Book contents
- Frontmatter
- Contents
- List of contributors
- Preface
- Editors' note and acknowledgements
- Introduction
- The development of potato varieties in Europe
- Genetic Resources
- Breeding Strategies
- Selection and Screening Methods
- Variety Assessment
- Potato variety assessment in the Federal Republic of Germany
- Potato variety assessment in France
- Variety assessment in The Netherlands
- Potato variety assessment in Poland
- Potato variety assessment in the UK
- Use of common origin seed for potato trials
- Micropropagation – an aid in the production of new varieties
- Testing potato varieties for response to drought and irrigation
- Testing varieties for resistance to and tolerance of Globodera pallida
- Testing for glycoalkaloids
- Methods for calculating 1–9 values to express the resistance of potato varieties to diseases
- Establishing standards in variety assessment
- Consumer quality requirements in the United Kingdom
- The effects of fertilizer treatments on a range of old and new early-maturing potato varieties
- Variety trials in Egypt, with special reference to dormancy
- Semi-conventional Breeding Methods
- True Potato Seed
- Unconventional Breeding Methods
- Commentary
- Index
Micropropagation – an aid in the production of new varieties
Published online by Cambridge University Press: 05 March 2012
- Frontmatter
- Contents
- List of contributors
- Preface
- Editors' note and acknowledgements
- Introduction
- The development of potato varieties in Europe
- Genetic Resources
- Breeding Strategies
- Selection and Screening Methods
- Variety Assessment
- Potato variety assessment in the Federal Republic of Germany
- Potato variety assessment in France
- Variety assessment in The Netherlands
- Potato variety assessment in Poland
- Potato variety assessment in the UK
- Use of common origin seed for potato trials
- Micropropagation – an aid in the production of new varieties
- Testing potato varieties for response to drought and irrigation
- Testing varieties for resistance to and tolerance of Globodera pallida
- Testing for glycoalkaloids
- Methods for calculating 1–9 values to express the resistance of potato varieties to diseases
- Establishing standards in variety assessment
- Consumer quality requirements in the United Kingdom
- The effects of fertilizer treatments on a range of old and new early-maturing potato varieties
- Variety trials in Egypt, with special reference to dormancy
- Semi-conventional Breeding Methods
- True Potato Seed
- Unconventional Breeding Methods
- Commentary
- Index
Summary
INTRODUCTION
Potato breeding involves selection over several years from a large number of clones, and the breeder has many varieties to maintain. Seed numbers are inevitably low for both practical and economic reasons. This is often a limiting factor in the progress of a variety through advisory and developmental trials. It is therefore advantageous to accelerate seed production at this stage by means of micropropagation.
The Potato Section of the National Institute of Agricultural Botany (NIAB) produces its own seed of new varieties for Recommended List trials and other advisory trials. Prior to 1982 primary propagation was carried out by virus tested stem cuttings (VTSC); this gave improved multiplication rates over tubers and the plants were free from pathogenic fungi (Hirst & Hide 1966). In 1982 NIAB replaced stem cuttings with in vitro propagation (micropropagation); this gave better control of multiplication, improved hygiene and easier transportation of material. Micropropagation reduced seed production time for most varieties by one year.
METHOD
The method consists of a phase of micropropagation followed by transfer to soil under glass and finally transplantation into the field (Wooster & Dixon 1985). Polythene tunnels or screenhouses may be used when field conditions are not suitable for high value seed.
Laboratory stage
The potato is relatively easy to propagate in vitro using axillary buds as the basic propagule. Initial explants can be taken from plant stems or tuber sprouts.
- Type
- Chapter
- Information
- The Production of New Potato VarietiesTechnological Advances, pp. 142 - 145Publisher: Cambridge University PressPrint publication year: 1987
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