TitleBiological Control of Tomato Verticillium Wilt Disease by Talaromyces Flavus
Journal titleJournal of Plant Protection Research
Divisions of PASNauki Biologiczne i Rolnicze
4 issues per year.
The online version of Journal of Plant Protection Research (JPPR) is the original one.
Rejection rate – over 70%.
Journal of Plant Protection Research is an international peer-reviewed journal that publishes original papers, rapid communications, reviews, covering all areas of plant protection. Subjects include phytopathological virology, bacteriology, mycology and applied nematology and entomology as well as topics on protecting crop plants and stocks of crop products against diseases, viruses, weeds etc.
The Journal is published by Institute of Plant Protection – National Research Institute and Committee on Agronomic Sciences of the Polish Academy of Sciences. By 1997 under the title Prace Naukowe Instytutu Ochrony Roślin and Annals of Agricultural Sciences - Series E - Plant Protection).
JPPR publishes original research papers, rapid communications, critical reviews, and book reviews covering all areas of modern plant protection. Subjects include phytopathological virology, bacteriology, mycology and applied nematology and entomology as well as topics on protecting crop plants and stocks of crop products against diseases, viruses, weeds etc. We publish papers which use an interdisciplinary approach showing how different control strategies can be integrated into pest management programmes, which cover high and low input agricultural systems worldwide, within the framework of ecologically sound and economically responsible land cultivation.
Relevant topics include: advanced methods of diagnostic, and computer-assisted diagnostic plant research and new findings, biological methods of plant protection, selective chemical methods of plant protection, the effects of plant-protecting agents and their toxicology, methods to induce and utilize crop resistance, application techniques, and economic aspects of plant protection.
Journal of Plant Protection Research is also available on:
The Journal does not have article processing charges (APCs) nor article submission charges.
Journal of Plant Protection Research is published based on the Open Access model.
JPPR is a member of CrossRef – the citation-linking backbone for online publications.
JPPR is indexed/abstracted in:
AGRICOLA, AGRIS, AGRO, BIOSIS Preview, CABI, Chemical Abstracts Services (CAS), DOAJ (Directory of Open Access Journals), EBSCO, FSTA - Food Science & Technology Abstracts, Geobase, Google Scholar, Index Copernicus, Japan Science and Technology Agency (JST), J-Gate, JournalGuide, JournalTOCs, KESLI-NDSL (Korean National Discovery for Science Leaders), Microsoft Academic, Naviga (Softweco), Paperbase, Pirabase, POL-index, Polish Scientific Journals Contents, Polymer Library, Primo Central (ExLibris), ProQuest (relevant databases), Publons, ReadCube, SCOPUS, Sherpa/RoMEO, Summon (Serials Solutions/ProQuest), TDNet, Ulrich's Periodicals Directory/ulrichsweb, WanFang Data, WorldCat (OCLC), Zoological Record.
It is also ranked in SCImago Journal & Country Rank in three categories: Agronomy and Crop Science – Q2, Plant Science – Q2, and Soil Science – Q2 (June 2017).
PublisherCommittee of Plant Protection PAS ; Institute of Plant Protection – National Research Institute
IdentifiereISSN 1899–007X ; ISSN 1427–4345
ReferencesAdebanjo A. (2004), Evaluation of some fungi and bacteria for biocontrol of anthracnose disease of cowpea, J. Basic Microbiol, 44, 1, 3. ; N. Alemzadeh Ansari (2008), A study on adaptation of tomato ecotypes from northern latitudes under southern Iran conditions, J. Appl. Hort, 10, 29. ; Aminaee M. (2006), A study on Verticillium wilt of tomato in Kerman province, null, 163. ; Bal U. (2007), Haploidy in tomato (<i>Lycopersicon esculentum</i> Mill.): a critical review, J. Euphytica, 158, 1-2, 1. ; Bourbos V. (1996), Soil solarization for the control of Verticillium wilt of greenhouse, Phytoparasitica, 24, 4, 277. ; Brown A. (1987), Activity of glucanases of <i>Zygorrhynchus moelleri</i> in relation to antagonism against some soil borne plant pathogenic fungi, J. Phytopathol, 120, 4, 298. ; Cherif M. (2007), Phenolic compounds and their role in biocontrol and resistance of chickpea to fungal pathogenic attacks, Tunisian J. Plant Protect, 2, 7. ; Chet I. (1981), Isolation and biocontrol potential of <i>Trichoderma hamatum</i> from soil naturally suppressive to <i>Rhizoctonia solani</i>, Phytopathology, 71, 286. ; Christen A. (1981), A selective medium for isolating <i>Verticillium albo-atrum</i> from soil, Phytopathology, 72, 47. ; El-Tarabily K. (2000), Biological control <i>Sclerotinia minor</i> using a chitinolytic bacterium and actinomycetes, Plant Pathol, 49, 573. ; Eziashi E. (2006), Effect of metabolites produced by Trichoderma species against <i>Ceratocystis paradoxa</i> in culture medium, African J. Biotech, 5, 9, 703. ; Fahima T. (1997), Biological Control of Soil-Borne Plant Pathogens Hornby, 296. ; Giotis C. (2009), Effect of soil amendments and biological control agents (BCAs) on soil-borne root disease caused by <i>Pyrenochaetu lycopersici</i> and <i>Verticillium albo-atrum</i> in organic greenhouse tomato production systems, Eur. J. Plant Pathol, 123, 387. ; Hanafi A. (2003), Tomate Sous Abri, 192. ; Hutson R. (1982), The response of tomato seedling roots to infection by <i>Verticillium albo-atrum</i> or <i>Fusarium oxysporum</i> f. sp. <i>lycopersici</i>, Ann. Appl. Biol, 102, 1, 89. ; Jones J. (1995), Control of soil-borne diseases of mulched tomato by fumigation, Proc. Fla. State Hort. Soc, 108, 201. ; Josh D. (2009), Suppressive effects of composts on soil-borne and foliar diseases of french bean in the field in the Western Indian Himalayas, Crop Protect, 28, 7, 608. ; Kim K. (1990), Glucose oxidase as the antifungal principle of talaron from <i>Talaromyces flavus</i>, Can. J. Microbiol, 36, 11, 760. ; Kim J. (2001), Identification of <i>Verticillium dahliae</i> and <i>Verticillium albo-atrum</i> causing wilt of tomato in Korea, Plant Pathol. J, 17, 4, 222. ; Kulikov S. (2006), Biological preparations with different mechanisms of action for protecting tomato against fungal diseases, Appl. Biochem. Microbiol, 42, 77. ; Madi L. (1997), Biological control of <i>Sclerotium rolfsii</i> and <i>Verticillium dahliae</i> by <i>Talaromyces flavus</i> is mediated by different mecchanisms, Phytopathology, 87, 1054. ; Mansoori B. (2005), Elicitation of ethylene by <i>Verticillium albo-atrum</i> phytotoxins in tomato, J. Phytopathol, 153, 3, 143. ; Marois J. (1982), Biological control of Verticillium wilt of eggplant in the field, Plant Dis, 6, 12, 1166. ; Marois J. (1984), Ability of <i>Talaromyces flavus</i> to occupy the rhizosphere, Soil Bio. Biochem, 16, 4, 387. ; Matta A. (1997), Control of Verticillium wilt of tomato by preinoculation with avirulent fungi, Eur. J. Plant Pathol, 83, 1, 457. ; McLaren D. (1982), Hyphal interactions occurring between <i>Sclerotinia sclerotiorum</i> and <i>Penicillium vermiculatum</i>, Can. J. Plant Pathol, 4, 308. ; Menendez A. (1998), Biological control of <i>Sclerotinia sclerotiorum</i> attacking soybean plants: degradation of the cell wall of this pathogen by <i>Trichoderma harzianum</i>, Mycopathologia, 142, 3, 153. ; Murrary F. (1997), Isolation of the glucose oxidase gene from <i>Talaromyces flavus</i> and characterization of its role in the biocontrol of <i>Verticillium dahliae</i>, Curr. Genet, 32, 5, 367. ; Nagtzaam M. (1997), Colonization of roots of eggplant and tomato by <i>Talaromyces flavus</i> from coated seed, Soil Biol. Biochem, 29, 9-10, 1499. ; Paplomatas E. (1999), Screening Tomato, Cucumber, Watermelon and Melon Rootstocks for Resistance to <i>Verticillium dahliae</i>, null, 30. ; Paternotte S. (1993), A new aggressive strain of <i>Verticillium albo-atrum</i> in Verticillium resistant cultivars of tomato in the Netherlands, Eur. J. Plant Pathol, 99, 3, 169. ; Pegg G. (1982), Purification and characterization of chitinase enzymes from healthy and <i>Verticillium albo-atrum</i> infected tomato plants, and from <i>V. albo-atrum</i>, Physiol. Plant Pathol, 21, 3, 389. ; Pohronezny K. (1991), Compendium of Tomato Diseases, 12. ; Proksa B. (1992), 2-methylsorbic acid, an antifungal metabolite of <i>Penicillium vermiculatum</i>, J. Appl. Microbiol. Biotech, 37, 4, 443. ; Rodriguez M. (2006), Cyclosporine a from a nonpathogenic <i>Fusarium oxysporum</i> suppressing <i>Sclerotinia sclerotiorum</i>, J. Appl. Microbiol, 100, 3, 575. ; Sahebani N. (2009), Induction of H<sub>2</sub>O<sub>2</sub> and related enzymes in tomato roots infected with root-knot nematode (<i>Meloidogyne javanica</i>) by several chemical and microbial elicitors, Biocontrol Sci. Technol, 19, 3, 301. ; Soytong K. (2005), Application of mycofungicide to control late blight of tomato, J. Agric. Technol, 1, 19. ; Tjamos E. (1991), Recovery of olive tree with <i>Verticillium dahliae</i> after individual application of soil solarization in stablished olive orchards, Plant Dis, 75, 6, 557. ; Tjamos E. (1997), Distribution and establishment of the biocontrol fungus <i>Talaromyces flavus</i> in soil and on roots of solanaceous crops, Crop Protect, 16, 2, 135. ; Tjamos E. (1987), Effect of soil solarization on the survival of fungal antagonists of <i>Verticillium dahliae</i>, EPPO Bull, 17, 4, 645. ; Vidhyasekaren P. (2004), Concise Encyclopedia of Plant Pathology. ; Wikins T. (2000), Cotton biotechnology, Critical Rev. Plant Sci, 19, 511.