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Redesigning Animal Agriculture The
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Redesigning Animal Agriculture The
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Contents Contributors vii Acknowled
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Contributors Margaret Alston, Direc
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Acknowledgements “The editors gra
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Introduction to Redesigning Animal
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Introduction xiii factors). In rede
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1 Redesigning Animal Agriculture: a
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ing to the confusions and complexit
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such as environmental integrity alo
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The Systems Idea in Agriculture Sys
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These are all matters that are enti
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was intended to capture this vital
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wants and needs to be comprehensive
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people who can journey together tow
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A Systemic Perspective 17 Gunderson
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and telecommunications infrastructu
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y a move from a more intensive indu
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from 10 to 40% higher than urban Au
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in rural areas - environmental degr
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young people are leaving farms and
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Maintaining Vibrant Rural Communiti
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views in philosophical animal ethic
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case of virtues) there are specific
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animal ethics that is dominated by
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involves a detailed analysis of the
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to the idea that it is not wrong af
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not show sufficient respect to anim
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that ethical norms and ethical voca
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Ethics of Livestock Science 45 Diam
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plasticity of the genome and the po
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a highly predictable and beneficial
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immune response genes in both speci
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annotate these regions. The Herefor
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to their production source. This ca
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cially viable genetic tests. One re
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additive effects of the contributin
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understanding the relationship betw
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The Impact of Genomics 63 Mattick,
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5 Precision Animal Breeding Kishore
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effects (e.g. contemporary groups,
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the mean performance of the parenta
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or even shipped out overseas as liv
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tions underlying the desirable phen
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3. Markers 0.25 cM apart - through
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Infinitesimal Model y = Xb + Z1u +
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Precision Animal Breeding 79 Jansen
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6 Germ Cell Transplantation - a Nov
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testicular environment could be ove
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Brinster et al., 2003). Treatment o
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ingly sought after to produce bioph
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Acknowledgements Work from the auth
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Germ Cell Transplantation 91 epigen
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Germ Cell Transplantation 93 von Sc
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own maternal chromosomes. This reco
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eprogramming following NT, leading
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species (Schnieke et al., 1997) and
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lentivectors and RNA interference (
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under development as a biopharmaceu
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Rather than attempting to manipulat
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strated in transgenic mice over-exp
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Regulatory Issues The regulatory re
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health, fitness and behaviour of th
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goals. More specifically, it remain
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Cloning and Transgenesis 115 Gama,
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Cloning and Transgenesis 117 McCrea
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Cloning and Transgenesis 119 Stinna
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8 Transforming Livestock with Trans
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have been adapted to allow more pre
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commercial lines is apparently not
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protection of the genome against mo
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(Hammond et al., 2000). Binding of
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There are a number of ways to produ
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ules that determine siRNA activity
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known influenza A virus H subtypes
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will need to be balanced against th
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Transforming Livestock with Transge
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Transforming Livestock with Transge
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Transforming Livestock with Transge
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Introduction A key difficulty faced
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dation to probabilistic (e.g. a giv
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Similarly, the probability that a d
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One approach to the development of
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1 1 nb − ( m + mI ) m XS = ( m +
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1.0 0.8 0.6 0.4 0.2 value of the st
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that shown in (9.9). In the sequel
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Metropolis-Hastings algorithm descr
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30 20 10 logging system composed of
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0.09 0.08 0.07 0.06 0.05 0.04 0e+00
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confronting models with data in thi
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This is especially surprising since
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Stochastic Process-based Modelling
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10 Reef Safe Beef: Environmentally
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and most beef is produced under ext
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Mean NDVI Burdekin Mean NDVI Fitzro
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High biomass/cover Also, the increa
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Good or ‘A’ condition has the f
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