TY - BOOK ID - 33724 TI - Salinity Tolerance in Plants AU - Antonio Hernández Cortés, Jose PY - 2019 SN - 9783039210268 9783039210275 DB - DOAB KW - Arabidopsis KW - Brassica napus KW - ion homeostasis KW - melatonin KW - NaCl stress KW - nitric oxide KW - redox homeostasis KW - Chlamydomonas reinhardtii KW - bZIP transcription factors KW - salt stress KW - transcriptional regulation KW - photosynthesis KW - lipid accumulation KW - Apocyni Veneti Folium KW - salt stress KW - multiple bioactive constituents KW - physiological changes KW - multivariate statistical analysis KW - banana (Musa acuminata L.) KW - ROP KW - genome-wide identification KW - abiotic stress KW - salt stress KW - MaROP5g KW - rice KW - genome-wide association study KW - salt stress KW - germination KW - natural variation KW - Chlamydomonas reinhardtii KW - salt stress KW - transcriptome analysis KW - impairment of photosynthesis KW - underpinnings of salt stress responses KW - chlorophyll fluorescence KW - J8-1 plum line KW - mandelonitrile KW - Prunus domestica KW - redox signalling KW - salicylic acid KW - salt-stress KW - soluble nutrients KW - Arabidopsis thaliana KW - VOZ KW - transcription factor KW - salt stress KW - transcriptional activator KW - chlorophyll fluorescence KW - lipid peroxidation KW - Na+ KW - photosynthesis KW - photosystem KW - RNA binding protein KW - nucleolin KW - salt stress KW - photosynthesis KW - light saturation point KW - booting stage KW - transcriptome KW - grapevine KW - salt stress KW - ROS detoxification KW - phytohormone KW - transcription factors KW - Arabidopsis KW - CDPK KW - ion homeostasis KW - NMT KW - ROS KW - salt stress KW - antioxidant enzymes KW - Arabidopsis thaliana KW - ascorbate cycle KW - hydrogen peroxide KW - reactive oxygen species KW - salinity KW - SnRK2 KW - RNA-seq KW - DEUs KW - flax KW - NaCl stress KW - EST-SSR KW - Salt stress KW - Oryza sativa KW - proteomics KW - iTRAQ quantification KW - cell membrane injury KW - root activity KW - antioxidant systems KW - ion homeostasis KW - melatonin KW - salt stress KW - signal pathway KW - SsMAX2 KW - Sapium sebiferum KW - drought, osmotic stress KW - salt stress KW - redox homeostasis KW - strigolactones KW - ABA KW - TGase KW - photosynthesis KW - salt stress KW - polyamines KW - cucumber KW - abiotic stresses KW - high salinity KW - HKT1 KW - halophytes KW - glycophytes KW - poplars (Populus) KW - salt tolerance KW - molecular mechanisms KW - SOS KW - ROS KW - Capsicum annuum L. KW - CaDHN5 KW - salt stress KW - osmotic stress KW - dehydrin KW - Gossypium arboretum KW - salt tolerance KW - single nucleotide polymorphisms KW - association mapping. KW - n/a UR - https://www.doabooks.org/doab?func=search&query=rid:33724 AB - Salt stress is one of the most damaging abiotic stresses because most crop plants are susceptible to salinity to different degrees. According to the FAO, about 800 million Has of land are affected by salinity worldwide. Unfortunately, this situation will worsen in the context of climate change, where there will be an overall increase in temperature and a decrease in average annual rainfall worldwide. This Special Issue presents different research works and reviews on the response of plants to salinity, focused from different points of view: physiological, biochemical, and molecular levels. Although an important part of the studies on the response to salinity have been carried out with Arabidopsis plants, the use of other species with agronomic interest is also notable, including woody plants. Most of the conducted studies in this Special Issue were focused on the identification and characterization of candidate genes for salt tolerance in higher plants. This identification would provide valuable information about the molecular and genetic mechanisms involved in the salt tolerance response, and it also supplies important resources to breeding programs for salt tolerance in plants. ER -