Types of Fungi Species Attacking Mulberry, Symptoms and Their Interaction

Year : 2025 | Volume : | : | Page : –
By
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Karthick Mani Bharathi B,

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Susikaran S,

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Kiruthika C,

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Vasanth V,

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Ramya Harika K,

  1. Student, Department of Sericulture, Forest College and Research Institute, Tamil Nadu Agricultural University, Mettupalayam, Tamil Nadu, India
  2. Assistant Professor, Directorate of Open and Distance Learning, Tamil Nadu Agricultural University. Coimbatore, Tamil Nadu, India
  3. Student, Department of Sericulture, Forest College and Research Institute, Tamil Nadu Agricultural University, Mettupalayam, Tamil Nadu, India
  4. Student, Department of Sericulture, Forest College and Research Institute, Tamil Nadu Agricultural University, Mettupalayam, Tamil Nadu, India
  5. Teaching Assistant, Sri Swaminathan Polytechnic of Agriculture, Guntur, Andhra Pradesh, India

Abstract document.addEventListener(‘DOMContentLoaded’,function(){frmFrontForm.scrollToID(‘frm_container_abs_131067’);});Edit Abstract & Keyword

Mulberry trees (Morus spp.) are essential in sericulture since their leaves are the primary source of nutrition for silkworms (Bombyx mori L.).The cultivation of mulberry trees has long been integral to the silk industry, particularly in countries like China, India and Japan. However, like all agricultural crops, mulberry trees are vulnerable to a variety of pests and pathogens including fungi. Fungal diseases can have a profound impact on mulberry trees thus leading to reduced leaf quality, stunted growth and even death of the tree in severe cases. Fungal infections not only affect the health of the mulberry trees but also have direct consequences on the silkworm industry. Healthy mulberry trees are necessary to sustain the silkworm population and produce high-quality silk. As such, understanding the types of fungi species that attack mulberry, the symptoms of fungal infections and how these pathogens interact with mulberry trees is essential for effective management and prevention strategies. This article will discuss various fungal species that attack mulberry trees, outline the symptoms they cause and explore their interactions with mulberry. We will also cover the importance of fungal control in sericulture and provide insights into integrated management strategies.

Keywords: Disease management, Disease symptoms, Fungal-plant interaction, Fungal pathogens, Mulberry diseases, Root rot fungi

How to cite this article:
Karthick Mani Bharathi B, Susikaran S, Kiruthika C, Vasanth V, Ramya Harika K. Types of Fungi Species Attacking Mulberry, Symptoms and Their Interaction. International Journal of Fungi. 2025; ():-.
How to cite this URL:
Karthick Mani Bharathi B, Susikaran S, Kiruthika C, Vasanth V, Ramya Harika K. Types of Fungi Species Attacking Mulberry, Symptoms and Their Interaction. International Journal of Fungi. 2025; ():-. Available from: https://journals.stmjournals.com/ijf/article=2025/view=0

References
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  1. Andrade CC, de Resende ML, Moreira SI, Mathioni SM, Botelho DM, Costa JR, Andrade AC, Alves E. Infection process and defense response of two distinct symptoms of Cercospora leaf spot in coffee leaves. Phytoparasitica. 2021 Sep;49:727-37.
  2. Arunakumar GS, Revanna S, Kumar V, Yadav VK, Sivaprasad V. Studies on scanning electron microscopy and fungal association with root knot nematode in major mulberry growing areas of Southern Karnataka. J Entomol Zool Stud. 2018;6(4):511-8.
  3. Binyamin R, Nadeem SM, Akhtar S, Khan MY, Anjum R. Beneficial and pathogenic plant-microbe interactions: A review. Soil & Environment. 2019 Nov 1;38(2).
  4. Bharathi, B Karthick Mani, Susikaran S, Parthiban KT et al. Effect of auxins on biochemical composition of apical cuttings of mulberry (Morus indica) using mini clonal technology. International Journal of Zoology and Applied Biosciences. 2024;9(3):40-45. https://doi.org/10.55126/ijzab.2024.v09.i03.007
  5. Bharathi, B Karthick Mani, Susikaran S, Parthiban KT et al. Impact of IBA and NAA concentrations on growth characteristics of MR2 mulberry (Morus sinensis) using mini clonal technology at nursery level. Journal of Advances in Biology and Biotechnology. 2024;27(9):296-303. https://doi.org/10.9734/jabb/2024/v27i91299.
  6. Bharathi, B Karthick Mani, Susikaran S, Parthiban KT, Vasanth V, et al. Evaluation of different transplanting days on field survivability and growth attributes of mulberry mini clones under field conditions for Morus indica (V1). International Journal of Advanced Biochemistry Research. 2024;8(8):1057-1062. https://doi.org/10.33545/26174693.2024.v8.i8n.1932
  7. Bharathi, B Karthick Mani, Susikaran S, Vijay S, Vasanth V, Kumar R, Kumar A, et al. A comparative biochemical study of mulberry (Morus) mini clones over conventional stem cuttings. International Journal of Plant Soil Science. 2024;36(5):975–983. doi: 10.9734/ijpss/2024/v36i54593.
  8. Cong K, Cheng J, Li T, Wu C, Fan G, Li X, Zhou D. Alternaria in berry: Effects on its quality, pathogenic mechanisms and potential control strategies. Plant Pathology. 2024 Aug;73(6):1317-33.
  9. Gai YP, Yuan SS, Liu ZY, Zhao HN, Liu Q, Qin RL, Fang LJ, Ji XL. Integrated phloem sap mRNA and protein expression analysis reveals phytoplasma-infection responses in mulberry. Molecular & Cellular Proteomics. 2018 Sep 1;17(9):1702-19.
  10. Huihui Z, Xin L, Yan-hui C, Yue W, Ma-bo L, Rong-yi Y, Nan X, Guang-yu S. A study on the effects of salinity and pH on PSII function in mulberry seedling leaves under saline–alkali mixed stress. Trees. 2020 Jun;34:693-706.
  11. Kalbande BB and Yadav AM, editors. Plant Pathology and Disease Management. Journal of Sericulture. 2021;37(1):17-20.
  12. Liu C, Dong X, Xu Y, Dong Q, Wang Y, Gai Y, Ji X. Transcriptome and DNA methylome reveal insights into phytoplasma infection responses in mulberry (Morus multicaulis ). Frontiers in Plant Science. 2021 Aug 3;12:697702.
  13. Lv Z, Hao L, Ma B, He Z, Luo Y, Xin Y, He N. Ciboria carunculoides suppresses mulberry immune responses through regulation of salicylic acid signalling. Frontiers in Plant Science. 2021 Apr 6;12:658590.
  14. Lv Z, He Z, Hao L, Kang X, Ma B, Li H, Luo Y, Yuan J, He N. Genome sequencing analysis of Scleromitrula shiraiana, a causal agent of mulberry sclerotial disease with narrow host range. Frontiers in Microbiology. 2021 Jan 14;11:603927.
  15. Mahadeva A. Insect pest infestation, an obstacle in quality mulberry leaves production. Asian Journal of Biological Sciences. 2018;11:41-52.
  16. Pathak P, Rai VK, Can H, Singh SK, Kumar D, Bhardwaj N, Roychowdhury R, de Azevedo LC, Kaushalendra, Verma H, Kumar A. Plant-endophyte interaction during biotic stress management. Plants. 2022 Aug 25;11(17):2203.
  17. Singla P, Bhardwaj RD, Sharma S, Sunidhi. Plant–fungus interaction: a stimulus–response theory. Journal of Plant Growth Regulation. 2024 Feb;43(2):369-81.
  18. Wang D, Chen L, Liu C, Wang H, Liu Z, Ji X, He N, Xin Y. Mno‐miR164a and MnNAC100 regulate the resistance of mulberry to Botrytis cinerea. Physiologia Plantarum. 2024 Mar;176(2):e14309.
  19. Wani MY, Mehraj S, Rather RA, Rani S, Hajam OA, Ganie NA, Mir MR, Baqual MF, Kamili AS. Systemic acquired resistance (SAR): A novel strategy for plant protection with reference to mulberry. International Journal of Chemical Studies.2018;2:1184-92.
  20. Xin Y, Wang D, Han S, Li S, Gong N, Fan Y, Ji X. Characterization of the chitinase gene family in mulberry (Morus notabilis) and MnChi18 involved in resistance to Botrytis cinerea. Genes. 2021 Dec 31;13(1):98.
  21. Ozturk M, Kamili AN, Altay V, Rohela GK. Mulberry: Mycorrhizal Interactions and Development Related to Other Organisms. In Mulberry: From Botany to Phytochemistry. Cham: Springer Nature Switzerland. 2023 Dec 10: pp. 57-68.
Ahead of Print Subscription Review Article
Volume
Received 23/12/2024
Accepted 02/01/2025
Published 04/01/2025
203