Overview

The subject of fruit ripening is one of vital interest and importance to the massive international fruit growing and fruit trade industries. This book, which covers the biochemistry and molecular biology of ripening of the world's major fruit types, has been drawn together by a team from the University of Nottingham, the scene of much recent and major research into this subject. Fruit crops covered include bananas, citrus and grapes, each crop itself supporting hundreds of thousands of people in employment worldwide. A full understanding of the subject matter of the book is vital for planning of harvesting, transportation and storage of the crops covered. This book brings together the diverse information now available for a wide range of fruit, in particular emphasizing important advances made in the last 20 years. It should be of interest to all those involved in research and development relating to fruit growing and the fruit trade, including biochemists, agricultural and plant scientists and food scientists.

Full Product Details

Author:   G.B. Seymour ,  J.E. Taylor ,  Gregory A. Tucker
Publisher:   Chapman and Hall
Imprint:   Chapman and Hall
Edition:   1993 ed.
Dimensions:   Width: 15.50cm , Height: 2.50cm , Length: 23.50cm
Weight:   0.956kg
ISBN:  

9780412408304

ISBN 10:   0412408309
Pages:   454
Publication Date:   30 April 1993
Audience:   College/higher education ,  Professional and scholarly ,  Undergraduate ,  Postgraduate, Research & Scholarly
Format:   Hardback
Publisher's Status:   Active
Availability:   In Print  
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Table of Contents

1 Introduction.- 1.1 Respiration and energy.- 1.2 Flavour changes.- 1.3 Colour changes.- 1.4 Texture changes.- 1.5 Control of ripening.- 1.6 Conclusions.- References.- 2 Avocado.- 2.1 Introduction.- 2.2 Physiology.- 2.3 Biochemistry.- 2.4 Gene expression during fruit ripening.- References.- 3 Banana.- 3.1 Introduction.- 3.2 Ethylene production and respiration.- 3.3 Carbohydrate metabolism.- 3.4 Pigment changes.- 3.5 Cell wall changes.- 3.6 Phenolic compounds.- 3.7 Organic acid and amino acid metabolism.- 3.8 Production of volatile compounds.- 3.9 Lipids.- 3.10 Other changes.- 3.11 Concluding remarks.- References.- 4 Citrus fruit.- 4.1 Commercial importance of citrus fruit.- 4.2 Taxonomy and cultivars.- 4.3 Harvest.- 4.4 Postharvest.- 4.5 General physiology.- 4.6 Biochemical changes during development, ripening and storage.- 4.7 Citrus biotechnology.- References.- 5 Exotics.- 5.1 Introduction.- 5.2 Persimmon.- 5.3 Lychee.- 5.4 Guava.- 5.5 Annona species.- 5.6 Carambola.- 5.7 Tamarillo.-5.8 Passion fruit.- 5.9 Mangosteen.- 5.10 Feijoa.- 5.11 Rambutan.- References.- 6 Grape.- 6.1 Origin and distribution.- 6.2 Grape berry morphology.- 6.3 Fruit growth and development.- 6.4 Growth regulation - phytohormones.- 6.5 Postharvest physiology.- 6.6 Handling and storage.- 6.7 Compositional changes.- 6.8 Phenolic compounds.- 6.9 Aroma.- 6.10 Cell wall metabolism.- References.- 7 Kiwifruit.- 7.1 Introduction.- 7.2 Physiology.- 7.3 Biochemistry.- 7.4 Pathways and enzymes.- 7.5 Regulation of ripening.- 7.6 Future prospects.- References.- 8 Mango.- 8.1 Introduction.- 8.2 Fruit development and harvest maturity.- 8.3 Ripening processes.- References.- 9 Melon.- 9.1 Introduction.- 9.2 Botany.- 9.3 Physiological changes during development and ripening.- 9.4 Biochemical changes during development and ripening.- 9.5 Postharvest diseases and disorders.- 9.6 Genetic improvement.- References.- 10 Pineapple and papaya.- 10.1 The pineapple — an introduction.- 10.2 Pineapple — physiology and biochemistry.- 10.3 Papaya — an introduction.- 10.4 Papaya — physiology.- 10.5 Papaya — biochemistry.- References.- 11 Pome fruits.- 11.1 Introduction.- 11.2 Physiology.- 11.3 Biochemistry.- 11.4 Regulation.- References.- 12 Soft fruit.- 12.1 Introduction.- 12.2 Physiology.- 12.3 Biochemistry.- 12.4 Metabolic pathways.- 12.5 Hormonal regulation of development and ripening.- 12.6 Gene expression during development and ripening.- References.- 13 Stone fruit.- 13.1 Introduction.- 13.2 The Prunus species and their origins.- 13.3 Peaches and nectarines (P. persica).- 13.4 Plum (P. domestica).- 13.5 Mume, or Japanese apricot (P. mume).- 13.6 Apricot (P. armeniaca).- 13.7 Almond (P. amygdalus).- 13.8 Tart or sour cherry (P. cerasus).- 13.9 Sweet cherry (P. avium).- 13.10 Olive (Olea europaea L).- References.- 14 Tomato.- 14.1 Introduction.- 14.2 History and classification.- 14.3 Tomato production.- 14.4 Fruit quality.- 14.5 Ethylene synthesis and action.- 14.6 Temperature stresses and their effects on ripening.- 14.7 The mechanism of tomato ripening.- 14.8 Non-ripening mutants.- 14.9 Cloning and characterization ripening-related mRNAs.- 14.10 Polygalacturonase and its role in texture change.- 14.11 Tomato genetic engineering.- 14.12 Control of fruit-specific and ripening-specific gene expression.- References.- Glossary of botanical names.

Reviews

... the Biochemistry of Fruit Ripening is aimed at all those involved in planning, harvesting, transport and storage of fruit.... to emphasise in particular the advances made in the last 20 years. - Comment; ...400 well documented pages...In summary, this book should allow a researcher or teacher unfamiliar with this area to assemble biochemical information concerning a wide range of individual fruits efficiently - Plant Science

... the Biochemistry of Fruit Ripening is aimed at all those involved in planning, harvesting, transport and storage of fruit... to emphasise in particular the advances made in the last 20 years. - Comment; ...400 well documented pages...In summary, this book should allow a researcher or teacher unfamiliar with this area to assemble biochemical information concerning a wide range of individual fruits efficiently - Plant Science

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