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- Plants | An Open Access Journal from MDPI
Potassium is the most abundant macronutrient in plants, participating in essential physiological processes such as turgor maintenance A reduction in cell turgor is a hallmark of the ripening process associated with fruit softening
- Plants Receives an Updated Impact Factor of 4. 1 - MDPI
We are pleased to share that Plants (ISSN: 2223-7747) was awarded an increased Impact Factor of 4 1 in the 2024 Journal Citation Reports™ released by Clarivate TM in June 2025 Plants rank in Q1 (45 among 273 titles) in the “Plant Sciences” category
- Plants | 2024 - Browse Issues - MDPI
Plants, an international, peer-reviewed Open Access journal
- Plants’ Response Mechanisms to Salinity Stress - MDPI
To counteract the effects of salt stress, plants have developed various mechanisms, including modulating ion homeostasis, ion compartmentalization and export, and the biosynthesis of osmoprotectants
- Plants’ Epigenetic Mechanisms and Abiotic Stress - MDPI
Unpredictable climate change places plants under a variety of abiotic stresses Studying the regulation of stress-responsive genes can help to understand plants’ ability to adapt to fluctuating environmental conditions
- Mechanisms of Sodium Transport in Plants—Progresses and Challenges - MDPI
Understanding the mechanisms of sodium (Na+) influx, effective compartmentalization, and efflux in higher plants is crucial to manipulate Na+ accumulation and assure the maintenance of low Na+ concentration in the cytosol and, hence, plant tolerance to salt stress
- The Utilization and Roles of Nitrogen in Plants - MDPI
A thorough understanding of N uptake, utilization and interaction with other biological processes is helpful to improve N use efficiency and to breed plants with “less-input-more-output”
- An Integrated Framework for Drought Stress in Plants - MDPI
Prolonged stress can lead to metabolic abnormalities in plants In plants, physiological and metabolic mechanisms have developed to help alleviate drought stress These metabolic systems can activate gene regulatory networks, enhancing the adaptability and resistance to environmental challenges [4]
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