Overview

The last two decades have seen rapid advances in the technology used to produce pot plants. Glasshouses designed and orientated to give maximum light transmission, fully automatic heating and ventilating systems, carbon dioxide enrichment of the atmosphere, controlled photoperiods using automatic blackouts and incandescent lamps which enable plants such as chrysanthemum to be flowered at any time of the year, mist propagation techniques, chemical growth regulators which control the height of plants, automatic watering and feeding systems, etc.: these are only some of the developments which have transformed pot plant culture. There have also been many changes in the composts and systems used to grow the plants. Mineral soils, which formed the basis of the John Innes Composts, are now either too expensive or too difficult to obtain in suitable quality and sufficient quantity. Consequently the grower has been forced to seek other materials such as peat, perlite, vermiculite, plastic foam, shredded bark, etc. New types of fertilisers, new methods of heat sterilisation and new chemical sterilising agents are also being used.

Full Product Details

Author:   A. C. Bunt
Publisher:   Springer
Imprint:   Springer
Edition:   Softcover reprint of the original 1st ed. 1976
Dimensions:   Width: 15.50cm , Height: 1.50cm , Length: 23.50cm
Weight:   0.433kg
ISBN:  

9789401179386

ISBN 10:   9401179387
Pages:   278
Publication Date:   14 April 2012
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Paperback
Publisher's Status:   Active
Availability:   Manufactured on demand  
We will order this item for you from a manufactured on demand supplier.

Table of Contents

1 Why Change?.- 1.1 Loam composts.- 1.2 Loamless composts.- 2 Alternative Materials.- 2.1 Peat.- 2.2 Other organic materials.- 2.3 Mineral materials.- 2.4 Plastics.- 3 Physical Aspects.- 3.1 Physical terminology.- 3.2 Physical requirements of composts.- 3.3 Energy concept of water in composts.- 3.4 Water absorption and release by composts.- 3.5 Formulation of composts: physical principles.- 4 Principles of Nutrition.- 4.1 Cation exchange capacity.- 4.2 Anion exchange capacity.- 4.3 Availability of nutrients: loam v. loamless composts.- 4.4 Nutrient uptake by the plant.- 4.5 Acidity (pH).- 4.6 Lime requirement.- 4.7 Soluble salts.- 5 Nitrogen.- 5.1 Nitrogen and pot plants.- 5.2 Forms of mineral nitrogen.- 5.3 Slow release fertilisers.- 5.4 Choice of fertiliser type.- 5.5 Nitrogen and peat.- 6 Other Macro-Elements.- 6.1 Phosphorus.- 6.2 Potassium.- 6.3 Calcium.- 6.4 Magnesium.- 6.5 Sulphur.- 6.6 Mineral soil and peat comparison.- 6.7 Nutrient and environment interactions.- 6.8 Fertiliser analysis and salt index.- 6.9 Plant mineral levels.- 7 Micro-Elements.- 7.1 Boron.- 7.2 Copper.- 7.3 Manganese.- 7.4 Molybdenum.- 7.5 Iron.- 7.6 Zinc.- 7.7 Chloride.- 7.8 Aluminium.- 7.9 Fritted micro-elements.- 7.10 Chelated micro-elements.- 7.11 Other sources.- 7.12 Micro-element availability.- 8 Compost Formulation and Preparation.- 8.1 Historical.- 8.2 Denmark.- 8.3 Finland.- 8.4 Germany.- 8.5 Ireland.- 8.6 Netherlands.- 8.7 United Kingdom.- 8.8 United States of America.- 8.9 Sawdust and bark composts.- 8.10 Azalea composts.- 8.11 Proprietary formulations.- 8.12 Compost preparation.- 9 Liquid Feeding.- 9.1 Importance of liquid feeding.- 9.2 Formulating liquid feeds.- 9.3 Practical aspects of feeding.- 9.4 Diluting equipment.- 9.5 Quality of irrigation water.- 10 Irrigation Systems.- 10.1 Drip systems.- 10.2 Capillary watering.- 10.3 Flooded benches.- 11 John Innes Composts.- 11.1 Formulation.- 11.2 Compost ingredients: loam.- 11.3 Peat.- 11.4 Sand.- 11.5 Sterilisation.- 11.6 Characteristics and use.- 11.7 Composts for calcifuge plants (JIS ( A )).- 12 Heat Sterilisation.- 12.1 Thermal deathpoints.- 12.2 Methods of heat sterilisation.- 12.3 Steam.- 12.4 Steam—air mixtures.- 12.5 Flame pasteuriser.- 12.6 Electrical sterilisers.- 12.7 Other methods.- 12.8 Chemistry of heat sterilisation.- 12.9 Rules for heat sterilisation.- 13 Chemical Sterilisation.- 13.1 Soil fumigants.- 13.2 Fungicides.- 13.3 Insecticides.- 14 Plant Containers.- 14.1 Clay v. plastic pots.- 14.2 Paper and peat pots.- Appendices.- 1 Metric conversions.- 2 Imperial and us capacity measures.- 3 Illumination and radiation units.- 4 Atomic weights.- 5 Formulae and molecular weights of some commonly used chemicals.- 6 Chemical gravimetric conversions.- 7 Temperature conversions.

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