As one of the most severe environmental stresses, salt stress can cause a series of changes
in plants. In salt tolerant plant Zoysia macrostachya, germination, physiology, and genetic …

Key message Multiple regulatory pathways of T. chinensis to salt stress were identified
through transcriptome data analysis. Abstract Tamarix chinensis (Tamarix chinensis Lour.) is …

Panicum antidotale, a C4 monocot, has the potential to reclaim saline and drylands and to
be utilized as fodder and forage. Its adaptability to survive saline stress has been proven …

The halophyte Suaeda salsa displayed strong resistance to salinity. Up to date, molecular
mechanisms underlying tolerance of S. salsa to salinity have not been well understood. In …

Salinity is a critical abiotic stress, which significantly impacts the agricultural yield worldwide.
Identification of the molecular mechanisms underlying the salt tolerance in euhalophyte …

Sonneratia apetala is an essential mangrove wetland restoration tree species. Studying its
molecular mechanism for salt tolerance could lay a foundation for further cultivating …

Due to the hypersaline environment cell of Dunaliella salina can change its morphology,
growth, and pigment for adapting to the stress. Despite the fact D. salina cell was …

Eutrema salsugineum can grow in natural harsh environments; however, the underlying
mechanisms for salt tolerance of Eutrema need to be further understood. Herein, the …

Salinity adversely affects growth and yield of crop plants. Plants respond to salinity using a
series of physiological and biochemical mechanisms through an orchestrated regulation of …

As a halophyte, Iris lactea var. chinensis (I. lactea var. chinensis) is widely distributed and
has good drought and heavy metal resistance. Moreover, it is an excellent ornamental plant …