Plant growth regulators for climate-smart agriculture / edited by Shah Fahad, Osman S©œnmez, Shah Saud, Depeng Wang, Chao Wu, Muhammad Adnan, Veysel Turan.
| Format | Electronic |
| Edition | First edition. |
| Publication Info | Boca Raton, FL : CRC Press, 2021. |
| Description | pages cm |
| Supplemental Content | Full text available from Taylor & Francis eBooks |
| Subjects |
| Other author/creator | Fahad, Shah (Assistant professor of agriculture) |
| Other author/creator | S©Å“nmez, Osman. |
| Other author/creator | Saud, Shah. |
| Other author/creator | Wang, Depeng (Professor in agriculture) |
| Other author/creator | Wu, Chao (Associate research fellow in agriculture) |
| Other author/creator | Adnan, Muhammad (Lecturer in agriculture) |
| Other author/creator | Turan, Veysel. |
| Series | Footprints of climate variability on plant diversity Footprints of climate variability on plant diversity. UNAUTHORIZED |
| Contents | Role of Gibberellins in Response to Stress Adaptation in Plants -- Abscisic Acid and Abiotic Stress Tolerance in Crops -- Plant growth regulators role in developing cereal crops resilient to climate change -- Jasmonates: Debatable role in temperature stress tolerance -- The role of gibberellin against abiotic stress tolerance in plants -- Role of Phytohormones In Drought Stress -- Cross-talk Between Phytohormone Signaling Pathways Under Abiotic Stress Conditions -- Salicylic acid: Its role in temperature stress tolerance -- Ethylene: A Key Regulatory Molecule in Plants Appraisal of Abiotic Stress Tolerance -- The role of phytohormones for heat stress tolerance in plants -- Plant resilience to abiotic stress mitigated through phytohormones production and their transcriptional control -- The role of phytohormones in combating biotic stress |
| Abstract | "Climatic conditions are key determinants of plant growth, whether at the scale of temperature regulation of the cell cycle, or at the scale of the geographic limits for a particular species. The climate is changing, due to human activities - particularly the emission of greenhouse gases - and therefore the conditions for the establishment, growth, reproduction, survival and distribution of plant species are changing. In contrast to animals, plants can continuously cease and resume growth. This flexibility in their architecture and growth patterns is partly achieved by the action of plant hormones. Still, the role of PGRs in agriculture is modest compared to other agrochemicals, such as fungicides, herbicides, and insecticides. Plant Growth Regulators in agriculture is an invaluable guide to the varied roles filled by PGRs in the attainment of higher-quality, better-yielding crops. Salient Features: Explores the plant growth regulator and anthropogenic climate change. Provides new insights related to hormonal cross-talk in plant development and stress responses. Shed new light on the role of PGRs in agriculture in the attainment of higher-quality, better-yielding crops. Delivers a valuable information on physiological and molecular mechanisms linked to the role of plant growth regulator in stress tolerance. Provides valuable knowledge for the all students of agronomy, plant physiology, molecular biology and environmental sciences"-- Provided by publisher. |
| Bibliography note | Includes bibliographical references and index. |
| Access restriction | Available only to authorized users. |
| Technical details | Mode of access: World Wide Web |
| Genre/form | Electronic books. |
| LCCN | 2021005843 |
| ISBN | 9780367623432 (hardback) |
| ISBN | 9780367623456 (paperback) |
| ISBN | (ebook) |
Availability
| Library | Location | Call Number | Status | Item Actions |
|---|---|---|---|---|
| Electronic Resources | Access Content Online | ✔ Available |