Biotechnology of Ornamental Plants (Βιοτεχνολογία καλλωπιστικών φυτών - έκδοση στα αγγλικά)
Περιγραφή
Reviews
Biotechnology of Ornamental Plants
Συγγραφέας: Robert Geneve, J.E. Preece, S.A. Merkle
ISBN: 9780851991108
Σελίδες: 416
Σχήμα: 18 Χ 25
Εξώφυλλο: Σκληρό
Έτος έκδοσης: 1996
Readership
Workers in horticulture and plant biotechnology, as well as plant physiologists, geneticists and molecular biologists.
Main Description
Ornamental plants include herbaceous plants produced as bedding plants, greenhouse pot plants and cut flowers, as well as bulbs, trees, shrubs and vines. Ornamental plant production is of major and increasing importance worldwide. Basic scientific research in recent years has provided a better understanding of plant regeneration, genetics, growth and development. This has led to the development of technologies which can significantly improve ornamental species.
This book reviews recent advances in the biotechnology of ornamentals. For example, genes have recently been identified for flower characteristics and pest resistance and these have been engineered into ornamental species. The book is divided into four main parts and is written by authors from the USA, UK, Canada, Netherlands, Australia and New Zealand. It is aimed primarily at workers in horticulture and plant biotechnology, but will also be of interest to plant physiologists, geneticists and molecular biologists.
Main Contents
Part 1: Supporting Technologies
• The Commercialization of Biotechnology, K L Giles, Department of Horticulture Science, University of Saskatchewan, Canada and M McLaughlin, Ag-West Biotech, Saskatoon, Canada
• Somatic Embryogenesis in Ornamentals, S A Merkle, Daniel B Warnell School of Forest Resources, University of Georgia, Athens, USA
• Axillary Shoot Proliferation, J E Preece, Department of Plant and Soil Science, Southern Illinois University, USA
• Adventitious Shoot Regeneration, R R Tripepi, Plant Science Division, University of Idaho, USA
• Approaches to Understanding Maturation or Phase Change, W P Hackett and J R Murray, Department of Horticultural Science, University of Minnesota, USA
Part 2: Genetics
• Transformation Protocols for Ornamental Plants, S C Deroles, M R Boase and I Konczak, New Zealand Institute for Crop & Food Research Ltd, New Zealand
• Reproductive Barriers in Flowering Plants, N Nass, A E Clarke and E Newbiggin, Plant Cell Biology Research Centre, School of Botany, University of Melbourne, Australia
• Genome Mapping, R Whetten, Department of Forestry, North Carolina State University, USA
• Cultivar Identification Using Molecular Methods, S Rajapakse, and R E Ballard, Department of Biological Sciences, Clemson University, USA
• Somaclonal Variation, H Bouman and G de Klerk, Centre for Plant Tissue Culture Research, The Netherlands
• T-DNA Insertion Mutagenesis for Improvement of Ornamentals, M A Jenks and K A Feldmann, Department of Plant Sciences, University of Arizona, USA
Part 3: Plant Growth and Development
• Biotechnological Approaches to Modifying Plant Form, B H McCown, Department of Horticulture, University of Wisconsin-Madison, USA
• Molecular Events Associated with Floral Evocation, B R Jordan, New Zealand Institute for Crop & Food Research Ltd, New Zealand and R G Anthony, Department of Biochemistry, Royal Holloway College, University of London, UK
• Manipulation of Flower Shape, A R Van der Krol and O Vorst, Department of Plant Physiology, Agricultural University Wageningen, The Netherlands
• Flower Colour, K M Davies and K E Schwinn, New Zealand Institute for Crop & Food Research Ltd.
Part 4: Abiotic and Biotic Stress
• Prospects for the Improvement of Tolerance to Abiotic Stresses Using Recombinant DNA Approaches, C L Guy, Department of Environmental Horticulture,University of Florida, USA
• Engineering for Bacterial and Fungal Disease Resistance, H J M Lφffler and D E A Florak, DLO Centre for Plant Breeding and Reproduction Research, The Netherlands
• Biotechnological Approaches for Virus resistance in Floral Crops, M E Daub, R K Jones and J W Moyer, Department of Plant Pathology, North Carolina State University, USA
• Biotechnological Approaches to Study and Improve Insect Resistance of Woody Plants, N B Klopfenstein, USDA Forest Service, National Agroforestry Centre, University of Nebraska, USA and E R Hart, Department of Entomology and Forestry, Iowa State University, USA
• Genetic Engineering of Horticultural and Forestry Crops for Herbicide Tolerance, D E Riemenschneider, Forestry Sciences Laboratory, Wisconsin, USA
Συγγραφέας: Robert Geneve, J.E. Preece, S.A. Merkle
ISBN: 9780851991108
Σελίδες: 416
Σχήμα: 18 Χ 25
Εξώφυλλο: Σκληρό
Έτος έκδοσης: 1996
Readership
Workers in horticulture and plant biotechnology, as well as plant physiologists, geneticists and molecular biologists.
Main Description
Ornamental plants include herbaceous plants produced as bedding plants, greenhouse pot plants and cut flowers, as well as bulbs, trees, shrubs and vines. Ornamental plant production is of major and increasing importance worldwide. Basic scientific research in recent years has provided a better understanding of plant regeneration, genetics, growth and development. This has led to the development of technologies which can significantly improve ornamental species.
This book reviews recent advances in the biotechnology of ornamentals. For example, genes have recently been identified for flower characteristics and pest resistance and these have been engineered into ornamental species. The book is divided into four main parts and is written by authors from the USA, UK, Canada, Netherlands, Australia and New Zealand. It is aimed primarily at workers in horticulture and plant biotechnology, but will also be of interest to plant physiologists, geneticists and molecular biologists.
Main Contents
Part 1: Supporting Technologies
• The Commercialization of Biotechnology, K L Giles, Department of Horticulture Science, University of Saskatchewan, Canada and M McLaughlin, Ag-West Biotech, Saskatoon, Canada
• Somatic Embryogenesis in Ornamentals, S A Merkle, Daniel B Warnell School of Forest Resources, University of Georgia, Athens, USA
• Axillary Shoot Proliferation, J E Preece, Department of Plant and Soil Science, Southern Illinois University, USA
• Adventitious Shoot Regeneration, R R Tripepi, Plant Science Division, University of Idaho, USA
• Approaches to Understanding Maturation or Phase Change, W P Hackett and J R Murray, Department of Horticultural Science, University of Minnesota, USA
Part 2: Genetics
• Transformation Protocols for Ornamental Plants, S C Deroles, M R Boase and I Konczak, New Zealand Institute for Crop & Food Research Ltd, New Zealand
• Reproductive Barriers in Flowering Plants, N Nass, A E Clarke and E Newbiggin, Plant Cell Biology Research Centre, School of Botany, University of Melbourne, Australia
• Genome Mapping, R Whetten, Department of Forestry, North Carolina State University, USA
• Cultivar Identification Using Molecular Methods, S Rajapakse, and R E Ballard, Department of Biological Sciences, Clemson University, USA
• Somaclonal Variation, H Bouman and G de Klerk, Centre for Plant Tissue Culture Research, The Netherlands
• T-DNA Insertion Mutagenesis for Improvement of Ornamentals, M A Jenks and K A Feldmann, Department of Plant Sciences, University of Arizona, USA
Part 3: Plant Growth and Development
• Biotechnological Approaches to Modifying Plant Form, B H McCown, Department of Horticulture, University of Wisconsin-Madison, USA
• Molecular Events Associated with Floral Evocation, B R Jordan, New Zealand Institute for Crop & Food Research Ltd, New Zealand and R G Anthony, Department of Biochemistry, Royal Holloway College, University of London, UK
• Manipulation of Flower Shape, A R Van der Krol and O Vorst, Department of Plant Physiology, Agricultural University Wageningen, The Netherlands
• Flower Colour, K M Davies and K E Schwinn, New Zealand Institute for Crop & Food Research Ltd.
Part 4: Abiotic and Biotic Stress
• Prospects for the Improvement of Tolerance to Abiotic Stresses Using Recombinant DNA Approaches, C L Guy, Department of Environmental Horticulture,University of Florida, USA
• Engineering for Bacterial and Fungal Disease Resistance, H J M Lφffler and D E A Florak, DLO Centre for Plant Breeding and Reproduction Research, The Netherlands
• Biotechnological Approaches for Virus resistance in Floral Crops, M E Daub, R K Jones and J W Moyer, Department of Plant Pathology, North Carolina State University, USA
• Biotechnological Approaches to Study and Improve Insect Resistance of Woody Plants, N B Klopfenstein, USDA Forest Service, National Agroforestry Centre, University of Nebraska, USA and E R Hart, Department of Entomology and Forestry, Iowa State University, USA
• Genetic Engineering of Horticultural and Forestry Crops for Herbicide Tolerance, D E Riemenschneider, Forestry Sciences Laboratory, Wisconsin, USA