Effect of Salinity and Waterlogging on Growth and Survival of Salicornia europaea L., and Inland Halophyte

Author Institution: Department of Environmental and Plant Biology, Ohio UniversitySalicornia europaea seedlings were exposed to various salinity and water depths for 11 weeks under controlled, growth chamber conditions. Weekly measurements were made of height, number of nodes, and number of branches per plant. Growth and survival of plants grown with the addition of NaCl were significantly greater (P 0.05) growth differences among plants under different water level conditions within the salt treatment group, plants which were grown without NaCl demonstrated significant decreases in growth in higher water levels, with the greatest growth occurring in the low water treatment group. All plants given a salt treatment survived until the end of the experiment. However, high mortality occurred among the plants that were not salt-treated, with all plants grown under waterlogged conditions dying by week six. The high mortality exhibited by this treatment group indicates that Salicornia, which is typically found in low marsh or inland salt marsh situations, was unable to overcome the combined stress of being continuously waterlogged in a freshwater environment

Cross-tolerance to abiotic stresses in halophytes: Application for phytoremediation of organic pollutants

International audienceHalopytes are plants able to tolerate high salt concentrations but no clear definition was retained for them. In literature, there are more studies that showed salt-enhanced tolerance to other abiotic stresses compared to investigations that found enhanced salt tolerance by other abiotic stresses in halophytes. The phenomenon by which a plant resistance to a stress induces resistance to another is referred to as cross-tolerance. In this work, we reviewed cross-tolerance in halophytes at the physiological, biochemical, and molecular levels. A special attention was accorded to the cross-tolerance between salinity and organic pollutants that could allow halophytes a higher potential of xenobiotic phytoremediation in comparison with glycophytes