Soil salinity is a limiting factor in crop productivity. Inoculating crops with microorganisms
adapted to salt stress is an alternative to increasing plant salinity tolerance. Few studies …

Increasing salinization threatens the normal growth of halophytes in saline habitats,
especially at the seedling stage. Soil beneficial microorganisms have the potential to …

Soil salinization is one of the main factors influencing the reduction of crop yield all over the
world. Solutions for saline agriculture based on biological systems involving plants or …

The growth and yield of plants, including halophytes, are widely affected by salinity. It is
known that the rhizosphere and endorhiza of the plants growing in saline environments …

Understanding plant microbes' intimate relationship and search for beneficial microbes is a
sustainable alternative to improve plant growth and yield under a wide range of biotic and …

Bacterial endophytes (120) were isolated from six halophytes (Distichlis spicata, Cynodon
dactylon, Eragrostis obtusiflora, Suaeda torreyana, Kochia scoparia, and Baccharis …

Halophytic endophytes potentially contribute to the host's adaptation to adverse
environments, improving its tolerance against various biotic and abiotic stresses. Here, we …

There is an increasing interest to use halophytes for revegetation of salt affected
ecosystems, as well as in understanding their mechanisms of salt tolerance. We …

Soil salinization and drought are major and growing ecological problems. They limit the
productivity of crop plants cultivated on more than 20% of total agricultural lands worldwide …

Although salt has detrimental effects on spore germination of arbuscular mycorrhizal fungi
(AMF), their hyphal growth and the colonization rate of plants under laboratory conditions …