Bioscience Biotechnology Research Communications

An International  Peer Reviewed Refereed Open Access Journal

P-ISSN: 0974-6455 E-ISSN: 2321-4007

Bioscience Biotechnology Research Communications

An Open Access International Journal

Paromita Roy1*, Viswa Venkat Gantait2 and Soumendranath Chatterjee1

1Parasitology and Microbiology Research Laboratory, Department of Zoology University of Burdwan, Burdwan – 713104, India

2Zoological Survey of India, M-Block, New Alipore, Kolkata-700053, India

Corresponding author Email: soumen.microbiology@gmail.com

Article Publishing History

Received: 02/04/2019

Accepted After Revision: 25/05/2019

ABSTRACT:

Survey for soil and plant parasitic nematodes associated with paddy (Oryza sativa L.) in Purba Bardhaman district of West Bengal, India revealed the presence of a new plant parasitic species belonging to the genus Tylenchus. The new species Tylenchus scythecaudus sp.  nov. comes close to Tylenchus aquilonios Wu, 1969, Tylenchus cylindricaudus Wu, 1969, Tylenchus hazanensis Wu, 1969, Tylenchus helenae Szczygiel, 1969, Tylenchus quartus Szczygiel, 1969  in having continuous lip region and filliform tail with pointed terminus, those differs from others. The present species differs from all existing species of Tylenchus in having different values of a, b, c, V, short gradually tapering tail with scythe-shaped tail terminus and short post-uterine sac. Tylenchus scythecaudus sp.  nov. is described and illustrated here.

KEYWORDS:

Nematode . New species. Paddy. Tylenchus. West Bengal

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Roy P, Gantait V. V, Chatterjee S. Characterization of a New Plant Parasitic Nematode Isolated from Rhizospheric Soil of Rice-Plants. Biosc.Biotech.Res.Comm. 2019;12(2).


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Roy P, Gantait V. V, Chatterjee S. Characterization of a New Plant Parasitic Nematode Isolated from Rhizospheric Soil of Rice-Plants. Biosc.Biotech.Res.Comm. 2019;12(2). Available from: https://bit.ly/2QOsZXL

Copyright © Roy et al.,, This is an open access article distributed under the terms of the Creative Commons Attribution License (CC-BY) https://creativecommns.org/licenses/by/4.0/, which permits unrestricted use distribution and reproduction in any medium, provide the original author and source are credited.


Introduction

West Bengal is contributing a significant part in India as far as rice production is concerned. Purba Bardhaman district is known as the ‘Grainery of West Bengal’ as it produces maximum amount of rice within the state. Nematodes are tiny creatures causing huge damages to the crop. Species belonging to the order Tylenchida are plant parasitic in nature. A survey for soil and plant parasitic nematodes associated with paddy in Purba Bardhaman district of West Bengal was conducted in view to find out the plant parasitic nematodes associated with this crop. The study encountered a new species of plant parasitic nematode Tylenchus scythecaudus sp. nov from the rhizospheric region of paddy which is an added information of Tylenchid nematode species of this important crop.

The genus Tylenchus was proposed by Bastian (1865) originally and then it was re-established by Filipjev in 1936. The species of this genus are characterized by having smallto medium sized body about 0.4–1.3 mm in length, ventrally curved after fixation, moderately thick cuticle around 1–2 μm, distinctly annulated. Lateral fields having four incisures. Dorso-sublateral, postmedian phasmids present just behind the vulva. Annulated cephalic region continuous with the body. Stylet length varies between 8–21 μm, conus is more than one-third of the total stylet length. Median oesophageal bulb oval shaped which is present anterior to the mid-oesophageal position. Cardia is distinct. In most of them excretory pore is present opposite to the basal bulb. Vulva, a transverse slit like, reproductive organ occupying 60–70% of the total body length. Post-uterine sac generally a body width or often a less long. Round to oval, offset spermatheca is present. Ovary outstretched. Ventrally arcuate tail, sometimes hooked, gradually tapering to a pointed or minutely rounded terminus. Review of literatures of all existing species of Tylenchus revealed that Tylenchus scythecaudus sp. nov. encountered during the survey distinctly differed from others. The species is illustrated here with morphometric details, line diagrams and photomicrographs.

Materials and methods

Soil sample collection

The rhizospheric soil samples were collected from paddy field of Kalna II block of Purba Bardhaman district of West Bengal, India.

Processing of the soil Sample

Nematodes were extracted from the samples following ‘Cobb’s Sieving Technique’ (Cobb, 1918). For this at first 250g soil sample was mixed with water with gentle stirring by hand in a medium sized bucket. The mixing was done in such a way that there was no soil lumps present. The mixture was allowed to rest for few seconds (15-20s) so that the nematodes can float on the upper surface of the water and then sieved.  In the final step of extraction, decanting was done  by following ‘Modified Baerman’s Funnel Method (Christie & Perry, 1951)

Killing and fixation

The nematode samples were killed as well as fixed in hot F.A (Formaldehyde-Acetic acid) solution.

Post fixation process

The nematode samples were further processed by ‘Seinhorst’s Slow Dehydration Method’ (Seinhorst, 1959) in which fixed nematodes were picked in cavity block and allowed them to dehydrate in Glycerin alcohol solution for thirty days. Desiccators were used to keep the cavity blocks. After that the specimens were mounted on slides in glycerin (anhydrous) and sealed. Ocular micrometer of Olympus Research Microscope (Model No. BX 41, with drawing tube attachment) was used for taking the measurements. Dimensions were tabulated following De Man’s Formula (De Man, 1884). Diagrams were drawn using camera lucida. Photomicrographs were captured using Leica Research Microscope (Model No. Leica DM 1000). The species was identified following the keys, made by Siddiqi (2000).

Results and Discussion

Systematics

The following classification is given by Siddiqi (2000)

Tylenchus scythecaudus  sp. nov.  (Figs. 1-10)

Figure captions of Tylenchus scythecaudus sp. nov. in Camera Lucida 1. Entire female 2. Anterior region showing stylet; mediun bulb; nerve ring; terminal bulb and cardia 3. Genital system showing vulva; ovary; receptaculum seminis 4. Posterior region showing gonad, rectum, anus 5. Scythe-shaped tail terminus Figure 1: captions of Tylenchus scythecaudus sp. nov. in Camera Lucida

  1. Entire female
  2. Anterior region showing stylet; mediun bulb; nerve ring; terminal bulb and cardia
  3. Genital system showing vulva; ovary; receptaculum seminis
  4. Posterior region showing gonad, rectum, anus
  5. Scythe-shaped tail terminus
captions of Tylenchus scythecaudus sp. nov
Figure 2: 
captions of Tylenchus scythecaudus sp. nov in Photomicrographs
  1. Entire female
  2. Anterior region showing stylet; mediun bulb; nerve ring; terminal bulb
  3. Genital system showing vulva; ovary; receptaculum seminis
  4. Posterior region showing rectum; anus
  5. Scythe-shaped tail terminus and anus


Measurements

All measurements are provided in Table 1.

Table 1: Measurements of Tylenchus scythecaudus. sp. nov. (in µm, except L in mm)

Morphometric characters Holotype female Paratype females

(n=4)

L 0.45 0.450-0.472 (0.461 ±0.008)
A 31.2 31.2-31.7(31.4 ± 0.194)
B 5.2 5.2-5.3(5.24 ± 0.054)
c 5.2 5.2(0)
c’ 11.6 11.4-12.5(11.8 ± 0.418)
V 56.7 55.6-56.8(56.44 ± 0.482)
V’ 70 69.6-70.0(69.9 ± 0.173)
G1 31.4 30.7-31.4(31.06 ± 0.270)
G2 0.55 0.55-0.63(0.574 ± 0.033)
Width of lip 2.6 2.2-2.8(2.4 ±0.189)
Total Stylet length 9.7 9-10(9.6 ±0.380)
Median bulb from anterior end 32.3 38.5-40(32.96 ± 0.996)
Median bulb diameter 4.2×3.4
Oesophageal  length 85.75 85.5-88.6 (86.67 ± 1.18)
Nerve ring from anterior end 44.5 44.2-48.4(45.4 ± 1.60)
Hemizonid from anterior end 65.5 65.3-67.8(66.34 ± 1.00)
Length of terminal bulb 17.15 17.2-20.2(18.05 ± 1.252)
Length of cardia 1.2 1.2-2.2(1.55 ± 0.3728)
Maximum body width 14.5 14.3-15(14.6 ± 0.264)
Vulva from anterior end 257.3 256-262.8(259.8 ± 3.05)
Body width at vulva 11.2 11-11.7(11.26 ± 0.219)
Anterior genital branch 142 140.5-145 (142.88 ± 1.710)
Posterior genital branch 2.5 2.5-3 (2.66 ± 0.207)
Body width at anus 7.4 7-7.9 (7.46 ± 0.320)
Rectum 17.3 17-18.5 (17.56 ± 0.513)
Tail length 85.8 85-90.5 (87.6 ± 2.22)
Vulva-anal distance 110.2 109.3-114.2 (111.9 ± 2.11)
m 37.4 33.3-38.7 (36.84 ± 2.100)
O 72 72 (0)
VL/VB 17.78 17.5-17.9 (17.7 ± 0.158)


The following abbreviations are used in the text and table

a= body length/maximum body diameter, b= body length/oesophageal length, c= body length/tail length, c’= tail length/body width, V= (position of vulva from anterior end/body length from) × 100, V’= (position of vulva from head tip/distance of anus from head end) × 100, G1= (length of anterior female gonad /body length) × 100, G2= (length of posterior  female gonad /body length) × 100, m= length of conus/total stylet length, O=  (distance between orifice of dorsal oesophageal gland and stylet/stylet length) × 100, VL/VB= distance of vulva to posterior end of the body/vulval body width.

Descriptions

Female

Body slender, small about 0.450-0.472 (0.461 ± 0.008) mm long, uniformly tapering; ventrally curved at vulval region, tail end dorsally bended, scythe shaped (Fig.1). Cuticle with transverse annulations; lateral fields with four incisures. weakly developed deirids, located near end of oesophagous. Lip amalgamated, continuous with the body i.e. not set off. Stylet is well developed about 9-10 (9.6 ± 0.380) µm, conus about 37% of stylet length; basal knobs prominent. Orifice of dorsal oesophageal gland nuclei present in very close proximity to the stylet base. Median bulb well developed, more or less oval in shape (4.2×3.4) µm, located at the position of 38% of total oesophageal length from anterior extremity. The terminal oesophageal bulb about 17.2-20.2 (18.05 ± 1.252) µm, sac like, occupying about 20% of total oesophageal length; two oesophageal gland nuclei prominent. Excretory pore present at the beginning of terminal oesophageal bulb.

Hemizonid present at 76.3% of oesophageal length from head end and anterior to excretory pore, cardia small about 1.2-2.2(1.55 ± 0.3728) µm, cone shaped, about 0.46 times of lip region width and occupying 9.6% of corresponding body width. Reproductive system prodelphic. Vagina thin walled, present at right angle to the body, occupying about half of corresponding body width. Anterior genital branch about 140.5-145 (142.88 ± 1.710) µm in length, occupying  98% of total gonadal length. The post-uterine sac rudimentary with pointed tip, only about 0.23 times of corresponding body width. Receptaculum seminis (spermatheca) distinct, well set off and filled with sperms. Ovary with a single row of oocytes, except terminal region.  Rectum about 17-18.5 (17.56 ± 0.513) µm, 2.3 times anal body width long. Tail filliform, 85-90.5 (87.6 ± 2.22) µm long with pointed terminus, 0.77 times of vulva-anal distance; tail terminus scythe-shaped and bended dorsally.

Male

Male not found.Type habitat and locality

Specimens were collected from the rhizospheric soil of Oryza sativa L.  by the first author in 20th October 2016 from Kalna II block (23.168391º N, 88.245036º E ) of Purba Bardhaman district, West Bengal, India.Type materials: Specimens were deposited to the National Zoological Collections of Zoological Survey of India, Kolkata, West Bengal, India under the Registration No. WN 1948 (Slide with Holotype female and two Paratype females).

Etymology

The new species is named Tylenchus scythecaudus as it bears scythe shaped tail terminus.

Differential diagnosis and relationships

Tylenchus scythecaudus sp.  nov.  differs from all existing species of  Tylenchus in having short, gradually tapering tail with scythe-shaped tail terminus and short post-uterine sac.

Tylenchus scythecaudus sp.  nov. comes close to T. aquilonios Wu, 1969, T. cylindricaudus Wu, 1969, T. hazanensis Wu, 1969, T. helenae Szczygiel, 1969, T. quartus Szczygiel, 1969  in having continuous lip region and filliform tail with pointed terminus, those differs from others.

The species is similar to Tylenchus aquilonios Wu, 1969  in having continuous lip region, filliform tail but the present species differs from it in having small body size, smaller values of a, b, c, V, shorter oesophageal length, lesser vulval body width, shorter post-uterine branch, lesser vulva-anal distance and short tail with scythe-shaped terminus, (L= 0.803 mm, a= 35, b= 6.7, c= 6.9, V= 68, oesophageal length= 144-153 µm, post-uterine branch= 13-15 µm, body width at vulval region= 19-26 µm, vulva-anal distance= 115-149 µm, tail length and shape= 116 µm; tapering gradually to a pointed terminus in Tylenchus aquilonios Wu, 1969).

The present species is similar with Tylenchus  cylindricaudus Wu, 1969 in having slender, gradually tapering body with continuous lip region, filliform tail with pointed terminus but  differs from it in having smaller body size, lesser values of a, b, c, V, slightly shorter stylet, short post-uterine branch, lesser body width at vulva, reduced vulva-anal distance, shorter tail and different shape of tail terminus (L= 0.95mm, a= 41, b= 6.9, c= 6.6, V= 66, stylet length= 11-13 µm, oesophageal length= 127-137 µm, post-uterine branch= 11-14 µm, body width at vulval region= 19-21 µm, vulva-anal distance=183 µm, tail length= 147 µm, shape of tail terminus is straight filliform in Tylenchus cylindricaudus Wu, 1969). T. scythecaudus sp. nov. is similar to Tylenchus hazanensis Wu, 1969 in having rounded head with continuous lip region and filliform tail with needle like pointed terminus but  varies from it in smaller body size, smaller values of a, b, c, V, smaller stylet, shorter oesophageal length, presence of annules at mid-tail region, lesser vulval body width, shorter post-uterine branch, lesser vulva-anal distance and short tail with scythe-shaped tail terminus (L= 02 mm, a= 38, b= 6.8, c= 4.7, V= 62, stylet length= 15.5 µm, oesophageal length= 149-165 µm, mid-tail annulation absent, vulva-anal distance= 178 µm, tail length= 224 µm and tail terminus shape is straight filliform, needle like in case of Tylenchus hazanensis Wu, 1969).

The present species  is again similar with Tylenchus helenae Szczygiel, 1969 in having small slender body, continuous lip region with body,  filliform pointed tail, needle like tail terminus but differs from it in having  larger body length, larger values of a, b, c, V, larger stylet, more anterior position of median bulb in oesophagous, smaller post-uterine sac, presence of spermatheca, distinct anus and scythe- shaped tail end (L= 0.43 mm, a= 37, b= 4.6, c= 3.6, V= 57.5, position of median bulb in pharynx at 43%, size of post-uterine sac is large, more than one body diameter long, spermatheca absent, anus obscure, long filliform tail ending with a needle like terminus in Tylenchus helenae Szczygiel, 1969). Tylenchus scythecaudus sp.  nov.  shows similarities with Tylenchus quartus Szczygiel, 1969 in having similar body contour viz. delicate, slender, gradually tapering body with continuous lip region and filliform tail but the present species differs from it in having shorter body length, smaller value of a, c, V, but larger values of b, lesser value of G1, shorter stylet length, presence of distinct knobs, oval shaped median bulb, dorsally bended scythe-shaped tail (L= 0.56 mm, a= 39.5, b= 4.7, c= 5.3, V= 65.2,  stylet length= 11.8 µm, conspicuous basal knobs, elongate fusiform median bulb, uniformly tapering tail with very sharp pointed terminus in Tylenchus quartus Szczygiel, 1969).

References

Bastian, H.C. (1865). Monograph on the Anguillulidae, or free nematoids, marine, land and freshwater; with description of 100 new species, Trans. Linn. Soc. Lond ., 25: 73-184, pls 9-13

Christie, J.R., Perry, V.G. (1951). Removing nematodes from soil. Proc. Helminthol. Soc. Wash., 18: 106-108

Cobb, N.A. (1918). Estimating the nema population of the soil. Agricultural Technology Circular I. Bureau of Plant Industry, United States, Department of Agriculture, pp 48

De Man, J.G. (1884). Die frei in derreinen Erde und imsüssen Wasserlebenden Nematoden der niederlandischen Fauna, Leiden 206 pp

Egunjobi, O.A. (1967). Four new species of the genus Tylenchus Bastian, 1865 (Nematoda: Tylenchida) Nematologica, 13: 417-424, doi:10.1163/187529267×00652

Filipjev, I.N. (1936). On the classification of the Tylenchinae. Proc. Helminthol. Soc. Wash., 3: 80-82

Seinhorst, J.W. (1959). A rapid method for the transfer of nematodes from fixative to anhydrous glycerine. Nematologica, 4: 67-69, doi:10.1163/187529259X00381

Siddiqi, M.R. (2000). Tylenchida: Parasites of Plant and Insects. CABI Publishing. UK. 804 pp

Szczygiel, A. (1969). A new genus and four new species of subfamily tylenchinae  de Man, 1876 (Nematoda: Tylenchidae) from Poland. Opusc. Zool. Budapes.,t IX (1):159-170

Wu, L.Y. (1969). Five new species of Tylenchus Bastian, 1865(Nematoda: Tylenchida) from the Canadian high Artic. Can. J. Zool., 47:1005-1010, doi:10.1139/z69-162 10.1139/z69-162