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International Research Journals

International Research Journal of Plant Science

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Articles published in International Research Journal of Plant Science have been cited by esteemed scholars and scientists all around the world. International Research Journal of Plant Science has got h-index 25, which means every article in International Research Journal of Plant Science has got 25 average citations.

Following are the list of articles that have cited the articles published in International Research Journal of Plant Science.

  2022 2021 2020 2019 2018

Year wise published articles

37 35 16 4 1

Year wise citations received

182 195 197 167 184
Journal total citations count 2010
Journal impact factor 3.46
Journal 5 years impact factor 5.69
Journal cite score 4.79
Journal h-index 25
Journal h-index since 2018 16
Journal Impact Factor 2020 formula
IF= Citations(y)/{Publications(y-1)+ Publications(y-2)} Y= Year
Journal 5-year Impact Factor 2020 formula
Citations(2018 + 2019 + 2020 + 2021 + 2022)/
{Published articles(2018 + 2019 + 2020 + 2021 + 2022)}
Journal citescore
Citescorey = Citationsy + Citationsy-1 + Citationsy-2 + Citations y-3 / Published articlesy + Published articlesy-1 + Published articlesy-2 + Published articles y-3
Important citations (253)
Du, L. D., Liu, Z. Y., Fang, Z., & Zhao, Z. (2019, April). Oven-controlled pressure sensor and its Mechanical aging. In Journal of Physics: Conference Series (Vol. 1209, No. 1, p. 012007). IOP Publishing.
Jalil, S. U., & Ansari, M. I. (2021). Role of Nanomaterials in Regulating Reactive Species as a Signaling Molecule of Abiotic Stress in Plants. In Nanobiotechnology (pp. 291-304). Springer, Cham.
CARDONA-AYALA, C. A. R. L. O. S., JARMA-OROZCO, A. L. F. R. E. D. O., & ARAMÉNDIZ-TATIS, H. E. R. M. E. S. (2013). Drought adaptation mechanisms in the cowpea (Vigna unguiculata (L.) Walp.). A review. Revista Colombiana de Ciencias Hortícolas, 7(2), 277-288.
Jalil, S. U., & Ansari, M. I. (2019). Role of phytohormones in recuperating salt stress. In Salt Stress, Microbes, and Plant Interactions: Mechanisms and Molecular Approaches (pp. 91-104). Springer, Singapore.
Jalil, S. U., & Ansari, M. I. (2020). Stress implications and crop productivity. In Plant Ecophysiology and Adaptation under Climate Change: Mechanisms and Perspectives I (pp. 73-86). Springer, Singapore.
Bekmirzaev, G., Beltrao, J., & Ouddane, B. (2019). Effect of irrigation water regimes on yield of Tetragonia tetragonioides. Agriculture, 9(1), 22.
Ayala, C. C., Orozco, A. J. J., & Tatis, H. A. (2013). Mecanismos de adaptación a sequía en caupí (Vigna unguiculata (L.) Walp.). Una revisión. Revista Colombiana de Ciencias Hortícolas, 7(2), 277-288.
Sachdev, S., Ansari, S. A., Ansari, M. I., Fujita, M., & Hasanuzzaman, M. (2021). Abiotic stress and reactive oxygen species: Generation, signaling, and defense mechanisms. Antioxidants, 10(2), 277.
Tony, M., Samson, K., Charles, M., Paul, M., Richard, M., Mark, W., ... & Francis, W. (2016). Transcriptome-based identification of water-deficit stress responsive genes in the tea plant, Camellia sinensis. Journal of Plant Biotechnology, 43(3), 302-310.
Maritim, T. K., Wachira, F. N., Kamunya, S. M., Mireji, P., Mwendia, C., Muoki, R. C., ... & Martina, K. P. (2015). Transcriptome-based identification of drought responsive genes in the tea plant.
Rai, A. N., Tamirisa, S., Rao, K. V., Kumar, V., & Suprasanna, P. (2016). RETRACTED ARTICLE: brassica RNA binding protein ERD4 is involved in conferring salt, drought tolerance and enhancing plant growth in Arabidopsis. Plant molecular biology, 90(4), 375-387.
Iqbal, M. S., Singh, A. K., & Ansari, M. I. (2020). Effect of drought stress on crop production. New Frontiers in Stress Management for Durable Agriculture; Rakshit, A., Singh, HB, Singh, AK, Singh, US, Fraceto, L., Eds, 35-47.
Nilamudeen, M., & Sudharma, K. (2020). Entomopathogenic fungi for managing the Rice leaf roller, Cnaphalocrocis medinalis Guen.
Japur, K., Prabhu, S. T., Balikai, R. A., & Mallapur, C. P. (2012). Management of rice blue beetle (Leptispa pygmaea) under rainfed ecosystem using botanicals, entomopathogenic fungi and new insecticides. J. Exp. Zool, 15(2), 655-659.
Padrón, I. E. S., Meza, P. M. P., & Díaz, C. M. L. (2020). Evaluación de sacarosa y GA3 en un cultivo in vitro debrotes de Alpinia purpurata (Zingiberaceae). Ciencia y Tecnología Agropecuaria, 21(2), 1-13.
RAJ, C. A., RAGAVENDRAN, P., SOPHIA, D., STARLIN, T., RATHI, M. A., & GOPALAKRISHNAN, V. K. (2012). Functional Groups Prediction and Elemental Analysis of Ethyl Acetate Leaf Extract of Alpinia purpurata (Vieill.) K. Schum.
Rg, B., & Mv, R. (2017). CURBING ACTINOMYCETES AND THIDIAZURON ENHANCED MICROPROPAGATION IN THE RARE ALPINIA GALANGA-A MEDICINAL ZINGIBER. Asian Journal of Pharmaceutical and Clinical Research, 153-158.
Rathi, M. A. (2018). GREEN SYNTHESIS AND CHARACTERIZATION OF SILVER NANO PARTICLES FROM ALPENIA PURPURATA.
RIDZUAN, R. B. SHOOT MULTIPLICATION, ESSENTIAL OILS, ANTIOXIDANT CONTENT AND ANTIMICROBIAL ACTIVITIES OF Alpinia conchigera Griff.
Do Van Dung, T. V. M., Saykhedkar, G., Thanh, N. C., & Haider, Z. P. Genome-wide association analysis for grain yield of 8 progenic populations F2: 3 under drought and well-water conditions.