Low temperature stress physiology in crops / edited by Paul H. Li.

Contributor(s):

Li, P. H. (Paul H.) [editor]

Material type: Text

TextSeries: CRC RevivalsPublication details: Boca Raton, FL : CRC Press, 2018ISBN:

9781315895086
9781351082631
9781351091084

Subject(s):

DDC classification:

E-BOOK (Available ON-CAMPUS only)

Online resources:

Click here to access online

Contents:

PART I. RESPONSES OF CHILLING-INSENSITIVE PLANTS TO LOW STRESS TEMPERATURES 1 The Induction of Cold Acclimation: The Role of Abscisic Acid - 2 Metabolic Consequences of Low Temperature Stress in Chilling-Insensitive Plants - 3 Alterations of Plasma Membranes Related to Cold Acclimation of Plants - 4 Development at Cold-Hardening Temperatures: Membrane Assembly and Organization - 5 The Role of Phenolic Compounds in Plant Stress Responses - 6 Ethylene-Induced Stress Resistance - 7 Environmental Control of Growth Behavior and Cold Hardiness in Arctic and Subarctic Plants - 8 Low Temperature Injury in Winter Cereals - 9 Plasma Membrane H+-ATPase as a Site of Functional Alteration during Cold Acclimation and Freezing Injury - 10 Cryopresemation of Plant Cells and Organs - 11 Properties of Peach Flower Buds which Facilitate Supercooling - 12 Forcasting Hardiness for Winter Cold Protection in Peach Orchards

PART II: RESPONSES OF CHILLING-SENSITIVE PLANTS TO LOW TEMPERATURE STRESS 13 Mefluidide: A Synthetic Chemical that Protects Corn and Rice Seedlings from Chilling Injury 14 Relation of Chilling Stress to Ethylene Production

Summary: The importance of low temperature stress physiology research has become increasingly apparent in agriculture for productions of food, fibre and ornamental plants. This volume consists of two parts, there are a total of 14 chapters including 6 chapters dealing with cold accumulation related topics, 6 dealing with freeze stress and 2 related to ethylene production and mefluidide protection.

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Holdings
Item type	Current library	Call number	Status	Date due	Barcode
Books	Mohinder Singh Randhawa Library	E-BOOK (Available ON-CAMPUS only) (Browse shelf(Opens below))	Available		OL-209

PART I. RESPONSES OF CHILLING-INSENSITIVE PLANTS TO LOW STRESS TEMPERATURES 1 The Induction of Cold Acclimation: The Role of Abscisic Acid
- 2 Metabolic Consequences of Low Temperature Stress in Chilling-Insensitive Plants
- 3 Alterations of Plasma Membranes Related to Cold Acclimation of Plants
- 4 Development at Cold-Hardening Temperatures: Membrane Assembly and Organization
- 5 The Role of Phenolic Compounds in Plant Stress Responses
- 6 Ethylene-Induced Stress Resistance
- 7 Environmental Control of Growth Behavior and Cold Hardiness in Arctic and Subarctic Plants
- 8 Low Temperature Injury in Winter Cereals
- 9 Plasma Membrane H+-ATPase as a Site of Functional Alteration during Cold Acclimation and Freezing Injury
- 10 Cryopresemation of Plant Cells and Organs
- 11 Properties of Peach Flower Buds which Facilitate Supercooling
- 12 Forcasting Hardiness for Winter Cold Protection in Peach Orchards

PART II: RESPONSES OF CHILLING-SENSITIVE PLANTS TO LOW TEMPERATURE STRESS 13 Mefluidide: A Synthetic Chemical that Protects Corn and Rice Seedlings from Chilling Injury
14 Relation of Chilling Stress to Ethylene Production

The importance of low temperature stress physiology research has become increasingly apparent in agriculture for productions of food, fibre and ornamental plants. This volume consists of two parts, there are a total of 14 chapters including 6 chapters dealing with cold accumulation related topics, 6 dealing with freeze stress and 2 related to ethylene production and mefluidide protection.

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