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
Variety trials in Egypt, with special reference to dormancy
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
In Egypt and other countries with a similar climate, potatoes are grown as both a spring crop and an autumn crop. The spring crop is usually planted in January with imported seed tubers, while the autumn crop is planted in September using local seed tubers taken from the preceding spring crop. Attempts to grow the spring crop using local seed taken from the preceding autumn crop are usually hampered by the dormancy of the freshly harvested tubers. Potato varieties grown in Egypt show wide variation in length of dormancy and in their reaction to the different chemical agents that break dormancy.
METHOD
In the present investigation, seed tubers of five potato cultivars Alpha, Berolina, Domina, Granola and Hilta were purchased from the local market and grown on Assiut University Experimental Farm during the autumn season of 1984. After harvest in January 1985, tubers were exposed to the following treatments to break dormancy:
1. Cutting of tubers (cut, whole).
2. Pretreatment temperature (ambient temp. 5–22°C, high temp. 25–30°C).
3. Chemical treatment: a) soak treatment: thiourea, potassium thiocyanate.
b) gas treatment; carbon disulphide (CS2), ethylene chlorohydrin, rindite. The tubers were planted on 19 February 1985 in a factorial experiment and data were recorded on rate of emergence, final plant stand, shoot length, number of stems per plant and total yield.
RESULTS
Alpha was the slowest cultivar to emerge and had the lowest number of stems per plant. Results for final plant stand (56 days after planting) are presented in Table 1.
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- Information
- The Production of New Potato VarietiesTechnological Advances, pp. 168 - 170Publisher: Cambridge University PressPrint publication year: 1987