ICCK

Jing Wang

School of Agricultural Engineering, Jiangsu University, Zhenjiang 212013, China

Section 01

Academic Profile

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Section 02

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Section 03

ICCK Publications

Free Access | Research Article | 12 February 2026
Salt Adaptation in Aegiceras Corniculatum: Electrophysiology, Gene Expression, and Energy Trade-Offs
Journal of Plant Electrobiology | Volume 1, Issue 1: 7-31, 2026 | DOI: 10.62762/JPE.2025.184208
Abstract
The integration of physical and chemical processes underpins life. Plant cells function as bioelectrical units, storing and converting energy through capacitive, inductive, and resistive properties. This study elucidates the electrophysiological and molecular mechanisms governing salt transport and energy allocation in Aegiceras corniculatum leaves under combined salinity-waterlogging stress (T1: 0.1 M NaCl + 2 h; T2: 0.2 M NaCl + 4 h; T3: 0.4 M NaCl + 6 h). Results demonstrate that leaf intracellular water-salt transport dynamics, coupled with salt-transport gene expression, coordinately regulate active/passive transport, vacuolar compartmentalization, cytoplasmic Na+ levels, and excretion.... More >

Graphical Abstract
Salt Adaptation in Aegiceras Corniculatum: Electrophysiology, Gene Expression, and Energy Trade-Offs