.
Russell B.C. and Cottle D.J. 1993, Sampling variance in sale lots and its influence on test precision, Wool Technology and Sheep Breeding, vol. 41(2), pp. 127.
Australian Wool Testing Authority (AWTA), 2002, Testing the WoolClip, AWTA Ltd.
Marler, J.W. 2001, ‘The Impact of Test Result Precision on On-Farm Decisions,’ Proceedings. of IWTO, Commercial Technology Forum, Report No. CTF 04, Nice.
Sommerville, P.J. 1998, ‘Measurement of the fineness of superfine wool: Effect of the revised LASERSCAN calibration function on comparisons between Airflow, LASERSCAN and OFDA,’ Proceedings. of IWTO, Technical and Standards Committee meeting, Report No. CTF 04, Nice.
Huson, M.G., Phair, N.L., Maxwell, J.M. and Turner, P.S. 2000a, ‘Bundle Strength and Intrinsic Fibre Strength of Fine-Wools from Different Bloodlines,’ Asian Australasian Association of Animal Production-Australian Society of Animal Production Conference, Sydney, July, 2000.
Huson, M.G, Bedson, J.B., Phair, N.L. and Turner, P.S. 2000b, ‘Intrinsic Strength of Wool Fibres,’ Asian Australasian Association of Animal Production-Australian Society of Animal Production Conference, Sydney, July, 2000.
Baxter, P. 2001, Stability of wool colour, Massey Wool Association Conference: Colour, the ABC of XYZ.
Harold, R.W. 2001, An introduction to appearance analysis, secondsight, Graphic Arts Technical Foundation, No. 84.
Tawil, J. Colorimetry: Light, object, viewer and the rubber ruler, International Cinematographers Guild, Woods, M. (ed.).
Wood, E.J. The Basics of Wool Colour Measurement, Canesis Network Ltd.
AWEX, 2004, AWEX Code of Practice – Preparation of Australian Wool Clips – The Woolclasser, Australian Wool Exchange Ltd., Sydney NSW, Australia.
AWI, 2003, ‘The AWI 2003 Non-wool contamination survey,’ Australian Wool Innovation, Sydney 2003.
AWTA Ltd, CSIRO and AWI, 2004, ‘Development of an improved test for detection of dark and medullated fibres in presale core samples,’ Proceedings. of IWTO, Technology and Standards Committee, Raw Wool Group, Report No. RWG 05, Shanghai Meeting, November 2004.
Balasingam, A. and Mahar, T.J. 2005, ‘Status report on dark and medullated fibre testing of presale core samples and review of the detection threshold for contaminant medullation,’ Proceedings. of IWTO, Technology and Standards Committee, Raw Wool Group, Report No. RWG 04, Hobart Meeting, April 2005.
Hansford, K.A. and Australian Wool Industry Working Group, 2003, ‘The development of a quantified risk factor for the presence of dark and/or medullated fibres in Australian Merino wool,’ Proceedings. of IWTO, Raw Wool Group, Report No. RWG07, Istanbul meeting, November 2003.
Australian Wool Testing Authority Ltd. (AWTA), 2002, Testing the Wool Clip, Glossary of Terms.
Fish, V.E., Mahar, T.J. and Crook, B.J. 1999, ‘Fibre curvature morphometry and measurement,’ Proceedings. of IWTO, Technology and Standards Committee, Nice December 1999, Report No. CTF 01.
Fish, V.E., Mahar, T.J. and Crook, B.J. 2000, ‘The influence of preparation technique on the measurement of fibre curvature,’ Proceedings. of IWTO, Technology and Standards Committee, Christchurch, May, 2000.
AWTA Ltd, CSIRO TFT, The Woolmark Company, 2001, ‘Final Report on the Performance of the Style Instruments,’ Proceedings. of IWTO, Technology and Standards Committee, Nice, Report No. RWG03.
Hansford, K.A. Higgerson, G.H., Humphries, W., Tchen, T., Tischler, C., Brown, G.H. and Morgan, P.D. 1998, ‘The Variation in and Relationships between the Objectively Measured Components of Greasy Wool Style, Proceedings. of IWTO, Technology and Standards Committee, Dresden, Report No. 23.
Jackson, N. and Rottenbury, R.A. 1994, ‘Style Metrology,’ Proceedings. of WoolSpec ‘94, Seminar on Specification of Australian Wool and its Implications for Marketing and Processing. R.J. Rottenbury, K.A. Hansford and J.P. Scanlan (eds.).
Crowe, D, 2005, ‘A Between-Instrument Comparison of Staple Crimp Frequency Measured by Crimp Meters’, Proceedings. of IWTO, Technology and Standards Committee, Hobart, Report No. RWG02.
Lindsay, A.R., Marler, J.W. and Jackson, M.A. 2002, ‘Preliminary analysis of TEAM 3 database,’ Proceedings. of IWTO, Technology and Standards committee meeting, Barcelona, Report No. RWG04.
TEAM 2, 1985, ‘Final report,’ report to the Raw Wool Measurement Research Advisory Committee of the Australian Wool Corporation, Melbourne.
AWTA, 1999, Sirolan Laserscan™ – A new technology for the millennium, Australian Wool Testing Authority Ltd., Technical brochure, September 1999.
AWTA, 2002a, Understanding fibre diameter measurement – Fundamental concepts, Australian Wool Testing Authority Ltd. Newsletter, January 2002, pp.10.
AWTA, 2002b, Fundamentals of fibre fineness measurement – The projection microscope, Australian Wool Testing Authority Ltd. Newsletter, May 2002, pp.18.
AWTA, 2002c, Fundamentals of fibre fineness measurement – Gravimetry, Australian Wool Testing Authority Ltd. Newsletter, October 2002, pp.18.
AWTA, 2003a, Using optical diffraction to measure fibre fineness, Australian Wool Testing Authority Ltd. Newsletter, February 2003, pp.24.
AWTA, 2003b, Direct measurement of fibre fineness, Australian Wool Testing Authority Ltd. Newsletter, February 2003, p.24.
AWTA 2003c, Radiometry and Fibre Fineness Measurement, Australian Wool Testing Authority Ltd Newsletter, July 2003, p. 24
AWTA, 2003d, Using conductivity to measure fibre fineness, Australian Wool Testing Authority Ltd. Newsletter, December 2003, p.18.
AWTA, 2004, The Airflow instrument – Using porosity to measure mean fibre diameter, Australian Wool Testing Authority Ltd. Newsletter, March 2004, pp.18-21
AWTA, 2005, Using photometry to measure mean fibre diameter (1950 – 1970), Australian Wool Testing Authority Ltd. Newsletter, April 2006, p 23, Leaping Forward with Laser Optics (1970-1983), p25.
AWTA, 2006a, Using photometry to measure mean fibre diameter, Resolving Problems (1983-1989), Australian Wool Testing Authority Ltd. Newsletter, May 2006, p26.
AWTA, 2005, Using photometry to measure mean fibre diameter, The Sirolan Laserscan (1989-Today), Australian Wool Testing Authority Ltd. Newsletter, April 2005, pp.23-24.
AWTA, 2007, Using Image Analysis to Measure Fibre Diameter, Australian Wool Testing Authority Newsletter, April 2007, p25.
Baxter, P.B. 2002, ‘Wool Metrology: Past and Current Trends and Future Developments,’ Wool Industry, Science and Technology Conference – Innovation, Application and Opportunities, The State of Victoria, Department of Natural Resources and Environment.
Sommerville, P.J. 2002, ‘Wool Metrology: Past and Current Trends and Future Developments,’ Wool Industry, Science and Technology Conference – Innovation, Application and Opportunities, The State of Victoria, Department of Natural Resources and Environment.