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Plant metal interaction : emerging remediation rechniques /

Plant Metal Interaction: Emerging Remediation Techniques covers different heavy metals and their effect on soils and plants, along with the remediation techniques currently available. As cultivable land is declining day-by-day as a result of increased metals in our soil and water, there is an urgent...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Ahmad, Parvaiz (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam, Netherlands : Elsevier, [2016]
Temas:
Acceso en línea:Texto completo
Texto completo
Tabla de Contenidos:
  • <P>Section: 1. Heavy Metals: Effect and Responses in Plants</p> <p>1: Heavy metal stress and responses in plants</p> <p>2:Aluminum toxicity in plants</p> <p>3:Silicon and biotic stress in agricultural crop Plants: capabilities and limitations</p> <p>4:Chromium, Environment and Plants: A Dangerous Affair</p> <p>5:Copper stress and responses in plants</p> <p>6:Changes in crop productivity of bean plants (Vicia faba L.) in response to copper toxicity and salinity: an overview</p> <p>7: Behaviour of Copper in Soils. Toxicity, Sorption characteristics and Bioavaibility</p> <p>8:The effect of lead on plant and human DNA damages and its impact on human life</p> <p>9:Boron toxicity and its remediation from soil</p> <p>10:Brassicas and heavy metal stress: An overview</p> <p>11:Adaptation of higher plants to the heavy metal stress</p> <p>12:Detoxification of heavy metals and tolerance in plants</p><b> <p>Section: 2. Approaches to alleviate heavy metal stress</p></b> <p>13:Heavy Metal Stress and Molecular Approaches in Plants </p> <p>14:Effects of heavy metal stress on plants: insights from proteomics</p> <p>15:Role of phytohormones in alleviating heavy metals stress in crop plants</p> <p>16:Role of the gene Osmyb in the resistance to low temperatures as well as to Zn and Cu pollution</p> <p>17:Heavy metal stress signaling in plants</p><b> <p>Section: 3. Microbial Approaches to remove heavy metals</p></b> <p>18:Microbial strategy for the bioremediation of heavy metal contaminated soils</p> <p>19:Potential of Plants and Microbes for</p> <p>Metal Removal: A Green Clean Approach for remediation of Soil and waste water</p> <p>20:Land reformation using Plant growth promoting rhizobacteria with context to heavy metal contamination</p> <p>21: Heavy metal stress tolerance in plants through arbuscular mycorrhiza.</p><b> <p>Section: 4. Phytoremediation: A Green Clean Technology</p></b> <p>22:Duckweed: Hyperaccumulator of heavy metals</p> <p>23:Plants used in phytoremediation" or : "Hyperaccumulator plants</p> <p>24:Transgenic plants in phytoremediation: Recent advances and future possibilities</p> <p>25:Higher plants suitable for remediation
  • samples from Central Europe</p> <p>26:Weed plants and uptake of heavy metals: An overview</p> <p>27:Phytoremediation of saline soils for sustainable agricultural productivity</p> <p>28:Phytoextraction, the use of plants to remove heavy metals from soils</p> <p>29:Phytocheletion and metallothioneins: Role in plants</p> <p>30:Role of glutathione and phytochelation in heavy metal stress tolerance in plants</p> <p>31:Selenium: uptake, toxicity, tolerance in plants and phytoremediation</p> <p>32:Plant metallothioneins: An approach toward heavy metal detoxification</p> <p>33:Mercury and its bioremediation</p> <p>34: Cadmium stress in plants: mode of action.