ORPP logo
Image from Google Jackets

New Plant Physiology Research.

By: Material type: TextTextSeries: Botanical Research and Practices SeriesPublisher: New York : Nova Science Publishers, Incorporated, 2009Copyright date: ©2009Edition: 1st edDescription: 1 online resource (280 pages)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781617285486
Subject(s): Genre/Form: Additional physical formats: Print version:: New Plant Physiology ResearchDDC classification:
  • 571.2
LOC classification:
  • QK714 -- .N49 2009eb
Online resources:
Contents:
Intro -- NEW PLANT PHYSIOLOGY RESEARCH -- CONTENTS -- PREFACE -- WATER DEFICIT STRESS-INDUCED CHANGES INHIGHER PLANTS AND IMPLICATIONS FOR GLOBALARID REGIONS -- ABSTRACT -- 1. INTRODUCTION -- 2. EFFECTS OF WATER DEFICIT ONMORPHOLOGICAL PARAMETERS OF HIGHER PLANTS -- 2.1. Plant Root Length -- 2.2. Plant Stem Length -- 2.3. Plant Leaf Area -- 2.4. Plant Fresh and Dry Weight -- 2.5. Plant Yield Parameters -- 2.6. Plant Oil Content -- 3. EFFECTS OF WATER DEFICIT ON BIOCHEMICAL PARAMETERS OFHIGHER PLANTS -- 3.1. Plant Chlorophyll Content -- 3.2. Plant Carotenoid -- 3.3. Plant Xanthophyll -- 3.4. Plant Protein -- 3.5. Plant Soluble Sugars -- 4. EFFECTS OF WATER DEFICIT ON OSMOLITES ANDOSMOREGULATION OF HIGHER PLANTS -- 4.1. Proline -- 4.2. Free Amino Acids -- 4.3. Glycine Betaine -- 4.4. Proline Metabolizing Enzymes -- 4. 4.1. Proline Oxidase -- 4.4.2. γ-Glutamyl Kinase -- 5. EFFECTS OF WATER DEFICIT ON NON-ENZYMATICANTIOXIDANTS OG HIGHER PLANTS -- 5.1. α- Tocopherol -- 5.2. Ascorbic Acid -- 5.3. Reduced Glutathione -- 6. EFFECTS OF WATER DEFICIT ONANTIOXIDANT ENZYMES OF HIGHER PLANTS -- 6.1. Superoxide Dismutase (SOD) -- 6.2. Peroxidase (POX) -- 6.3. Ascorbate Peroxidase (APX) -- 6.4. Catalase (CAT) -- 7. CONCLUSIONS AND PERSPECTIVES -- ACKNOWLEDGEMENTS -- REFERENCES -- PHYSICAL AND CHEMICAL SIGNALS AND THEIRACTION IN SYSTEMIC RESPONSES OF PLANTS TOLOCAL WOUNDING -- ABSTRACT -- 1. INTRODUCTION -- 2. PHYSICAL SIGNALS -- 2.1. Hydraulic Signals -- 2.2. Electrical Signals -- 2.2.1. Action Potential -- 2.2.1.1. Generation of Action Potential -- 2.2.1.2. Propagation And Characteristics Of Plant Action Potential -- 2.2.2. Variation Potential -- 2.2.2.1. Generation and Propagation of Variation Potential -- 2.2.2.2. Main Characteristics of Variation Potential and its Comparison with ActionPotential in Plants -- 2.2.3. Methods of Electrical Signals Measurements.
2.2.3.1. Extracellular Electrical Potential Measurement -- 2.2.3.2. Intracellular Electrical Potential Measurement -- 2.2.3.3. Technical Aspects of Electrical Signals Measurements -- 2.3. Physiological Roles of Physical Signals in Systemic Wound Responses -- 2.3.1. Leaf Movement -- 2.3.2. Protein Synthesis and Gene Expression -- 2.3.3. Photosynthesis,stomata and chloroplast movement -- 2.3.4. Respiration -- 3. CHEMICAL SIGNALS -- 3.1. Abscisic Acid -- 3.1.1. ABA Biosynthetic Pathway and its Localization in Plant Organs and Cells -- 3.1.2. Physiological Roles of ABA in Systemic Wound Responses -- 3.1.2.1. Protein Synthesis and Gene Expression -- 3.1.2.2. Stomata Movement, Photosynthesis and Respiration -- Stomata Movement -- Photosynthesis and Respiration -- 3.2. Jasmonic Acid -- 3.2.1. Location of JA Biosynthesis in Plant Organs and Cells -- 3.2.2. Physiological Roles of JA in Systemic Wound Responses -- 3.2.2.1. Protein Synthesis and Gene Expression -- 3.2.2.2. Photosynthesis, Stomata Movement and Respiration -- Pigment Content -- Stomatal Effects -- Effect on Photosynthesis -- 4. INTERACTIONS BETWEEN PHYSICAL AND CHEMICAL SIGNALS INLONG-DISTANCE SIGNALING OF PLANTS UPON LOCAL WOUNDING -- 4.1. Physical Signals, JA and ABA -- 4.2. JA and ABA -- 4.3. Other Chemical Signaling Compounds -- 4.3.1. Systemin -- 4.3.2. Hydrogen Peroxide -- 4.3.3. Ethylene -- 4.3.4. Cell Wall Components / Oligosaccharides -- 4.3.5. Volatile Compounds -- 5. CONCLUSION -- ACKNOWLEDGEMENTS -- REFERENCES -- ROOT WATER TRANSPORT UNDER ABIOTICSTRESS CONDITIONS -- ABSTRACT -- INTRODUCTION -- DROUGHT STRESS EFFECTS ON ROOT WATER UPTAKE -- SALT STRESS EFFECTS ON ROOT WATER UPTAKE -- COLD STRESS EFFECTS ON ROOT WATER UPTAKE -- FLOODING STRESS EFFECTS ON ROOT WATER UPTAKE -- ABSCISIC ACID AND OTHER SIGNALSEFFECTS ON ROOT WATER TRANSPORT -- CONCLUSION -- REFERENCES.
AMINO ACIDS IN THE RHIZOSPHERE: A REVIEW -- ABSTRACT -- INTRODUCTION -- MECHANISM OF AMINO ACID EXUDATION, NET AMINO ACIDEXUDATION (EFFLUX) -- LOCATION OF AMINO ACID EXUDATION AND RE-UPTAKE -- FACTORS INFLUENCING AMINO ACID EXUDATION -- EXUDATION VERSUS RE-UPTAKE OF AMINO ACIDS -- AMINO ACID EXUDATION FROM ROOTS OF C4 PLANTS -- AMINO ACID EXUDATION FROM ROOTS OF C3 PLANTS -- DIFFERENCES IN EXUDATION OF AMINOACIDS, C4 VERSUS C3 PLANTS -- CONCLUSION -- ACKNOWLEDGEMENTS -- PEER-REVIEWER -- REFERENCES -- HARNESSING THE BACTERIAL ENDOPHYTES FORCROP IMPROVEMENT -- ABSTRACT -- INTRODUCTION -- ENDOPHYTES -ITS ROLE IN PLANT -- PLANT GROWTH PROMOTINGRHIZOBACTERIA (PGPR) AS ENDOPHYTES -- COLONIZATION SITES -- NITROGEN FIXATION -- BIOLOGICAL CONTROL -- PHYSIOLOGICAL ROLE -- BIOTIZATION -- ENDOPHYTIC DIAZOTROPHS -- HOST RANGE -- RICE ENDOPHYTES -- THE DISAPPEARING PLANT SPECIES -- FUTURE THRUST -- REFERENCES -- ENDOREDUPLICATION IN CEREAL PLANTS -- ABSTRACT -- INTRODUCTION -- THE OCCURRENCE OF ENDOREDUPLICATION IN PLANTS -- A BASIC MOLECULAR MECHANISM UNDERLYING ENDOCYCLE -- METHODS FOR MEASURING THE DNA CONTENT -- ENDOREDUPLICATION IN CEREALS -- Caryopsis -- Root Cap -- ROLE OF ENDOREDUPLICATION -- ENDOREDUPLICATION AND CELL SIZE -- ENDOREDUPLICATION AND INCREASED METABOLIC ACTIVITY -- ENDOREDUPLICATION AND PROGRAMMED CELL DEATH -- CONCLUSION -- ACKNOWLEDGEMENTS -- REFERENCES -- AN OVERVIEW IN ANTIOXIDANT PROPERTIESOF STRAWBERRY -- ABSTRACT -- INTRODUCTION -- EXPERIMENT I: TOTAL ANTIOXIDANTS -- EXPERIMENT II: SPECIFIC ANTIOXIDANT -- RESULTS -- Total Antioxidant -- Specific Antioxidant -- Joliette (Resistant Cultivar) -- Kent (Susceptible Cultivar) -- DISCUSSION -- Total Antioxidants -- Specific Antioxidant -- CONCLUSION -- REFERENCES -- MARINE PHOTOSYNTHETIC RESPONSE TOINCREASED ATMOSPHERIC CO2 CONCENTRATIONAND OCEANIC ACIDIFICATION -- ABSTRACT.
1. INTRODUCTION -- 2. THE OCEAN AND CO2 -- 3. RESPONSES OF PHYTOPLANKTONIC SPECIES TO HIGH CO2 -- 4. PHYSIOLOGICAL PERFORMANCE OF MACROALGAEUNDER CO2-ENRICHED CONDITIONS -- 5. INTERACTION OF INCREASING ATMOSPHERIC CO2CONCENTRATION WITH OTHER ENVIRONMENTAL FACTORS -- ACKNOWLEDGMENTS -- REFERENCES -- FLUORESCENCE RESPONSE TO TEMPERATURESTRESS IN SALT MARSH TAXA OF GENUSSARCOCORNIA UNDER LABORATORY CONDITIONS -- ABSTRACT -- INTRODUCTION -- MATERIAL AND METHODS -- Plant Material Collection and Acclimatisation -- Initial Experiment of Temperature Stress -- Recovery Experiment -- Statistical Analysis -- RESULTS -- Initial Experiment of Temperature Stress -- Recovery Experiment -- DISCUSSION -- REFERENCES -- FROM GENOME TO PHENOME -- ABSTRACT -- INTRODUCTION -- THE "OMICS" WORLD -- "GENOTYPE TO PHENOTYPE" RELATIONSHIP: DATA INTEGRATIONIS THE SOLUTION -- CONCLUSION -- AKNOWLEDGEMENTS -- REFERENCES -- INDEX.
Tags from this library: No tags from this library for this title. Log in to add tags.
Star ratings
    Average rating: 0.0 (0 votes)
No physical items for this record

Intro -- NEW PLANT PHYSIOLOGY RESEARCH -- CONTENTS -- PREFACE -- WATER DEFICIT STRESS-INDUCED CHANGES INHIGHER PLANTS AND IMPLICATIONS FOR GLOBALARID REGIONS -- ABSTRACT -- 1. INTRODUCTION -- 2. EFFECTS OF WATER DEFICIT ONMORPHOLOGICAL PARAMETERS OF HIGHER PLANTS -- 2.1. Plant Root Length -- 2.2. Plant Stem Length -- 2.3. Plant Leaf Area -- 2.4. Plant Fresh and Dry Weight -- 2.5. Plant Yield Parameters -- 2.6. Plant Oil Content -- 3. EFFECTS OF WATER DEFICIT ON BIOCHEMICAL PARAMETERS OFHIGHER PLANTS -- 3.1. Plant Chlorophyll Content -- 3.2. Plant Carotenoid -- 3.3. Plant Xanthophyll -- 3.4. Plant Protein -- 3.5. Plant Soluble Sugars -- 4. EFFECTS OF WATER DEFICIT ON OSMOLITES ANDOSMOREGULATION OF HIGHER PLANTS -- 4.1. Proline -- 4.2. Free Amino Acids -- 4.3. Glycine Betaine -- 4.4. Proline Metabolizing Enzymes -- 4. 4.1. Proline Oxidase -- 4.4.2. γ-Glutamyl Kinase -- 5. EFFECTS OF WATER DEFICIT ON NON-ENZYMATICANTIOXIDANTS OG HIGHER PLANTS -- 5.1. α- Tocopherol -- 5.2. Ascorbic Acid -- 5.3. Reduced Glutathione -- 6. EFFECTS OF WATER DEFICIT ONANTIOXIDANT ENZYMES OF HIGHER PLANTS -- 6.1. Superoxide Dismutase (SOD) -- 6.2. Peroxidase (POX) -- 6.3. Ascorbate Peroxidase (APX) -- 6.4. Catalase (CAT) -- 7. CONCLUSIONS AND PERSPECTIVES -- ACKNOWLEDGEMENTS -- REFERENCES -- PHYSICAL AND CHEMICAL SIGNALS AND THEIRACTION IN SYSTEMIC RESPONSES OF PLANTS TOLOCAL WOUNDING -- ABSTRACT -- 1. INTRODUCTION -- 2. PHYSICAL SIGNALS -- 2.1. Hydraulic Signals -- 2.2. Electrical Signals -- 2.2.1. Action Potential -- 2.2.1.1. Generation of Action Potential -- 2.2.1.2. Propagation And Characteristics Of Plant Action Potential -- 2.2.2. Variation Potential -- 2.2.2.1. Generation and Propagation of Variation Potential -- 2.2.2.2. Main Characteristics of Variation Potential and its Comparison with ActionPotential in Plants -- 2.2.3. Methods of Electrical Signals Measurements.

2.2.3.1. Extracellular Electrical Potential Measurement -- 2.2.3.2. Intracellular Electrical Potential Measurement -- 2.2.3.3. Technical Aspects of Electrical Signals Measurements -- 2.3. Physiological Roles of Physical Signals in Systemic Wound Responses -- 2.3.1. Leaf Movement -- 2.3.2. Protein Synthesis and Gene Expression -- 2.3.3. Photosynthesis,stomata and chloroplast movement -- 2.3.4. Respiration -- 3. CHEMICAL SIGNALS -- 3.1. Abscisic Acid -- 3.1.1. ABA Biosynthetic Pathway and its Localization in Plant Organs and Cells -- 3.1.2. Physiological Roles of ABA in Systemic Wound Responses -- 3.1.2.1. Protein Synthesis and Gene Expression -- 3.1.2.2. Stomata Movement, Photosynthesis and Respiration -- Stomata Movement -- Photosynthesis and Respiration -- 3.2. Jasmonic Acid -- 3.2.1. Location of JA Biosynthesis in Plant Organs and Cells -- 3.2.2. Physiological Roles of JA in Systemic Wound Responses -- 3.2.2.1. Protein Synthesis and Gene Expression -- 3.2.2.2. Photosynthesis, Stomata Movement and Respiration -- Pigment Content -- Stomatal Effects -- Effect on Photosynthesis -- 4. INTERACTIONS BETWEEN PHYSICAL AND CHEMICAL SIGNALS INLONG-DISTANCE SIGNALING OF PLANTS UPON LOCAL WOUNDING -- 4.1. Physical Signals, JA and ABA -- 4.2. JA and ABA -- 4.3. Other Chemical Signaling Compounds -- 4.3.1. Systemin -- 4.3.2. Hydrogen Peroxide -- 4.3.3. Ethylene -- 4.3.4. Cell Wall Components / Oligosaccharides -- 4.3.5. Volatile Compounds -- 5. CONCLUSION -- ACKNOWLEDGEMENTS -- REFERENCES -- ROOT WATER TRANSPORT UNDER ABIOTICSTRESS CONDITIONS -- ABSTRACT -- INTRODUCTION -- DROUGHT STRESS EFFECTS ON ROOT WATER UPTAKE -- SALT STRESS EFFECTS ON ROOT WATER UPTAKE -- COLD STRESS EFFECTS ON ROOT WATER UPTAKE -- FLOODING STRESS EFFECTS ON ROOT WATER UPTAKE -- ABSCISIC ACID AND OTHER SIGNALSEFFECTS ON ROOT WATER TRANSPORT -- CONCLUSION -- REFERENCES.

AMINO ACIDS IN THE RHIZOSPHERE: A REVIEW -- ABSTRACT -- INTRODUCTION -- MECHANISM OF AMINO ACID EXUDATION, NET AMINO ACIDEXUDATION (EFFLUX) -- LOCATION OF AMINO ACID EXUDATION AND RE-UPTAKE -- FACTORS INFLUENCING AMINO ACID EXUDATION -- EXUDATION VERSUS RE-UPTAKE OF AMINO ACIDS -- AMINO ACID EXUDATION FROM ROOTS OF C4 PLANTS -- AMINO ACID EXUDATION FROM ROOTS OF C3 PLANTS -- DIFFERENCES IN EXUDATION OF AMINOACIDS, C4 VERSUS C3 PLANTS -- CONCLUSION -- ACKNOWLEDGEMENTS -- PEER-REVIEWER -- REFERENCES -- HARNESSING THE BACTERIAL ENDOPHYTES FORCROP IMPROVEMENT -- ABSTRACT -- INTRODUCTION -- ENDOPHYTES -ITS ROLE IN PLANT -- PLANT GROWTH PROMOTINGRHIZOBACTERIA (PGPR) AS ENDOPHYTES -- COLONIZATION SITES -- NITROGEN FIXATION -- BIOLOGICAL CONTROL -- PHYSIOLOGICAL ROLE -- BIOTIZATION -- ENDOPHYTIC DIAZOTROPHS -- HOST RANGE -- RICE ENDOPHYTES -- THE DISAPPEARING PLANT SPECIES -- FUTURE THRUST -- REFERENCES -- ENDOREDUPLICATION IN CEREAL PLANTS -- ABSTRACT -- INTRODUCTION -- THE OCCURRENCE OF ENDOREDUPLICATION IN PLANTS -- A BASIC MOLECULAR MECHANISM UNDERLYING ENDOCYCLE -- METHODS FOR MEASURING THE DNA CONTENT -- ENDOREDUPLICATION IN CEREALS -- Caryopsis -- Root Cap -- ROLE OF ENDOREDUPLICATION -- ENDOREDUPLICATION AND CELL SIZE -- ENDOREDUPLICATION AND INCREASED METABOLIC ACTIVITY -- ENDOREDUPLICATION AND PROGRAMMED CELL DEATH -- CONCLUSION -- ACKNOWLEDGEMENTS -- REFERENCES -- AN OVERVIEW IN ANTIOXIDANT PROPERTIESOF STRAWBERRY -- ABSTRACT -- INTRODUCTION -- EXPERIMENT I: TOTAL ANTIOXIDANTS -- EXPERIMENT II: SPECIFIC ANTIOXIDANT -- RESULTS -- Total Antioxidant -- Specific Antioxidant -- Joliette (Resistant Cultivar) -- Kent (Susceptible Cultivar) -- DISCUSSION -- Total Antioxidants -- Specific Antioxidant -- CONCLUSION -- REFERENCES -- MARINE PHOTOSYNTHETIC RESPONSE TOINCREASED ATMOSPHERIC CO2 CONCENTRATIONAND OCEANIC ACIDIFICATION -- ABSTRACT.

1. INTRODUCTION -- 2. THE OCEAN AND CO2 -- 3. RESPONSES OF PHYTOPLANKTONIC SPECIES TO HIGH CO2 -- 4. PHYSIOLOGICAL PERFORMANCE OF MACROALGAEUNDER CO2-ENRICHED CONDITIONS -- 5. INTERACTION OF INCREASING ATMOSPHERIC CO2CONCENTRATION WITH OTHER ENVIRONMENTAL FACTORS -- ACKNOWLEDGMENTS -- REFERENCES -- FLUORESCENCE RESPONSE TO TEMPERATURESTRESS IN SALT MARSH TAXA OF GENUSSARCOCORNIA UNDER LABORATORY CONDITIONS -- ABSTRACT -- INTRODUCTION -- MATERIAL AND METHODS -- Plant Material Collection and Acclimatisation -- Initial Experiment of Temperature Stress -- Recovery Experiment -- Statistical Analysis -- RESULTS -- Initial Experiment of Temperature Stress -- Recovery Experiment -- DISCUSSION -- REFERENCES -- FROM GENOME TO PHENOME -- ABSTRACT -- INTRODUCTION -- THE "OMICS" WORLD -- "GENOTYPE TO PHENOTYPE" RELATIONSHIP: DATA INTEGRATIONIS THE SOLUTION -- CONCLUSION -- AKNOWLEDGEMENTS -- REFERENCES -- INDEX.

Description based on publisher supplied metadata and other sources.

Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.

There are no comments on this title.

to post a comment.

© 2024 Resource Centre. All rights reserved.