First Report of Estonian Cyst Nematode Cactodera estonica from India

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Journal of Nematology

Society of Nematologists

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ISSN: 0022-300X
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VOLUME 49 , ISSUE 4 (September 2017) > List of articles

First Report of Estonian Cyst Nematode Cactodera estonica from India

C. SARANYA / P. SUNDARARAJ * / PRIYANK H. MHATRE / E. P. VENKATASALAM / S. NIVITHA

Citation Information : Journal of Nematology. Volume 49, Issue 4, Pages 384-385, DOI: https://doi.org/10.21307/jofnem-2017-085

License : (CC-BY-NC-ND-4.0)

Received Date : 06-April-2017 / Published Online: 26-September-2018

ARTICLE

ABSTRACT

Among plant parasitic nematodes, cyst-forming nematodes (Heteroderidae) are the most notorious pathogens of agriculture and horticulture crops, and most species are restricted to cool climates (Baldwin and Mundo-Ocampo, 1991; Madani et al., 2004; Ma et al., 2008). In November 2016, a survey for identification and characterization of cyst nematodes was carried out in the Nilgiri hills, South India. During the survey, a large number of cysts were recovered from the rhizosphere and from the root system of Polygonum nepalense (Polygonaceae). Soil samples were subjected to Fenwick can method for cyst extraction, and the cysts were handpicked using a sterilized forceps under a stereo zoom microscope (Fenwick, 1940). The collected cysts were subjected to morphological and molecular characterization. The cysts were characterized by their dark brown color, lemon shape, as well as distinct neck and vulval cones. The vulval cone of the cyst was excised using the method described by Mulvey, 1972 and observed under a compound microscope. A comprehensive study of the vulval cone showed the typical circumfenestrate pattern. The cyst measurements (n = 5) were length 550.45 ± 12 (470.72–687.64) μm, width 454.41 ± 9 (391.51–541.88) μm, neck length 97.76 ± 4.1 (93.85–102.77) μm, length-to-width ratio 1.4 ± 0.16 (1.2–1.6) μm, and vulval cone length 47.44 ± 3.9 (40.73–53.63) μm. The eggs recovered from these cysts were covered with small protuberances/tubercles. The second-stage juveniles were tapering posteriorly with a well-developed stylet and round basal knobs; tail tapering with a hyaline tail terminal. Second-stage juveniles (n = 15) showed the following morphometric characters: body length 469 ± 15 (418–526) μm, a = 25.37 ± 2.8 (21.23–28.4), b = 4.14 ± 0.5 (0.4–4.8), b′ = 4.5 ± 0.6 (3.8–5.5), c =11.33 ± 1.1 (9.54–12.16), c′ =2.24 ± 0.4 (1.56–2.98), body width 18.73 ± 8 (17.43–19.59) μm, stylet length 21.21 ± 2.2 (19.6–23.16) μm, tail length 42.5 ± 3.6 (34.8–45.57) μm, hyaline tail length 18.30 ± 1.08 (16.2–19.6) μm, lip height 3.58 ± 0.3 (3.4–4.1) μm, and lip width 8.83 ± 0.9 (7.5–9.7) μm. The observations of cyst shape, eggs, vulval cone, and second-stage juveniles were typical of the genus Cactodera Krall & Krall, 1978 (Golden and Mulvey, 1983). For further confirmation, the cysts were subjected to molecular analysis. DNA was isolated from individual cyst by using the protocol described by Sambrook et al. (1989) with slight modifications. Genomic DNA was amplified using ITS-rDNA. A fragment containing the partial 18S gene, complete ITS1, 5.8S, and ITS2, and the partial 28S rRNA gene was amplified using forward (CGTAACAAGGTAGCTGTAG) and reverse (TCCTCCGCTAAATGATAT) primer (Ferris et al., 1993). Amplicon of ITS-rDNA yielded a single fragment of approximately 735 bp; the obtained sequence was deposited into the GenBank database (Accession no. MF537581) and was compared with published sequences by means of BLAST search in the database. The comparison revealed 100% similarity, with sequence corresponding to C. estonica isolates from Turkey (KX579922), 99% with Belgium population (AF274417) and 98% with China population (KY475583, HM560730, KC771888, KC771889, JN684904, EU106164). Although three species of Cactodera viz, C. cacti, C. Chaubattia, and C. jahanseni have already been reported from India, (Kaushal et al., 2007) this is the first report of C. estonica from India. In previous studies, C. estonica has been mainly reported on common weed Polygonum species of the family Polygonaceae, which is a well-known host for C. estonica (Subbotin et al., 2001; Norgren, 1986). Cyst forming nematodes are highly specialized and economically important pathogens and easily dispersed to new area by wind, water, and human and animals activities. If C. estonica increases in a new habitat, it will be the major threat to the biodiversity of the southern hills of India.

References


  1. Baldwin, J. G., and Mundo-Ocampo, M. 1991. Heteroderinae, cyst- and non-cyst-forming nematodes. Pp. 275–362 in W. R. Nickle, ed. Manual of agricultural nematology. New York: Marcel Dekker.
  2. Fenwick, D. W. 1940. Methods for the recovery and counting of cysts of Heterodera schachtii from soil. Journal of Helminthology 18:155–172.
    [CROSSREF]
  3. Ferris, V. R., Ferris, J. M., and Faghihi, J. 1993. Variation in spacer ribosomal DNA in some cyst-forming species of plant parasitic nematodes. Fundamental and Applied Nematology 2:177–184.
  4. Golden, A. M., and Mulvey, R. H. 1983. An illustrated key to the cyst-forming genera and species of Heteroderidae in the Western Hemisphere with species Morphometric and distribution. Journal of Nematology 15:1–59.
  5. Kaushal, K. K., Srivastava, A. N., Pankaj, C. G., and Singh, K. 2007. Cyst forming nematodes in India: A review. Indian Journal of Nematology 37:1–7.
  6. Krall, E., and Krall, H. 1978. Revision of the plant nematodes of the family Heteroderidae on the basis of the trophic specialisation of these parasites and their joint evolution with their host plants. Pp. 39–56 in K. M. Ryzhikov, ed. Fitogelmintologicheskie Issledovaniya. Moscow: Nauka (Russian).
  7. Ma, H., Robin, M. O., and Subbotin, S. A. 2008. ITS2 secondary structure and phylogeny of cyst-forming nematodes of the genus Heterodera (Tylenchida: Heteroderidae). Organisms, Diversity and Evolution 8:182–193.
    [CROSSREF]
  8. Madani, M., Vovlas, N., Castillo, P., Subbotin, S. A., and Moens, M. 2004. Molecular characterization of cyst nematode species (Heterodera spp.) from the Mediterranean Basin using RFLPs and sequences of ITS-rDNA. Journal of Phytopathology 152:229–234.
    [CROSSREF]
  9. Mulvey, R. H. 1972. Identification of Heterodera cysts by terminal and cone top structures. Canadian Journal of Zoology 58:1697–1702.
    [CROSSREF]
  10. Norgren, R. L. 1986. First report of Cactodera estonica in the United States. Plant Disease 70:1159.
    [CROSSREF]
  11. Sambrook, J., Fritsch, E. F., and Maniatis, T. 1989. Molecular cloning: A laboratory manual. 2nd ed. Cold Spring Harbor, NY: Cold Spring Harbor Laboratory Press.
  12. Subbotin, S. A., Vierstraete, A., De Ley, P., Rowe, J., Waeyenberge, L., Moens, M., and Vanfleteren, J. R. 2001. Phylogenetic relationships within the cyst-forming nematodes (Nematoda, Heteroderidae) based on analysis of sequences from the ITS regions of ribosomal DNA. Molecular Phylogenetics and Evolution 21:1–16.
    [CROSSREF]
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REFERENCES

  1. Baldwin, J. G., and Mundo-Ocampo, M. 1991. Heteroderinae, cyst- and non-cyst-forming nematodes. Pp. 275–362 in W. R. Nickle, ed. Manual of agricultural nematology. New York: Marcel Dekker.
  2. Fenwick, D. W. 1940. Methods for the recovery and counting of cysts of Heterodera schachtii from soil. Journal of Helminthology 18:155–172.
    [CROSSREF]
  3. Ferris, V. R., Ferris, J. M., and Faghihi, J. 1993. Variation in spacer ribosomal DNA in some cyst-forming species of plant parasitic nematodes. Fundamental and Applied Nematology 2:177–184.
  4. Golden, A. M., and Mulvey, R. H. 1983. An illustrated key to the cyst-forming genera and species of Heteroderidae in the Western Hemisphere with species Morphometric and distribution. Journal of Nematology 15:1–59.
  5. Kaushal, K. K., Srivastava, A. N., Pankaj, C. G., and Singh, K. 2007. Cyst forming nematodes in India: A review. Indian Journal of Nematology 37:1–7.
  6. Krall, E., and Krall, H. 1978. Revision of the plant nematodes of the family Heteroderidae on the basis of the trophic specialisation of these parasites and their joint evolution with their host plants. Pp. 39–56 in K. M. Ryzhikov, ed. Fitogelmintologicheskie Issledovaniya. Moscow: Nauka (Russian).
  7. Ma, H., Robin, M. O., and Subbotin, S. A. 2008. ITS2 secondary structure and phylogeny of cyst-forming nematodes of the genus Heterodera (Tylenchida: Heteroderidae). Organisms, Diversity and Evolution 8:182–193.
    [CROSSREF]
  8. Madani, M., Vovlas, N., Castillo, P., Subbotin, S. A., and Moens, M. 2004. Molecular characterization of cyst nematode species (Heterodera spp.) from the Mediterranean Basin using RFLPs and sequences of ITS-rDNA. Journal of Phytopathology 152:229–234.
    [CROSSREF]
  9. Mulvey, R. H. 1972. Identification of Heterodera cysts by terminal and cone top structures. Canadian Journal of Zoology 58:1697–1702.
    [CROSSREF]
  10. Norgren, R. L. 1986. First report of Cactodera estonica in the United States. Plant Disease 70:1159.
    [CROSSREF]
  11. Sambrook, J., Fritsch, E. F., and Maniatis, T. 1989. Molecular cloning: A laboratory manual. 2nd ed. Cold Spring Harbor, NY: Cold Spring Harbor Laboratory Press.
  12. Subbotin, S. A., Vierstraete, A., De Ley, P., Rowe, J., Waeyenberge, L., Moens, M., and Vanfleteren, J. R. 2001. Phylogenetic relationships within the cyst-forming nematodes (Nematoda, Heteroderidae) based on analysis of sequences from the ITS regions of ribosomal DNA. Molecular Phylogenetics and Evolution 21:1–16.
    [CROSSREF]

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