OpenAlex Citation Counts

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OpenAlex is a bibliographic catalogue of scientific papers, authors and institutions accessible in open access mode, named after the Library of Alexandria. It's citation coverage is excellent and I hope you will find utility in this listing of citing articles!

If you click the article title, you'll navigate to the article, as listed in CrossRef. If you click the Open Access links, you'll navigate to the "best Open Access location". Clicking the citation count will open this listing for that article. Lastly at the bottom of the page, you'll find basic pagination options.

Requested Article:

Exogenous Melatonin Counteracts NaCl-Induced Damage by Regulating the Antioxidant System, Proline and Carbohydrates Metabolism in Tomato Seedlings
Manzer H. Siddiqui, Saud Alamri, Mutahhar Y. Al-Khaishany, et al.
International Journal of Molecular Sciences (2019) Vol. 20, Iss. 2, pp. 353-353
Open Access | Times Cited: 183

Showing 1-25 of 183 citing articles:

Melatonin and calcium function synergistically to promote the resilience through ROS metabolism under arsenic-induced stress
Manzer H. Siddiqui, Saud Alamri, M. Nasir Khan, et al.
Journal of Hazardous Materials (2020) Vol. 398, pp. 122882-122882
Closed Access | Times Cited: 270

Melatonin Improves Drought Stress Tolerance of Tomato by Modulating Plant Growth, Root Architecture, Photosynthesis, and Antioxidant Defense System
Muhammad Ahsan Altaf, Rabia Shahid, Ming‐Xun Ren, et al.
Antioxidants (2022) Vol. 11, Iss. 2, pp. 309-309
Open Access | Times Cited: 206

Abiotic Stress in Crop Species: Improving Tolerance by Applying Plant Metabolites
Francisca Godoy, Karina Olivos-Hernández, Claudia Stange, et al.
Plants (2021) Vol. 10, Iss. 2, pp. 186-186
Open Access | Times Cited: 204

Plant hormones and neurotransmitter interactions mediate antioxidant defenses under induced oxidative stress in plants
Ali Raza, Hajar Salehi, Md Atikur Rahman, et al.
Frontiers in Plant Science (2022) Vol. 13
Open Access | Times Cited: 201

Melatonin: Awakening the Defense Mechanisms during Plant Oxidative Stress
Adil Khan, Muhammad Numan, Abdul Latif Khan, et al.
Plants (2020) Vol. 9, Iss. 4, pp. 407-407
Open Access | Times Cited: 172

Exogenous melatonin promotes seed germination and osmotic regulation under salt stress in cotton (Gossypium hirsutum L.)
Li Chen, Liantao Liu, Bin Lü, et al.
PLoS ONE (2020) Vol. 15, Iss. 1, pp. e0228241-e0228241
Open Access | Times Cited: 163

Melatonin as a regulatory hub of plant hormone levels and action in stress situations
Marino B. Arnao, Josefa Hernández‐Ruíz
Plant Biology (2020) Vol. 23, Iss. S1, pp. 7-19
Closed Access | Times Cited: 152

Phosphate-Dependent Regulation of Growth and Stresses Management in Plants
Noura Bechtaoui, Muhammad Kabir Rabiu, Anas Raklami, et al.
Frontiers in Plant Science (2021) Vol. 12
Open Access | Times Cited: 142

Phytomelatonin: an unexpected molecule with amazing performances in plants
Marino B. Arnao, Antonio Caño, Josefa Hernández‐Ruíz
Journal of Experimental Botany (2022) Vol. 73, Iss. 17, pp. 5779-5800
Closed Access | Times Cited: 98

Melatonin: First-line soldier in tomato under abiotic stress current and future perspective
Muhammad Ahsan Altaf, Rabia Shahid, Muhammad Mohsin Altaf, et al.
Plant Physiology and Biochemistry (2022) Vol. 185, pp. 188-197
Closed Access | Times Cited: 75

Mechanistic insights on melatonin-mediated plant growth regulation and hormonal cross-talk process in solanaceous vegetables
Muhammad Ahsan Altaf, Nitin Sharma, Jagmohan Singh, et al.
Scientia Horticulturae (2022) Vol. 308, pp. 111570-111570
Closed Access | Times Cited: 73

Tomato responses to salinity stress: From morphological traits to genetic changes
Mihaela Roșca, Gabriela Mihalache, Vasile Stoleru
Frontiers in Plant Science (2023) Vol. 14
Open Access | Times Cited: 68

The role of melatonin in plant growth and metabolism, and its interplay with nitric oxide and auxin in plants under different types of abiotic stress
Irshad Ahmad, Xudong Song, Muhi Eldeen Hussein Ibrahim, et al.
Frontiers in Plant Science (2023) Vol. 14
Open Access | Times Cited: 44

Exogenous vanillic acid enhances salt tolerance of tomato: Insight into plant antioxidant defense and glyoxalase systems
Khursheda Parvin, Kamrun Nahar, Mirza Hasanuzzaman, et al.
Plant Physiology and Biochemistry (2020) Vol. 150, pp. 109-120
Closed Access | Times Cited: 121

Foliar fertigation of ascorbic acid and zinc improves growth, antioxidant enzyme activity and harvest index in barley (Hordeum vulgare L.) grown under salt stress
Sibgha Noreen, Maham Sultan, Muhammad Salim Akhter, et al.
Plant Physiology and Biochemistry (2020) Vol. 158, pp. 244-254
Closed Access | Times Cited: 121

Enhancing Salt Tolerance of Plants: From Metabolic Reprogramming to Exogenous Chemical Treatments and Molecular Approaches
Manish Kumar Patel, Manoj Kumar, Weiqiang Li, et al.
Cells (2020) Vol. 9, Iss. 11, pp. 2492-2492
Open Access | Times Cited: 103

Exogenous melatonin improves salt tolerance in tomato by regulating photosynthetic electron flux and the ascorbate–glutathione cycle
Zepeng Yin, Jiazhi Lu, Sida Meng, et al.
Journal of Plant Interactions (2019) Vol. 14, Iss. 1, pp. 453-463
Open Access | Times Cited: 99

Melatonin alleviates salt damage in tomato seedling: A root architecture system, photosynthetic capacity, ion homeostasis, and antioxidant enzymes analysis
Muhammad Ahsan Altaf, Rabia Shahid, Ming‐Xun Ren, et al.
Scientia Horticulturae (2021) Vol. 285, pp. 110145-110145
Closed Access | Times Cited: 98

Phytomelatonin: An overview of the importance and mediating functions of melatonin against environmental stresses
Muhammad Ahsan Altaf, Rabia Shahid, Ming‐Xun Ren, et al.
Physiologia Plantarum (2020) Vol. 172, Iss. 2, pp. 820-846
Closed Access | Times Cited: 94

Exogenous Melatonin Modulates the Physiological and Biochemical Mechanisms of Drought Tolerance in Tartary Buckwheat (Fagopyrum tataricum (L.) Gaertn)
Md Shakhawat Hossain, Jing Li, Ashim Sikdar, et al.
Molecules (2020) Vol. 25, Iss. 12, pp. 2828-2828
Open Access | Times Cited: 88

Melatonin Application Improves Salt Tolerance of Alfalfa (Medicago sativa L.) by Enhancing Antioxidant Capacity
Huifang Cen, Tingting Wang, Huayue Liu, et al.
Plants (2020) Vol. 9, Iss. 2, pp. 220-220
Open Access | Times Cited: 85

Potential of Native Arbuscular Mycorrhizal Fungi, Rhizobia, and/or Green Compost as Alfalfa (Medicago sativa) Enhancers under Salinity
Raja Ben-Laouane, Marouane Baslam, Mohamed Ait-El-Mokhtar, et al.
Microorganisms (2020) Vol. 8, Iss. 11, pp. 1695-1695
Open Access | Times Cited: 82

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