Heavy Metals Stress Resilience in Plants

Phytohormones and Nanomaterials Interactions
Herausgeber: Seth, Chandra Shekhar; Meena, Mukesh; Verma, Krishan; Sahi, Shivendra

• Broschiertes Buch

Produktbeschreibung

Heavy Metals Stress Resilience in Plants: Phytohormones and Nanomaterials provides comprehensive coverage of recent advancements about heavy metals (HMs) transport and stress, phytoremediation mechanisms, and how phytohormones and nanomaterials effectively mitigate the HMs stress in plants. It addresses the consequences of HM to plants, and presents the various approaches to mitigating those consequences. As the environment is increasingly impacted by human input, both intentionally and unintentionally, plant life of all kinds faces increasing challenges to achieving optimal health and production. This book highlights the responsive changes that have increased the genetic diversity of plants and how those changes affect HMs transport in plants. Other key features of the book are coverage of metal toxicity and detoxification mechanism, biochemical tools toward HMs remediation processes, molecular mechanism for HMs detoxification, and role of ROS metabolism in alleviation of HMs. Edited and authored by leading experts from around the world, the book covers the core aspects of plant physio-biochemical and molecular responses into heavy metals stress. Phytohormones and nanomaterials as well as innovative strategies for augmenting plant growth, development and productivity/quality through intrinsic and extrinsic manipulations are included.

Produktdetails

• Verlag: Elsevier Science
• Seitenzahl: 350
• Erscheinungstermin: 1. Januar 2027
• Englisch
• Gewicht: 450g
• ISBN-13: 9780443302299
• ISBN-10: 0443302294
• Artikelnr.: 74787494

Inhaltsangabe

Section A: Mechanisms for remediation, toxicity, tolerance, and
detoxification of heavy metals in plant
1. Navigating the uptake and transportation of heavy metals in plants
2. Accumulators, hyperaccumulators, and applications of natural and
synthetic chelating agents for heavy metals phytoremediation
3. The vaults of resilience: sequestration and accumulation of heavy metals
in plants
4. Heavy metals: sources of contamination, mechanisms of toxicity and
genotoxic consequences in plants
5. Role of glutathione and phytochelatins under heavy metals stress and
detoxification mechanisms in plants
6. Heavy metals stress and their orchestration of plant physiology
7. Role of mycorrhiza for improving the heavy metals tolerance strategy in
plants
8. Recent advancement in heavy metals phytoremediation technology
9. Pathways to resilience: signaling cascade in response to heavy metals
stress in plants
Section B: Phytohormones signaling and mechanisms to mitigate the heavy
metals stress in plants
10. Seed priming with phytohormones: an effective approach for mitigation
of heavy metals stress
11. Role of phytohormones in enhancing heavy metals stress tolerance in
plants
12. Phytohormone signaling in response to heavy metals stress
13. Brassinosteroids, the sixth class of phytohormones: from discovery to
hormonal interactions in plant development and stress adaption under heavy
metals stress
14. Molecular mechanism of salicylic acid-induced heavy metals stress
tolerance in plants
15. Jasmonates in plants under heavy metals stress: crosstalk with other
phytohormones matters
16. Phytohormones and their metabolic engineering for heavy metals stress
tolerance in plants
Section C: Nanotechnology approach in mitigating risk of heavy metals
stress
17. Nanoparticles: green and chemical synthesis, properties, applications,
and mitigation of heavy metals stress in plants
18. Role of various metallic nanoparticles for effective phytoremediation
of heavy metals
19. Role of Si nanoparticles in mitigation of various heavy metals stress
in plants
20. Role of Ca nanoparticles in mitigation of various heavy metals stress
in plants
21. Role of TiO2 nanoparticles in mitigation of various heavy metals stress
in plants
22. Role of Ce nanoparticles in mitigation of various heavy metals stress
in plants
23. Role of Ag nanoparticles in mitigation of various heavy metals stress
in plants
24. Signaling mechanism(s) of various metallic nanoparticles in plants
under heavy metals stress
25. Mode of action of nanoparticles under heavy metals stress: uptake and
translocation mechanisms of various metallic NPs in plants
26. Nanoparticles: An emerging soil crops savior under heavy metals stress