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Plant Science Today (PST)

Research Articles

Vol. 12 No. sp1 (2025): Recent Advances in Agriculture by Young Minds - II

Age-dependent epidemiological insights into Citrus tristeza virus in Assam lemon cultivation

DOI
https://doi.org/10.14719/pst.9934
Submitted
9 June 2025
Published
17-10-2025

Abstract

Assam lemon (Citrus limon Burm.), a valuable indigenous horticultural crop from Northeast India, is facing a serious threat from Citrus tristeza virus (CTV), a global pathogen responsible for citrus decline. A study conducted in the Lower Brahmaputra Valley Zone (LBVZ) of Assam aimed to investigate the dynamics of CTV in Assam lemon across six plant age groups (2, 5, 10, 15, 20 and 25 years). Serological [double antibody sandwich- enzyme linked immunosorbent assay (DAS-ELISA)] and molecular [reverse transcriptase-polymerase chain reaction (RT-PCR)] tests confirmed 100 % CTV incidence in the surveyed area. The study examined the influence of plant age and climatic
factors on vector incidence, disease severity and yield. Analysis revealed that minimum temperature, rainfall and evening relative humidity had strong positive correlations with vector presence and disease severity. Regression analysis showed that older plants experienced significantly greater disease severity, with a one-year increase in age leading to a 5.71 % rise in disease severity. Additionally, disease severity negatively impacted fruit yield, with a 1 unit increase in disease severity causing yield reductions ranging from 21.5 % to 42.9 %, depending on the age group. Disease severity increased with plant age, while fruit yield peaked at younger stages and declined in older plants. These findings underscore the critical need for early detection and targeted disease management to mitigate losses and maintain the long-term productivity of Assam lemon orchards. Early intervention strategies are essential to protect this economically important crop from the devastating effects of CTV.

References

  1. 1. Barua BC, Bharadwaj S. Assam Lemon–A prospective NPD initiative aimed at global market positioning. Int J Res. 2017;4(14):727-34.
  2. 2. Ahmed R, Akhtar S, Das A, Begum K, Kashyap K, Banu S. Delineating the degree of genetic divergence within Assam lemon (Citrus limon ‘Assam lemon’) accessions in Assam, India. Genet Resour Crop Evol. 2023;70(8):2785-99.
  3. 3. Nirosha R, Mansingh JP. Geographical indication tag for agricultural produces: Challenges and methods. Multidiscip Rev. 2024;7(9):2024206. https://doi.org/10.31893/multirev.2024206
  4. 4. Borah M, Nath PD, Saikia AK. Biological and serological techniques for detection of Citrus tristeza virus affecting Citrus species of Assam, India. Afr J Agric Res. 2014;9(52):3804-10. https://doi.org/10.5897/AJAR12.1392
  5. 5. Gautam C, Khatoon H, Singh S, Elangovan M, Patil LP, Meena BR, et al. Citrus tristeza virus causing decline in Assam lemon (Citrus lemon) in Northeast India and development of strategy for production of virus free planting material. Agricultural Mechanization in Asia, Africa and Latin America. 2024;55(12):19923-36.
  6. 6. Borah M, Nath PD, Saikia AK. Serological detection of Citrus tristeza virus affecting citrus tree species in Assam. Indian Phytopathol. 2012;3:289-93.
  7. 7. Biswas KK, Tarafdar A, Sharma SK, Singh JK, Dwivedi S, Biswas K, Jayakumar BK. Current status of Citrus tristeza virus incidence and its spatial distribution in citrus growing geographical zones of India. Indian J Agric Sci. 2014;84:184-89. https://doi.org/10.56093/ijas.v84i2.38028
  8. 8. Korkmaz S, Satar AKS, Tugba Uslu, Koc NK, Cevik B. Effects of graft and aphid transmission on the genetic diversity and population structure of Turkish Citrus tristeza virus isolates. Eur J Plant Pathol. 2022;162:369-88. https://doi.org/10.1007/s10658-021-02409-2
  9. 9. Sun Y, Yokomi RK, Folimonova SY. Citrus tristeza virus: A century‐long challenge for the world's citrus industries. Ann Appl Biol. 2024;185(3):304-22. https://doi.org/10.1111/aab.12939
  10. 10. Owen C, Mathioudakis M, Gazivoda A, Gal P, Nol N, Kalliampakou K, et al. Evolution and molecular epidemiology of Citrus tristeza virus on Crete: Recent introduction of a severe strain. J Phytopathol. 2014;162(11-12):839-43. https://doi.org/10.1111/jph.12266
  11. 11. Changkiri MT, Patgiri P, Nath PD. Incidence of Citrus tristeza virus and its vector Toxoptera citricida in different parts of Assam and Nagaland, India. Int J Curr Microbiol App Sci. 2021;10(09):68-78. https://doi.org/10.20546/ijcmas.2021.1009.008
  12. 12. Kiss T, Karacsony Z, Gomba-Toth A, Szabadi KL, Spitzmuller Z, Hegyi-Kalo J, et al. A modified CTAB method for the extraction of high-quality RNA from mono- and dicotyledonous plants rich in secondary metabolites. Plant Methods. 2024;20:1-7. https://doi.org/10.1186/s13007-024-01198-z
  13. 13. Rio DC, Ares M, Hannon GJ, Nilsen TW. Purification of RNA using TRIzol (TRI reagent). Cold Spring Harb Protoc. 2010;2010(6):pdb-prot5439. https://doi.org/10.1101/pdb.prot5439
  14. 14. Barthakur U. Characterization of suppressor genes for development of gene construct against Citrus tristeza virus. MSc thesis, Assam Agricultural University, Jorhat; 2017.
  15. 15. Kashyap A, Nath PD, Acharjee S, Biswas KK. Prevalence of Citrus tristeza virus in North Eastern region of India and molecular characterization of its isolates. Indian J Hortic. 2015;72(2):206-11. https://doi.org/10.5958/0974-0112.2015.00040.7
  16. 16. Cook G, Van Vuuren SP, Breytenbach JHJ, Steyn C, Burger JT, Maree HJ. Characterization of Citrus tristeza virus single-variant sources in grapefruit in greenhouse and field trials. Plant Disease. 2016;100(11):2251-56. https://doi.org/10.1094/PDIS-03-16-0391-RE
  17. 17. Bar-Joseph M, Batuman O, Roistacher C. The history of Citrus tristeza virus. In: Karasev AV, Hilf ME, editors. Citrus tristeza virus Complex and Tristeza Diseases. APS Press; 2009. p. 3-26.
  18. 18. Gorris MT, Marroquin C, Roman MP, Olmos A, Martínez MC, de Mendoza AH, et al. Incidence and epidemiology of Citrus tristeza virus in the Valencian Community of Spain. Virus Res. 2000;71(1-2):85-95. https://doi.org/10.1016/S0168-1702(00)00190-8
  19. 19. Bouvet JP, Urbaneja A, Monzó C. Effects of citrus overwintering predators, host plant phenology and environmental variables on aphid infestation dynamics in clementine citrus. J Econ Entomol. 2019;112(4):1587-97. https://doi.org/10.1093/jee/toz101
  20. 20. Khan AA, Zeshan MA, Iftikhar Y, Mubeen M, Sohail M, Bashir S, et al. Current status of Citrus tristeza virus in major citrus growing areas of Sargodha, Pakistan. Sarhad J Agric. 2022;38(4):1412-18. https://doi.org/10.17582/journal.sja/2022/38.4.1412.1418
  21. 21. Kumar S. Abiotic stresses and their effects on plant growth, yield and nutritional quality of agricultural produce. Int J Food Sci Agric. 2020;4(4). https://doi.org/10.26855/ijfsa.2020.12.002

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