Page 298 - Plant-Based Remediation Processes
P. 298
Index 293
heterologous metal-binding proteins, Linum germplasm resources, 218
256–257 multiple shoot culture, 216
metal uptake and translocation PCs, 217
N. tabacum, 250, 251 published data results, 218
polyphosphate kinase, 252 tissue culture, 215
Rhodopseudomonas palustris, 251 toxicity, 215
phytoextraction, 249 lead (see Lead (Pb)-contaminated
phytovolatilization, mercury, 257–259 environment, tropical plants)
plant symbionts, 258, 260 organ distribution, 219–222
Geranium robertianum (Geraniaceae), 94 polluted soils (see Metal-polluted soils)
Growth stimulation recycling, 193–194
determination, soil density, 87 removal, 19–20, 61
factors affects aggregation, 87–88 on site studies, 225–227
micro-and mesofauna, 89 soil contamination, 227
micro-and mesoflora, 89 threat, 59
mineral and organic xenobiotics, 89 toxicants, 59
optimal soil density, crop plants, 87 Hemp
quantitative and qualitative composition, botanical characterisation and economical
solid phase, 88 uses, 203–204
sand, silt, and clay, soil textural classes, heavy metal phytoextraction (see Heavy
85–86 metals (HMs))
soil heavy metals uptake and accumulation,
compaction, 86 209–213
parameters, 85 polluted agricultural soils, 230–231
properties, 88 Heterologous metal-binding proteins,
256–257
Hyperaccumulation
H accumulators, 40
Hairy root culture and plant adaption, metalloids
and bioreactors, 109–110 phytoremediation
phytoremediation, 104–105 small ligands, 48–49
root forms, 104 toxic metal, 47–48
tolerance mechanisms, heavy metal transcriptomics, 52
cadmium (Cd), 106–107 uptake, translocation and partitioning,
extraction, 105 49–51
nickel (Ni), 107–108 Hyperaccumulator
uranium, 108 antioxidant, lead, 69–70
zinc and copper, 109 phytoremediation
Hazardous plant, biomass, 23 Alyssum bertolonii (Brassicaceae), 93
Heavy metals (HMs) Alyssum serpyllifolium
absorption, 227, 228 (Brassicaceae), 93
agrotechnological treatments, 222–225 Berkheya coddii (Asteraceae), 93
anthropogenic pollution Fagopyrum esculentum
(see Anthropogenic pollution, (Polygonaceae), 92
heavy metals) Noaea mucronata
bioaccumulation (see Bioaccumulation, (Chenopodiaceae), 93
heavy metals) Phytolacca acinosa
environment, 183–184 (Phytolaccaceae), 92
flax and hemp, phytoextraction Pteris vittata (Pteridaceae), 92
Cd concentration, 214, 215 Reynoutria sachalinensis
Cd tolerance, 216 (Polygonaceae), 92
ferritin and glutamine synthetase, 217 Thlaspi caerulescens (Brassicaceae),
genetic/phenotype, 209 91–92
