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Cadmium Tolerance in Plants: Agronomic, Molecular, Signaling, and Omic Approaches [Minkštas viršelis]

Edited by (Professor, Department of Agricultural Botany, Sher-e-Bangla Agricultural University, Dhaka, Bangladesh), Edited by (Professor, Department of Agronomy, Faculty of Agriculture, Sher-e-Bangla Agricultural University, Dhaka, Bangladesh)
  • Formatas: Paperback / softback, 630 pages, aukštis x plotis: 229x152 mm, weight: 970 g
  • Išleidimo metai: 18-Apr-2019
  • Leidėjas: Academic Press Inc
  • ISBN-10: 0128157941
  • ISBN-13: 9780128157947
Kitos knygos pagal šią temą:
Cadmium Tolerance in Plants: Agronomic, Molecular, Signaling, and Omic ApproachesDidesnis paveikslėlis
  • Formatas: Paperback / softback, 630 pages, aukštis x plotis: 229x152 mm, weight: 970 g
  • Išleidimo metai: 18-Apr-2019
  • Leidėjas: Academic Press Inc
  • ISBN-10: 0128157941
  • ISBN-13: 9780128157947
Kitos knygos pagal šią temą:
Pastovi nuoroda: https://www.kriso.lt/db/9780128157947.html
Raktažodžiai:
Cadmium Toxicity and Tolerance in Plants: Agronomic, Genetic, Molecular and Omic Approaches presents research and latest developments on mechanisms of cadmium tolerance covering both lab and field conditions. This book contains important insights and options for minimizing Cd accumulation in plants and mitigating Cd toxicity. Topics covered include using various omics approaches to understanding plant responses to Cd, novel technologies for developing Cd tolerance and integrated breeding approaches to mitigate Cd stress in crops. Cadmium Toxicity and Tolerance in Plants: Agronomic, Genetic, Molecular and Omic Approaches is a valuable resource for both researchers and students working on cadmium pollution and plant responses as well as related fields of environmental contamination and toxicology.
  • Provides data on mechanisms of cadmium tolerance at the cell, organ and whole plant level
  • Covers several major approaches, molecular and agronomic, in addressing cadmium toxicity in plants and soil
  • Offers real-world, application focused techniques
List of Contributors
xiii
About the Editors xix
Preface xxiii
1 Crop Yield and Quality Under Cadmium Stress
1(18)
L.L. Hou
T. Tong
B. Tian
D.W. Xue
1 Effect of Cadmium Stress on Crop Yield
2(5)
2 Effect of Cd Stress on Crop Quality
7(4)
3 Perspective
11(8)
Acknowledgments
13(1)
References
13(5)
Further Reading
18(1)
2 Organic Manures for Cadmium Tolerance and Remediation
19(50)
Muhammad Irfan Sohail
M. Arif
A. Rauf
Muhammad Rizwan
Shafaqat Ali
M. Saqib
Muhammad Zia-ur-Rehman
1 Introduction
19(2)
2 Sources of Cd Contamination in Agricultural Soil
21(4)
3 Cd Dynamics in Soil and Its Plant Availability
25(1)
4 Cd Toxicity to Plants and Humans
26(2)
5 Why Manures Are Preferred as Best Remediating Agents
28(1)
6 Biochemistry of Organic Manures and Their Dynamics in Soil
29(2)
7 Manures; Their Types and Effect on Cd Mobility in Soil
31(14)
8 Effect of OM on Uptake, Translocation and Accumulation of Cd in Plants
45(2)
9 The Possible Risk Associated With Soil Application of Raw OM
47(3)
10 Summary
50(2)
11 Future Strategies
52(17)
References
52(14)
Further Reading
66(3)
3 Agronomic Management for Cadmium Stress Mitigation
69(44)
Meng Wang
Shibao Chen
Duo Wang
Li Chen
1 Soil Amendments Application
70(12)
2 Fertilizers and Manure Management
82(8)
3 Irrigation Management
90(3)
4 Tillage Management
93(3)
5 Plant Breeding and Plant Species Selection
96(4)
6 Conclusions
100(13)
References
100(12)
Further Reading
112(1)
4 Inorganic Amendments for the Remediation of Cadmium-Contaminated Soils
113(30)
Muhammad Zia-ur-Rehman
Hinnan Khalid
Muhammad Rizwan
Shafaqat Ali
Muhammad Irfan Sohail
Muhammad Usman
Muhammad Umair
1 Introduction
113(2)
2 Cadmium Accumulation and Toxicity in the Environment
115(2)
3 Remediation of Cd-Contaminated Soil Using Inorganic Amendments
117(1)
4 Inorganic Amendments and Remediation of Cd-Contaminated Soils
118(7)
5 Phytoremediation Using IOA's
125(3)
6 Controversies About Using IOAs for Remediation of Cd-Contaminated Soils
128(1)
7 Future Perspectives
129(1)
8 Summary
129(14)
References
130(11)
Further Reading
141(2)
5 Proteomics of Cadmium Tolerance in Plants
143(34)
Javed Ahmad
Mohd. Affan Baig
Amna
Arlene Asthana Ali
M. Irfan Qureshi
1 Introduction
143(1)
2 Omics and Proteomics
144(7)
3 Proteins Related to Photosynthesis
151(2)
4 Energy and Metabolism
153(3)
5 Defense Proteome
156(6)
6 Proteins Associated With Transcription and Translation
162(2)
7 Protein Related to Transport and Degradation
164(1)
8 Proteins Related to Oxidoreductase Group
165(2)
9 Proteins Related to Growth and Development
167(1)
10 Concluding Remark
168(9)
References
169(6)
Further Reading
175(2)
6 Cadmium Phytotoxicity---Biomarkers
177(16)
Marta Jaskulak
Anna Grobelak
1 Phytotoxicity of Cadmium
177(1)
2 Plant Response to Cadmium Exposure
178(2)
3 Toxicity Biomarkers
180(1)
4 Biomarkers Specific for Metal Stress
181(2)
5 Metal Stress-Nonspecific Biomarkers
183(5)
6 Conclusions
188(5)
Acknowledgments
188(1)
References
188(5)
7 Cadmium-Induced Toxicity in Sorghum bicolor---Alleviation by Zinc and Aggravation by Phosphate
193(30)
Saritha V. Kuriakose
Majeti Narasimha Vara Prasad
1 Introduction
193(7)
2 Interaction Effects Among Cd, Zn, and P on Sorghum Growth
200(13)
3 Outlook
213(10)
References
213(10)
8 Cadmium Toxicity in Plants: Unveiling the Physicochemical and Molecular Aspects
223(24)
Rajarshi Ghosh
Sujit Roy
1 Introduction
223(2)
2 Sources of Heavy Metals and Environmental Chemical Toxicity
225(1)
3 Cadmium: Historical Perspectives and Chemical Properties
226(1)
4 Uptake, Transport, Translocation, and Sequestration of Cadmium in Plants
227(1)
5 Plant Responses to Cadmium Stress
228(2)
6 Plant Health Under Cadmium Stress
230(1)
7 Cadmium Stress Stimulates and Integrates Various Signaling Pathways in Plants
231(2)
8 Protection Against Cadmium Stress---the Chelation Mechanism
233(1)
9 Molecular Aspects of Cadmium-Mediated Toxicity---Activation of Oxidative and Genotoxic Stress Response in the Plant Genome
234(2)
10 Stress Adaptation Strategy---Transcriptional and Epigenetic Regulation in Plants Under Cadmium Stress
236(2)
11 Perspective and Conclusions
238(9)
Acknowledgments
239(1)
References
239(7)
Further Reading
246(1)
9 Cadmium Accumulation in Crops and the Increasing Risk of Dietary Cadmium Exposure: An Overview
247(8)
Sujit Roy
1 Introduction
247(2)
2 Cadmium Stress and Cytotoxicity
249(1)
3 Cadmium-Mediated Genotoxicity in Plants
250(1)
4 Development of Heavy-Metal Stress Tolerance in Crop Plants
251(1)
5 Perspective
251(4)
Acknowledgement
252(1)
References
252(2)
Further Reading
254(1)
10 Role of Organic Acids in Mitigating Cadmium Toxicity in Plants
255(26)
Gagan Preet Singh Sidhu
Aditi Shreeya Bali
Renu Bhardwaj
Abbreviations
255(1)
1 Introduction
255(3)
2 Effects of Organic Acids on Cd Solubilisation and Mobilisation
258(1)
3 Organic Acids Regulate Cd Uptake by Plants
259(2)
4 Organic Acids Regulate Cd Translocation to Aerial Plant Tissue
261(4)
5 Organic Acids Alleviate Cd Stress and Induce Tolerance in Plants
265(6)
6 Environmental Implications of Organic Acid-Enhanced Cd Phytoremediation
271(1)
7 Conclusions and Future Perspectives of Organic Acid-Coupled Cd Phytoremediation
272(9)
References
273(8)
11 Role of Low Molecular Weight Compounds in Cadmium Stress Tolerance
281(38)
J. Kovacik
1 Ascorbic Acid
281(8)
2 Glutathione and Phytochelatins
289(13)
3 Organic Acids
302(10)
4 Other Low Molecular Weight Compounds
312(1)
5 Concluding Remarks
313(6)
References
313(6)
12 Plant Nutrients and Cadmium Stress Tolerance
319(16)
Arosha Maqbool
Muhammad Rizwan
Shafaqat All
Muhammad Zia-ur-Rehman
1 Introduction
319(1)
2 Cadmium in the Environment
320(1)
3 Nitrogen in the Environment
321(1)
4 Cadmium Toxicity in Plants
321(1)
5 Protective Role of Nitrogen
321(1)
6 Protective Role of Selenium
322(2)
7 Protective Role of Calcium
324(1)
8 Protective Role of Sulfur
325(1)
9 Protective Role of Silicon
325(1)
10 Protective Role of Potassium
326(1)
11 Protective Role of Phosphorous
327(1)
12 Conclusions and Future Perspectives
328(7)
References
328(5)
Further Reading
333(2)
13 Role of Sulfur Metabolism in Cadmium Tolerance
335(32)
Mohd. Affan Baig
Javed Ahmad
Arlene Asthana Ali
Amna
M. Irfan Qureshi
1 Introduction
335(1)
2 Heavy Metal Stress in Plants
336(3)
3 Cadmium Stress in Plants
339(2)
4 Sulfur Metabolism and Cadmium Tolerance
341(3)
5 Glutathione and Phytochelatin-Assisted Cadmium Detoxification
344(4)
6 Multiomics Approaches and Their Utility in Understanding Cadmium Tolerance
348(1)
7 Proteomics of Cadmium Stress
348(4)
8 Genomics of Cadmium Stress
352(1)
9 Metabolomics of Cadmium Stress
353(3)
10 Multiomics Data Integration and Analysis
356(11)
References
357(8)
Further Reading
365(2)
14 Plant Signaling Molecules and Cadmium Stress Tolerance
367(34)
Rabia Amir
Faiza Munir
Ghulam Kubra Jooba Iqbal
Maryam Khan
1 Introduction: Cadmium Toxicity in Crop Plants
367(1)
2 Regulatory Network of Cadmium Stress in Plants
368(1)
3 Cadmium-induced Signal Transduction
369(3)
4 Cadmium-Responsive Transcription Factors
372(2)
5 Reactive Oxygen Species and Nitric Oxide-Mediated Plant Response to Cadmium Stress
374(1)
6 Antioxidant System Responses to Cadmium-Induced Stress
374(2)
7 Nitric Oxide as a Signaling Molecule in Plants
376(3)
8 Hormonal Modulation of Cadmium Stress
379(3)
9 Cross Talk Between Nitric Oxide and Phytohormones That Regulate Plant Development During Cadmium Stress
382(2)
10 Glutathione Biosynthesis and Cadmium Stress Tolerance
384(1)
11 Sulfur and Cadmium Stress Tolerance
385(2)
12 Phytochelatins and Cadmium Detoxification
387(1)
13 Conclusion and Future Prospects
388(13)
References
389(12)
15 Mitigation of Cadmium Stress in Cereals: Molecular Signaling and Agronomic Aspects
401(22)
Abin Sebastian
Majeti Narasimha Vara Prasad
1 Introduction
401(3)
2 Cadmium Uptake, Transport, and Storage in Cereals
404(3)
3 Cadmium Signaling in Cereals
407(4)
4 Metabolic Engineering for Cadmium Tolerance
411(3)
5 Agronomic Practices for Cadmium Minimization
414(3)
6 Outlook
417(6)
References
417(6)
16 Antioxidant Defense Response in Plants to Cadmium Stress
423(40)
Deyvid Novaes Marques
Marcia Eugenia Amaral Carvalho Fernando Angelo Piotto
Katherine Derlene Batagin-Piotto Marina Lima Nogueira
Salete Aparecida Gaziola
Ricardo Antunes Azevedo
1 Introduction
423(1)
2 Regulation of the Plant Antioxidant Response to Cadmium Stress
424(9)
3 Antioxidant Molecules Related to Cadmium, Stress Response
433(14)
4 Conclusions
447(16)
Acknowledgments
447(1)
References
447(14)
Further Reading
461(2)
17 Alleviation of Cadmium Stress in Wheat by Polyamines
463(34)
Mostafa M. Rady
Safia M.A. Ahmed
Mohamed A. Seif El-Yazal
Hanan A.A. Taie
1 Introduction
463(4)
2 Materials and Methods
467(5)
3 Results and Discussions
472(18)
4 Conclusions
490(7)
References
491(5)
Further Reading
496(1)
18 Biotechnological Tools in the Remediation of Cadmium Toxicity
497(24)
Tahira Yasmeen
Airong Li
Shahid Iqbal
Muhammad Saleem Arif
Muhammad Riaz
Sher Muhammad Shahzad
Shafaqat Ali
1 Introduction
497(2)
2 Role of Bacteria as a Biotechnological Tool
499(4)
3 Role of Mycorrhizal Fungi as a Biotechnological Tool
503(4)
4 Plants as Potential Tools for Remediation of Cadmium Toxicity
507(5)
5 Conclusion and Future Perspectives
512(9)
References
513(8)
19 Novel Technologies for Developing Cadmium Tolerance
521(12)
Rita de Cassia Alves
Leticia Rodrigues Alves
Mirela Vantini Checchio
Mayara Cristina Malvas Nicolau
Emilaine da Rocha Prado
Priscila Lupino Gratao
1 Introduction
521(1)
2 Novel Technologies: Genetic Engineering for Developing Cadmium Tolerance
522(6)
3 Conclusions and Future Perspectives
528(5)
References
529(4)
20 Achievements and Opportunities for Improving Cadmium Stress Tolerance in Crop Plants
533(20)
Uday Chand Jha
Abhishek Bohra
Rintu Jha
1 Introduction
533(1)
2 Cadmium Stress and Its Impact on Crop Growth
534(1)
3 Harnessing Genetic Variation for Improving Cadmium Tolerance of Plants
534(1)
4 "Omics" Approaches to Support Analysis of Plant Cadmium Tolerance bib
535(1)
5 Biparental QTL Analysis for Trait Enhancement
535(2)
6 Genome-Wide Association Studies of Plant Response to Cadmium Stress
537(1)
7 Fine Mapping and Cloning of Cadmium-Tolerant Genes/QTL
537(1)
8 Transcriptome Dynamics for Uncovering Cadmium Tolerance Candidate Genes
538(3)
9 Proteome Analysis and Cadmium Tolerance of Plants
541(1)
10 Advances in Plant Metabolomics and Cadmium Tolerance
542(1)
11 Genome-Editing Technology for Manipulating Cadmium Tolerance in Plants
543(1)
12 Integration of Various "Omics" Sciences and Breeding Approaches for Cadmium Tolerance
543(1)
13 Conclusions and Future Perspectives
544(9)
Acknowledgments
545(1)
References
545(8)
21 Contribution of Arbuscular Mycorrhizal Fungi in Promoting Cadmium Tolerance in Plants
553(34)
Laize Aparecida Ferreira Vilela
Marisangela Viana Barbosa
1 Introduction
553(1)
2 Arbuscular Mycorrhiza Symbiosis
554(1)
3 Cadmium Contamination in Soil and Effect in Plants
555(5)
4 Arbuscular Mycorrhizal Fungi Tolerance and Diversity in Cadmium-Contaminated Areas
560(12)
5 The Role of Arbuscular Mycorrhizal Fungi in Phytoremediation of Cadmium
572(3)
6 Oscular Mycorrhizal Fungi Remediation in Cadmium-Contaminated Areas
575(2)
7 Inclusion and Future Perspectives
577(10)
References
577(10)
Index 587
Dr. Mirza Hasanuzzaman is Professor of Agronomy at Sher-e-Bangla Agricultural University in Dhaka. He is a specialist in agronomy, plant stress responses, and crop physiology. His current work is focused on the physiological and molecular mechanisms of environmental stress tolerance (salinity, drought, flood, and heavy metals/metalloids). Dr. Hasanuzzaman has published over 60 articles in peer-reviewed journals. He has edited six books and written 30 book chapters on important aspects of plant physiology, plant stress tolerance, and crop production. Dr. Kamrun Nahar, Department of Agricultural Botany, Faculty of Agriculture, Sher-e-Bangla Agricultural University, Dhaka, Bangladesh She is well expert in the field of Plant Physiology, Ecology, Molecular Biology and Abiotic Stress Tolerance. Published 1o book chapters and more than 30 research articles.