大葉大學圖書館 |

Abiotic stress biology in horticultural plants[electronic resource] /

紀錄類型:	書目-語言資料,印刷品 : Monograph/item
杜威分類號:	635
書名/作者:	Abiotic stress biology in horticultural plants/ edited by Yoshinori Kanayama, Alexey Kochetov.
其他作者:	Kanayama, Yoshinori.
出版者:	Tokyo : : Springer Japan :, 2015.
面頁冊數:	viii, 220 p. : : ill. (some col.), digital ;; 24 cm.
Contained By:	Springer eBooks
標題:	Horticultural crops - Effect of stress on.
標題:	Life Sciences.
標題:	Plant Physiology.
標題:	Agriculture.
標題:	Climate Change/Climate Change Impacts.
標題:	Food Science.
標題:	Genetic Engineering.
ISBN:	9784431552512 (electronic bk.)
ISBN:	9784431552505 (paper)
內容註:	PART I STRESS PHYSIOLOGY AND MOLECULAR BIOLOGY IN HORTICULTURAL PLANTS -- 1 Effect of Salt Stress on the Growth and Fruit Quality of Tomato Plants -- 2 Ethylene, Oxygen, Carbon Dioxide, and Temperature in Postharvest Physiology -- 3 Role of Polyamines in Stress Response in Horticultural Crops -- 4 Effect of Temperature on Fruit Color Development -- 5 Polyol Metabolism and Stress Tolerance in Horticultural Plants -- PART II EFFECTS OF ABIOTIC STRESS ON HORTICULTURAL CROP PRODUCTION AND STORAGE -- 6 Influence of Drought and High Temperature on Citrus -- 7 Fruit Set and Temperature Stress -- 8 Postharvest Chlorophyll Degradation and Oxidative Stress -- PART III STRESS BIOLOGY IN PHYSIOLOGICAL DISORDERS OF HORTICULTURAL CROPS -- 9 Blossom-End Rot in Fruit Vegetables -- 10 Watercore in Fruits -- 11 Water Uptake Through the Surface of Fleshy Soft Fruit: Barriers, Mechanism, Factors, and Potential Role in Cracking -- PART IV GENETIC ENGINEERING TECHNOLOGIES AND OMICS IN STRESS TOLERANCE -- 12 Promoters for Transgenic Horticultural Plants -- 13 mRNA Translational Enhancers as a Tool for Plant Gene Engineering -- 14 RNA-Seq Data Analysis for Studying Abiotic Stress in Horticultural Plants.
摘要、提要註:	The purpose of this publication is to elucidate the biological aspect of the abiotic stress response from the field to the molecular level in horticultural plants. This book is unique in that it concerns the basic aspect of abiotic stress biology and research progress at the molecular level in model plants or major field crops, as it focuses mainly on the abiotic stress response in existing horticultural plants. Many readers interested in plant abiotic stress biology are aware of the application of the latest findings to agricultural production, and this book will have a special appeal for those readers. The book will be of interest to scientists and graduate students who are involved in the research, development, production, processing, and marketing of horticultural products, including those in developing countries who are interested in high tech and advanced science in this field. The application of the latest findings to agricultural production is particularly useful. Stress tolerance mechanisms in horticultural crops are gaining importance, because most agricultural regions are predicted to experience considerably more extreme environmental fluctuations due to global climate change. Further, because of recent progress in next-generation sequencing technologies, the postgenomic era is impending not only in model plants and major cereal crops but also in horticultural crops, which comprise a great diversity of species. This book provides information on the physiological aspects of the abiotic stress response in horticultural plants, which is considered essential for postgenomic research.
電子資源:	http://dx.doi.org/10.1007/978-4-431-55251-2

Abiotic stress biology in horticultural plants[electronic resource] /
Abiotic stress biology in horticultural plants[electronic resource] /edited by Yoshinori Kanayama, Alexey Kochetov. - Tokyo :Springer Japan :2015. - viii, 220 p. :ill. (some col.), digital ;24 cm.

PART I STRESS PHYSIOLOGY AND MOLECULAR BIOLOGY IN HORTICULTURAL PLANTS -- 1 Effect of Salt Stress on the Growth and Fruit Quality of Tomato Plants -- 2 Ethylene, Oxygen, Carbon Dioxide, and Temperature in Postharvest Physiology -- 3 Role of Polyamines in Stress Response in Horticultural Crops -- 4 Effect of Temperature on Fruit Color Development -- 5 Polyol Metabolism and Stress Tolerance in Horticultural Plants -- PART II EFFECTS OF ABIOTIC STRESS ON HORTICULTURAL CROP PRODUCTION AND STORAGE -- 6 Influence of Drought and High Temperature on Citrus -- 7 Fruit Set and Temperature Stress -- 8 Postharvest Chlorophyll Degradation and Oxidative Stress -- PART III STRESS BIOLOGY IN PHYSIOLOGICAL DISORDERS OF HORTICULTURAL CROPS -- 9 Blossom-End Rot in Fruit Vegetables -- 10 Watercore in Fruits -- 11 Water Uptake Through the Surface of Fleshy Soft Fruit: Barriers, Mechanism, Factors, and Potential Role in Cracking -- PART IV GENETIC ENGINEERING TECHNOLOGIES AND OMICS IN STRESS TOLERANCE -- 12 Promoters for Transgenic Horticultural Plants -- 13 mRNA Translational Enhancers as a Tool for Plant Gene Engineering -- 14 RNA-Seq Data Analysis for Studying Abiotic Stress in Horticultural Plants.

The purpose of this publication is to elucidate the biological aspect of the abiotic stress response from the field to the molecular level in horticultural plants. This book is unique in that it concerns the basic aspect of abiotic stress biology and research progress at the molecular level in model plants or major field crops, as it focuses mainly on the abiotic stress response in existing horticultural plants. Many readers interested in plant abiotic stress biology are aware of the application of the latest findings to agricultural production, and this book will have a special appeal for those readers. The book will be of interest to scientists and graduate students who are involved in the research, development, production, processing, and marketing of horticultural products, including those in developing countries who are interested in high tech and advanced science in this field. The application of the latest findings to agricultural production is particularly useful. Stress tolerance mechanisms in horticultural crops are gaining importance, because most agricultural regions are predicted to experience considerably more extreme environmental fluctuations due to global climate change. Further, because of recent progress in next-generation sequencing technologies, the postgenomic era is impending not only in model plants and major cereal crops but also in horticultural crops, which comprise a great diversity of species. This book provides information on the physiological aspects of the abiotic stress response in horticultural plants, which is considered essential for postgenomic research.

ISBN: 9784431552512 (electronic bk.)

Standard No.: 10.1007/978-4-431-55251-2doiSubjects--Topical Terms:

605911
Horticultural crops
--Effect of stress on.

LC Class. No.: SB318

Dewey Class. No.: 635

Abiotic stress biology in horticultural plants[electronic resource] /
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505 0 $a PART I STRESS PHYSIOLOGY AND MOLECULAR BIOLOGY IN HORTICULTURAL PLANTS -- 1 Effect of Salt Stress on the Growth and Fruit Quality of Tomato Plants -- 2 Ethylene, Oxygen, Carbon Dioxide, and Temperature in Postharvest Physiology -- 3 Role of Polyamines in Stress Response in Horticultural Crops -- 4 Effect of Temperature on Fruit Color Development -- 5 Polyol Metabolism and Stress Tolerance in Horticultural Plants -- PART II EFFECTS OF ABIOTIC STRESS ON HORTICULTURAL CROP PRODUCTION AND STORAGE -- 6 Influence of Drought and High Temperature on Citrus -- 7 Fruit Set and Temperature Stress -- 8 Postharvest Chlorophyll Degradation and Oxidative Stress -- PART III STRESS BIOLOGY IN PHYSIOLOGICAL DISORDERS OF HORTICULTURAL CROPS -- 9 Blossom-End Rot in Fruit Vegetables -- 10 Watercore in Fruits -- 11 Water Uptake Through the Surface of Fleshy Soft Fruit: Barriers, Mechanism, Factors, and Potential Role in Cracking -- PART IV GENETIC ENGINEERING TECHNOLOGIES AND OMICS IN STRESS TOLERANCE -- 12 Promoters for Transgenic Horticultural Plants -- 13 mRNA Translational Enhancers as a Tool for Plant Gene Engineering -- 14 RNA-Seq Data Analysis for Studying Abiotic Stress in Horticultural Plants.
520 $a The purpose of this publication is to elucidate the biological aspect of the abiotic stress response from the field to the molecular level in horticultural plants. This book is unique in that it concerns the basic aspect of abiotic stress biology and research progress at the molecular level in model plants or major field crops, as it focuses mainly on the abiotic stress response in existing horticultural plants. Many readers interested in plant abiotic stress biology are aware of the application of the latest findings to agricultural production, and this book will have a special appeal for those readers. The book will be of interest to scientists and graduate students who are involved in the research, development, production, processing, and marketing of horticultural products, including those in developing countries who are interested in high tech and advanced science in this field. The application of the latest findings to agricultural production is particularly useful. Stress tolerance mechanisms in horticultural crops are gaining importance, because most agricultural regions are predicted to experience considerably more extreme environmental fluctuations due to global climate change. Further, because of recent progress in next-generation sequencing technologies, the postgenomic era is impending not only in model plants and major cereal crops but also in horticultural crops, which comprise a great diversity of species. This book provides information on the physiological aspects of the abiotic stress response in horticultural plants, which is considered essential for postgenomic research.
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