Abiotic stresses, such as heat, drought, salinity, low temperature, and heavy metals, inhibit
plant growth and reduce crop productivity. Abiotic stresses are becoming increasingly …

Global warming is the major cause of abiotic and biotic stresses that reduce plant growth
and productivity. Various stresses such as drought, low temperature, pathogen attack, high …

Global climate change has caused an increase in extreme weather events and subjected
plants to a variety of abiotic stress. Plants being rooted in the soil are unable to avoid abiotic …

In the past century, plant biostimulants have been increasingly used in agriculture as
innovative and sustainable practice. Plant biostimulants have been mainly investigated as …

CRISPR/Cas, one of the most rapidly develo** technologies in the world, has been
applied successfully in plant science. To test new nucleases, gRNA expression systems and …

Vegetable and ornamental plants represent a very wide group of heterogeneous plants,
both herbaceous and woody, generally without relevant salinity-tolerant mechanisms. The …

SUMMARY Calcineurin B‐like (CBL)‐interacting protein kinases (CIPKs) play a central role
in Ca2+ signalling and promote drought tolerance in plants. The CIPK gene family in pigeon …

The RsMYB1 transcription factor (TF) controls the regulation of anthocyanin in radishes
(Raphanus sativus), and its overexpression in tobacco and petunias strongly enhances …

In addition to providing pigmentation to facilitate plant reproduction, flavonoid and betalain
metabolites have important functions in plant tolerance to abiotic and biotic stresses …

Ethylene plays a critical signaling role in the abiotic stress tolerance mechanism. However,
the role of ethylene in regulating abiotic stress tolerance in petunia has not been well …