Top 12 Journals in Plant Biology Ranked by Web of Science (WOS) – 2024

List of Top Most Plant Biology Journals Ranked by WoS

Journal Name ISSN 2022 JIF
Molecular Plant 1674-2052 27.5
Annual Review of Plant Biology 1543-5008 23.9
TRENDS IN PLANT SCIENCE 1360-1385 20.5
Nature Plants 2055-026X 18
PLANT BIOTECHNOLOGY JOURNAL 1467-7644 13.8
PLANT CELL 1040-4651 11.6
Journal of Integrative Plant Biology 1672-9072 11.4
CURRENT OPINION IN PLANT BIOLOGY 1369-5266 9.5
BMC PLANT BIOLOGY 1471-2229 5.3
PLANT BIOLOGY 1435-8603 3.9
FUNCTIONAL PLANT BIOLOGY 1445-4408 3
JOURNAL OF PLANT BIOLOGY 1226-9239 2.9

Source
1. https://mjl.clarivate.com/
2. https://doi.org/10.13140/RG.2.2.22948.45444

In academia, publishing articles showcases expertise and credibility. Journals with high impact factors signal significance in the field. Understanding how to gauge a journal’s impact can enhance your publication strategy. Impact factor, a key metric, reflects a journal’s influence over time. Calculating it involves dividing the number of citations by the total articles published. Assessing personal impact also matters, considering citations to your own work. This article explores the significance, methodology, and implications of impact factors, empowering academics and professionals to navigate the publishing landscape strategically and enhance their scholarly footprint.

What is Impact factor?

The impact factor (IF) or journal impact factor (JIF) of an academic journal is a scientometric index calculated by Clarivate that reflects the yearly mean number of citations of articles published in the last two years in a given journal, as indexed by Clarivate’s Web of Science.

As a journal-level metric, it is frequently used as a proxy for the relative importance of a journal within its field; journals with higher impact factor values are given the status of being more important, or carry more prestige in their respective fields, than those with lower values.

While frequently used by universities and funding bodies to decide on promotion and research proposals, it has been criticised for distorting good scientific practices [1-3].

Why is the impact factor important?

Impact factor, an index based on the frequency with which a journal’s articles are cited in scientific publications, is a putative marker of journal quality [4]. A journal’s impact factor holds immense sway over funding, submissions, and the reputation of publishers and academics. Upholding publication quality not only boosts citation rates but also enhances a journal’s ranking. High impact factor journals signal meticulous management and prestige, fostering a virtuous cycle of scholarly engagement and recognition.

How to calculate the journal impact factor?

Journal Impact Factor (JIF) is calculated by Clarivate Analytics as the average of the sum of the citations received in a given year to a journal’s previous two years of publications (linked to the journal, but not necessarily to specific publications) divided by the sum of “citable” publications in the previous two years [5].

The calculation is based on a two-year period and involves dividing the number of times articles were cited by the number of articles that are citable.

Calculation of 2010 IF of a journal:

A = the number of times articles published in 2008 and 2009 were cited by indexed journals during 2010.

B = the total number of “citable items” published in 2008 and 2009.

A/B = 2010 impact factor

The Impact Factor is reported in Journal Citation Reports (JCR)

CiteScore, which is similar to the IF but is based on a 4-year period.

Impact Factor Controversy

The impact factor (IF), widely used in academia, has sparked debate due to its limitations. It quantifies a journal’s influence based on citations received by its articles within a specific time frame (usually two years). However, critics argue that it oversimplifies research quality and favors certain fields [6]. Indeed, the fact that it is simple to understand – it is roughly the average number of citations that primary research papers published in two consecutive years gather in the following year – makes it all too easy to point out its shortcomings: the metric also includes citations to non-primary content (such as reviews and news articles); for many fields, citations accumulate slowly and thus the two-year time window seems too short; and the average number of citations per paper can be skewed by a few highly cited ones, of which high-impact journals have a big share [7]. Furthermore, a recent study found that papers published in predatory journals, which often lack rigorous peer review, have little scientific impact. Around 60% of these papers hadn’t attracted any citations at all, and less than 3% received more than 10 citations [8]. As we rethink science publishing, there’s a growing need for a broader, more-transparent suite of metrics to judge journals beyond the traditional impact factor [9]. Researchers and institutions should consider these complexities when evaluating scholarly work and avoid relying solely on impact factors for assessing journal quality.

Recent Biggest Discoveries and advances in Plant Biology (2024)

  1. Evolution of Plant Anatomy: A groundbreaking study published in Nature Plantshas reshaped our understanding of plant evolution. Contrary to the long-held belief that plant types evolved suddenly early in their history, this research shows that plant evolution was a mix of gradual change and short bursts of innovation. Plants adapted to environmental challenges over time, punctuated by episodic bursts of anatomical innovation [10].
  2. Plant Molecular Biology: Advances in plant molecular biology have been significant. Researchers have decoded the molecular principles underlying plant development, adaptation to stress, and symbiosis with other organisms. Techniques like CRISPR/Cas9 and prime editing have revolutionized gene editing for crop improvement. These developments address challenges posed by climate change and the need to enhance global food supply [11].
  3. Seed Biology Updates: Recent studies have focused on seed dormancy, germination, and mechanisms related to seed quality. Understanding these processes is crucial for crop production and sustainability [12].
  4. Genetic and Molecular Research: Researchers have investigated epigenetics, gene function, genome analysis, transcriptomics, and metabolomics. These studies contribute to crop stress tolerance, nutritional enhancement, and overall plant health [13].

 References

  1. Waltman L, Traag VA (1 March 2021). “Use of the journal impact factor for assessing individual articles: Statistically flawed or not?”. F1000Research. 9: 366. doi:10.12688/f1000research.23418.2
  2. Curry S (February 2018). “Let’s move beyond the rhetoric: it’s time to change how we judge research”. Nature. 554 (7691): 147. Bibcode:2018Natur.554..147C. doi:10.1038/d41586-018-01642-w
  3. Hutchins, BI; Yuan, X; Anderson, JM; Santangelo, GM (September 2016). “Relative Citation Ratio (RCR): A New Metric That Uses Citation Rates to Measure Influence at the Article Level”. PLOS Biology. 14 (9): e1002541. doi:10.1371/journal.pbio.1002541
  4. Saha S, Saint S, Christakis DA. Impact factor: a valid measure of journal quality? J Med Libr Assoc. 2003 Jan;91(1):42-6. PMID: 12572533; PMCID: PMC141186.
  5. Measuring a journal’s impact. https://www.elsevier.com/en-in/researcher/author/tools-and-resources/measuring-a-journals-impact
  6. The impact-factors debate: the ISI’s uses and limits – Nature. https://www.nature.com/articles/415731a.pdf.
  7. The diversifying nature of impact – Springer Nature. https://media.springernature.com/full/springer-cms/rest/v1/content/16138586/data/v2.
  8. Chawla, Dalmeet Singh. “Predatory-journal papers have little scientific impact.” Nature(2020). https://www.nature.com/articles/d41586-020-00031-6
  9. Wouters, P., Sugimoto, C. R., Larivière, V., McVeigh, M. E., Pulverer, B., de Rijcke, S., & Waltman, L. (2019). Rethinking impact factors: better ways to judge a journal. Nature569(7758), 621-623. https://www.nature.com/articles/d41586-019-01643-3
  10. James W. Clark, Alexander J. Hetherington, Jennifer L. Morris, Silvia Pressel, Jeffrey G. Duckett, Mark N. Puttick, Harald Schneider, Paul Kenrick, Charles H. Wellman, Philip C. J. Donoghue. Evolution of phenotypic disparity in the plant kingdom. Nature Plants, 2023; DOI: 10.1038/s41477-023-01513-x
  11. Angeles Aroca, Irene García, Advances in plant molecular biology: towards new challenges, Journal of Experimental Botany, Volume 74, Issue 19, 13 October 2023, Pages 5949–5954, https://doi.org/10.1093/jxb/erad350
  12. Nonogaki, H. (2017). Seed biology updates–highlights and new discoveries in seed dormancy and germination research. Frontiers in Plant Science8, 524.
  13. 13. Jung, Y. J., Kim, M. S., & Cho, Y. G. (2024). Trends and Prospects of Genetic and Molecular Research in Plants. Plants13(11), 1545.



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