Skip to main content
NCBI home page
Biodiversity Data Journal logoLink to Biodiversity Data Journal
. 2016 Apr 7;(4):e8029. doi: 10.3897/BDJ.4.e8029

Description of a new species of Acrostichus Rahm 1928 (Nematoda: Diplogastridae) from India with a note on its position and relationship with the congeners

Qudsia Tahseen ‡,, Shikha Ahlawat , Mohammad Asif , Malka Mustaqim
PMCID: PMC4867705  PMID: 27226756

Abstract Abstract

Background

The clade Diplogastridae Micoletzky 1922 largely represents the bacterivorous or predatory nematodes that very often demonstrate phoretic, necromenic or parasitic associations with insects (Sudhaus and Fürst von Lieven 2003). That is the reason, much of the diversity of the family remains undocumented because of their absence from routine soil samples. Due to their variable habitats and niches, these nematodes show ample variation in their stomal armature, feeding behavior and life cycle patterns.

New information

The paper describes and illustrates a new diplogastrid species of genus Acrostichus Rahm 1928 that appears to be the link between the genera Diplogastrellus Paramonov et al. 1952a and Acrostichus. Acrostichus medius n. sp. is characterised by hermaphroditic females and males having faintly striated longitudinal ridges, demarcated lateral fields, amalgamated lips, six adradial cheilostomal plates, moderately-built dorsal tooth, relatively smaller posterior genital branch; large oval uterine pouch and males with robust, heavily cuticularised spicules, each with hood-like capitulum, deeply forked distal end with fine extensions and a ventral attenuated arm; gubernaculum 2/3 of spicule length and rudiments of bursa confined to posterior four pairs of genital papillae. The biogeographical distribution of Acrostichus has been mapped and the relationship between congeners has been analysed cladistically and discussed.

Keywords: Acrostichus medius n. sp., description, taxonomy, cladistic relationship

Introduction

About the genus Acrostichus Rahm, 1928

The genus Acrostichus was raised by Rahm (1928) when he reported and described Acrostichus toledoi as its type species. Goodey (1951) synonymised it with the genus Diplogaster Schultze in Carus 1857. Later, Paramonov et al. (1952a) raised the genus Diplogasteritus (type species Diplogaster nudicapitatus Steiner 1914) based on the presence of longitudinal cuticular ridges, narrow and long stoma, distinctly separated cheilostom from rest of stoma, presence of a dorsal tooth distinctly larger than subventral teeth. Diplogasteritus was demarcated by another genus Diplogastrellus in the number of genital branches which were paired (opposed) in the former and single (anterior) in the latter. Paramonov et al. 1952a inсludеd ninе spесiеs in Diplogаstеritus viz., D. nudiсаpitatus (Steiner 1914), D. filiсаudаtus (Bütschli 1874), D. rhodani (Steiner 1914), D. consobrinus (De Man 1920), D. demаni (Schneider 1923), D. minutus (Kreis 1929), D. аustriасus (Fuchs 1938), D. supеrbus (Paesler 1946) and D. oсcidentalis (Steiner 1932). However, in his monograph, Paramonоv (1964) inсludеd fifteen valid spесiеs in Diplogаstеritus. Weingärtner (1950) considered eight species viz., Diplоgаstеr (Diplogastеr) dепdrophilus Weingärtner 1950, D. (D.) сonsobrinus De Man 1920, D. (D.) austriасus Fuchs 1938, D. (D.) nudiсаpitаtus Steiner 1914, D. (D.) supеrbus Paesler 1946, D. (D.) stoесkhеrti Völk 1950, D. (D.) linеаtus Fuchs 1915 аnd D. (D.) subtеrrаnеus Hnatewytsch 1929 under ‘nudicapitatus’ species group under the genus and subgenus Diplogaster. Massey (1962) synonymised Diplogasteritus with Acrostichus considering the former as a junior synonym and recognized a total of nineteen species under it with A. toledoi as type species. Goodey (1963) considered Diplogasteritus as a valid genus and endorsed Weingärtner (1950) concept of ‘nudicapitatus’ group along with listing eight species viz., D. апgustilаimus (Schuurmans Stekhoven and Teunissen 1938), D. brеviсаudаtus (Schuurmans Stekhoven and Teunissen 1938), D. еurуcеphаIus (Völk 1950), D. lаbiаtus (Соbb in Merrill and Ford 1916), D. lirаtus (Schneider 1866), D. minutus (Kreis 1930), D. occidеntalis (Steiner 1932) and D. zurstrаssеni (Saсhs 1950) thus making the number of species in the genus sixteen, however, he regarded Acrostichus as a genus inquirendum. Lazarevskaja (1965) splitted Acrostichus into Acrostichus and Filipjevella by placing 5 species under the latter and F. minimus Lazarevskaja 1965 as its type species, which was later proposed as a junior synonym of Diplogasteritus as well as Acrostichus. Andrássy (1984) recognized the two genera, and differentiated Acrostichus by having unpaired, anterior female gonad and Diplogasteritus by paired female gonad. While considering Filipjevella a junior synonym of Diplogasteritus, he diagnosed the latter genus with the presence of a large rounded, offset uterine pouch opposite vulva. Andrássy (1984) inсludеd 23 spесiеs in Diplogаstеritus. Gagarin (2002) while endorsing Andrássy's view, published a review of the genus Diplogasteritus and after several synonymizations considered eight valid species in the genus. Earlier, Fürst von Lieven and Sudhaus (2000) accepted Diplogastrina as a suborder of Rhabditida and gave an outline phylogeny of this taxon based on comparative functional morphology of the buccal cavity. Subsequently, in their catalogue of the Diplogastridae, Sudhaus and Fürst von Lieven (2003) regarded Diplogasteritus, Filipjevella and Aduncospiculum Giblin and Kaya 1984 as junior synonyms of Acrostichus and considered 28 valid species under the latter. They also accepted only 28 genera out of the 83 published genera under Diplogastridae. Three more species A. rhyncophori, A. megaloptae and A. puri have been added later to the genus by Kanzaki et al. (2009); Kanzaki et al. (2010b), Kanzaki et al. (2010a) respectively, thus making a total of 31 valid species under Acrostichus. Seinhorst et al. (1959b) raised a new family Titilleinae for the new genus Titilleus based mainly on structure of gubernaculum and considered Acrostichus, Diplogasteritus, Peterngus Ahmad et al. 2004 and Aduncospiculum as other subordinate genera. He also described three new species viz., D. major, D. microsus and D. teloporosus under the genus Diplogasteritus.

Materials and methods

Collection, processing, extraction and taxonomic study

The soil and water samples were processed using Cobb (1918) sieving and decantation and modified Baermann’s funnel techniques. The nematodes were extracted and fixed in hot formalin-glycerol fixative, dehydrated by the slow evaporation method (Seinhorst et al. 1959a) and mounted in anhydrous glycerine. Permanent slides were prepared using the paraffin wax-ring method (De Maeseneer and D’ Herde 1963). The measurements were taken with an ocular micrometer. LM photographs were taken with a Jenoptik ProgRes digital camera mounted on an Olympus BX-51 DIC microscope. For Scanning Electron Microscopy (SEM), the specimens were fixed in 2% glutaraldehyde, post-fixed in 2% osmium tetroxide, dehydrated in alcohol series and critical point dried using CO2. The mounted nematodes were coated with 10 nm gold before viewing at 10 kV with an XL30 FEG scanning electron microscope.

Thirty morphological characters were selected to compare 20 species of Acrostichus which showed relatively detailed description (Table 2). The species with insufficient morphological details could not be included in comparison. All the selected characters were important with good taxonomic value. The characters were ranked on the basis of commonality principle. Character state ‘0’’ represented the most commonly occurring trait whereas a gradual increase in value represented more deviation. Data matrix (Table 3) was prepared and single parsimonious tree was retrieved (Fig. 1) for analyses using PAUP (version 4.0 b10) (Swofford 2001) under a parsimony criterion with a heuristic search with TBR (Tree Bisection Reconnection) branch-swapping options.

Table 2.

Characters and character states for comparison of species of Acrostichus Rahm 1928.

S. No. Character Character state
1 Female body length up to 0.7 mm (0), more than 0.7 mm (1)
2 Transverse striations inconspicuous (0), fine (1), prominent (2)
3 Longitudinal ridges fine (0), prominent (1)
4 Shape of lip region truncate (0), rounded (1)
5 Lip region continuous (0), set off with a depression (1)
6 Labial sensilla papilliform (0), raised / setose (1)
7 Adradial plates faint (0), prominent (1)
8 Shape of stoma narrow tubular (0), wide tubular (1)
9 Stoma length: width equal (0), two times (1), 2.5-3 times (2)
10 Size of dorsal tooth small (0), large (1)
11 Shape of dorsal tooth thorn-shaped (0), claw-shaped (1), weakly triangular (2)
12 Size of subventral teeth small (0), hardly visible (1)
13 Shape of median bulb swollen (0), ovoid (1), elongate (2)
14 Valve plates of median bulb moderately developed (0), strong (1)
15 Shape of glandular part pyriform (0), rounded (1)
16 Uterine pouch small chamber (0), spacious complex chamber (1), absent (2)
17 Vulval lips protruding (0), non protruding (1)
18 Shape of spicules arcuate (0), straight (1), with angular process (2)
19 Size of spicules moderately long (0), massive (1)
20 Head of spicule rounded (0), rectangular/ hood-shaped (1), feebly marked (2)
21 Distal end of spicule pointed (0), flanged (1), blunt/ rounded (2), hooked (3), divided (4)
22 Shape of gubernaculum trough shape (0), complex with pieces (1), balloon-like (2)
23 Proximal end of gubernaculum tapering/ claw-like (0), peg like /or blunt (1), other type (2)
24 Distal end of gubernaculum pointed with spines/processes (0), pointed without processes (1), blunt without spines (2), complex/hooked (3), with disjointed end (4)
25 Gubernaculum vs spicule length half (0), up to two-third (1), almost equal to spicule (2), about 1/3 (3)
26 GP1 and GP2 closely placed (0), slightly spaced (1), widely spaced (2)
27 Number of precloacal papillae two (0), three (1)
28 Post cloacal grouped papillae GP 6-8 (0), GP 5-7 (1)
29 Number of post cloacal papillae six (0), seven (1)
30 Tail shape conical spike (0), long filliform (1)
Open in a new tab

Table 3.

Data matrix for cluster analysis of the species Acrostichus Rahm, 1928.

Taxa (T): 1 - A. austriacus; 2 - A. concolor; 3 - A. consobrinus; 4 - A. dendrophilus; 5 - A. gubernatus; 6 - A. halicti; 7 - A. lazarevskajae; 8 - A. lineatus; 9 - A. medius n. sp.; 10 - A. megaloptae; 11 - A. minimus; 12 - A. nudicapitatus; 13 - A. occidentalis; 14 - A. primitivus; 15 - A. pterygatus; 16 - A. puri; 17 - A. rhyncophori; 18 - A. stoeckherti; 19 - A. superbus; 20 - A. taedus; 21 - Diplogastrellus cerea.

For characters see Table 2.

T Characters
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30
1 1 1 0 0 0 1 1 1 2 0 0 1 0 1 0 0 0 0 0 0 0 0 1 0 2 0 1 0 0 0
2 0 1 1 0 0 0 0 0 2 1 1 0 0 1 0 1 0 0 0 0 0 0 0 1 2 0 0 0 0 0
3 1 1 0 1 0 1 1 1 1 0 0 1 1 0 0 1 0 0 0 1 1 0 0 1 2 0 1 0 0 1
4 1 0 1 0 0 0 1 0 1 0 0 1 0 1 0 1 1 0 1 2 1 0 0 0 1 0 0 0 0 1
5 0 1 0 1 0 0 1 1 1 1 1 0 0 1 0 1 0 0 0 0 0 0 1 2 2 0 0 2 0 0
6 1 0 1 0 0 0 1 1 2 1 1 1 0 1 0 0 0 2 1 3 1 1 2 2 0 0 1 0 0 0
7 0 0 1 0 0 0 0 0 2 0 1 0 1 1 0 0 1 0 0 0 4 0 0 2 1 0 0 1 0 0
8 1 0 1 0 0 1 1 0 0 0 0 1 1 0 0 0 0 0 0 1 2 0 0 1 0 0 1 1 0 0
9 1 1 0 1 0 0 0 0 2 0 2 0 1 1 0 1 1 0 1 1 1 0 1 2 1 0 1 0 0 1
10 1 1 1 1 0 0 1 0 2 1 0 0 0 1 0 1 1 1 0 0 1 1 2 3 0 1 1 0 0 0
11 0 1 1 0 1 0 0 1 1 0 1 1 1 0 0 0 1 0 0 0 1 0 0 0 1 0 0 0 0 1
12 1 2 1 0 1 0 1 1 0 0 1 0 0 1 0 1 0 0 0 0 0 0 0 0 2 0 0 0 0 1
13 0 0 1 0 0 1 1 0 0 0 0 0 1 0 0 1 0 0 0 0 0 0 1 0 2 0 0 0 0 0
14 0 0 1 0 0 0 1 0 2 1 1 0 0 1 1 0 0 2 0 0 0 1 1 0 1 0 1 0 0 0
15 0 2 1 0 0 0 0 0 1 1 1 0 0 1 0 0 1 0 0 0 0 0 1 1 0 0 0 1 0 0
16 1 0 1 1 0 0 1 1 0 1 1 1 0 1 0 0 1 2 0 1 2 1 2 2 0 0 1 0 0 0
17 0 1 1 1 0 0 1 0 0 1 1 0 0 1 0 1 0 0 1 0 0 1 0 0 2 0 1 0 0 0
18 0 0 1 0 0 0 0 0 1 0 0 1 0 1 0 0 1 0 0 0 0 0 0 1 1 1 0 0 1 1
19 1 2 1 0 0 1 1 1 1 0 0 0 0 1 0 0 0 0 1 1 0 0 0 0 1 0 1 0 0 1
20 0 1 1 0 0 0 0 0 2 1 1 0 0 1 0 0 0 1 1 0 0 0 0 4 2 0 0 0 0 1
21 1 1 0 0 0 1 0 0 2 0 2 1 1 0 0 2 0 0 0 0 4 2 2 1 3 2 1 0 0 1
Open in a new tab

Figure 1.

Figure 1.

Open in a new tab

Phylogram showing relationship between species of Acrostichus Rahm 1928 based on morphological data with Diplogastrellus cerea as an outgroup.

Taxon treatments

Acrostichus medius sp. n.

urn:lsid:zoobank.org:author:E2679573-3F6B-4221-8817-AFB63266528D

Materials

  1. Type status: Holotype. Record Level: type: Acrostichus medius; modified: NOQ; language: English; rightsHolder: Aligarh Muslim University; bibliographicCitation: Tahseen et al.; institutionID: amu.ac.in; collectionID: urn:lsid:zoobank.org:author:E2679573-3F6B-4221-8817-AFB63266528D; institutionCode: AMU; collectionCode: NOQ

Description

Hermaphrodite female (Figs 2, 3, 4, 5, 6, 7 and Table 1): Body slender, medium to large-sized; almost straight after fixation, tapering at both extremities. Cuticle with fine transverse striations; longitudinal ridges delicate, striated (Figs 3e, 4a, e, 5b). Punctations faint, dot-like, running along longitudinal ridges (Fig. 4a). Lateral fields demarcated with two conspicuous ridges about 3–5 µm apart. Lip region continuous with adjoining body. Lips amalgamated; labial sensilla slightly raised. Amphidial apertures elliptical, 2.5–3.5 µm wide and situated about 5–7 µm from anterior end of stoma (Fig. 2c). Cheilostom cuticularised, converging anteriorly with six adradial plates, gymnostom anisomorphic with dorsal wall thickened than sub-ventrals. Stegostom anisotopic, anisomorphic. Dorsal metastegostomal wall with a triangular tooth, each sub-ventral wall provided with relatively smaller tooth (Figs 2c, 3a, b). Pharyngeal corpus muscular, swollen 70–88 µm long; metacorpus, rounded to ovoid strongly developed with thickened lumen, more or less oblong in few specimens; isthmus conspicuously differentiated from metacorpus, 33–45 µm long. Basal bulb small, pyriform, glandular in nature, continuous with isthmus, 16–22 µm x 13–17 µm in dimension (Figs 2d, 3d). Nerve ring encircling isthmus at 67–74% of pharyngeal length from anterior end. Secretory-excretory pore placed posterior to nerve ring or at 81–85% of pharyngeal length from anterior end (Figs 2d, 3e). Body at pharyngeal end 3.5–4.4 times labial diam. wide. Cardia 5–7 µm long. Intestine thin-walled, often with a bacterial pouch present in anterior part. Rectum 1.2–1.5 times anal body diam. long, with three rectal glands. Reproductive system didelphic, amphidelphic; ovaries reflexed, not reaching the level of vulva (Fig. 4b, c); anterior ovary on right side and posterior on left side of intestine. Posterior genital branch usually smaller as compared to anterior branch (Fig. 6b, c, d). In several individuals, the posterior branch represented by a post-uterine sac (Fig. 6e). Oocytes arranged in double row in proliferation zone of each ovary. Oviduct a narrow tube leading to a wider ovoid spermatheca (Fig. 4b). The proximal end of spermatheca showing cluster of sperms (sh) developed within the hermaphrodite’s gonad. Uteri containing 2–4 eggs of 50–56 µm x 29–32 µm in dimension occasionally in early stage of segmentation. Each uterus with a large ovoid to kidney-shaped dorsal bi- or trilocular pouch connected to vagina mostly filled with larger sperms (sm) transferred as a result of copulation (Fig. 7). Vagina 17–21 µm, cuticularised, forming an ovijector with thick lumen occupying about 1/4th of corresponding body diam.; epiptygma present (Figs 4c, 7b). Vulval lips slightly protruding. Distance between vulva-anus 0.7–0.9 times tail length. Tail long filiform with a fine pointed terminus.

Acrostichus medius n. sp. (all lateral)

Figure 2a.

Figure 2a.

Entire female

Figure 2b.

Figure 2b.

Entire male

Figure 2c.

Figure 2c.

Female anterior end

Figure 2d.

Figure 2d.

Female pharyngeal region

Figure 2e.

Figure 2e.

Female anterior genital branch

Figure 2f.

Figure 2f.

Male cloacal region

Open in a new tab

Acrostichus medius n. sp. (scale bar: 10 µm).

Figure 3a.

Figure 3a.

Anterior end (lateral)

Figure 3b.

Figure 3b.

Anterior end (lateral)

Figure 3c.

Figure 3c.

Metacorpal region

Figure 3d.

Figure 3d.

Female pharyngeal region (lateral)

Figure 3e.

Figure 3e.

Female pharyngeal region showing secretory-excretory pore (scanning electron microscopy)

Open in a new tab

Acrostichus medius n. sp. (scale bar: 10 µm)

Figure 4a.

Figure 4a.

Body region showing lateral fields

Figure 4b.

Figure 4b.

Female anterior genital branch (lateral showing hermaphrodite’s sperms (sh) and male sperms (sm)

Figure 4c.

Figure 4c.

Uterine region (lateral) with ovijector

Figure 4d.

Figure 4d.

Vulval region with post-uterine sac

Figure 4e.

Figure 4e.

Vulval region (scanning electron microscopy)

Open in a new tab

Acrostichus medius n. sp. (scale bar: 10 µm).

Figure 5a.

Figure 5a.

Male cloacal region (lateral)

Figure 5b.

Figure 5b.

Male cloacal region (ventro-lateral)

Figure 5c.

Figure 5c.

Tail region showing rudimentary bursa

Figure 5d.

Figure 5d.

Extracted spicule

Figure 5e.

Figure 5e.

Extracted gubernaculum

Open in a new tab

Female Reproductive system in Acrostichus medius n. sp. (scale bar: 10 µm).

Figure 6a.

Figure 6a.

Both genital branches equal

Figure 6b.

Figure 6b.

Gradual reduction in posterior genital branch

Figure 6c.

Figure 6c.

Gradual reduction in posterior genital branch

Figure 6d.

Figure 6d.

Gradual reduction in posterior genital branch

Figure 6e.

Figure 6e.

Posterior branch with rudimentary ovary

Open in a new tab

Variations in Uterine pouch in Acrostichus medius n. sp. (scale bar: 10 µm)

Figure 7a.

Figure 7a.

Uterine pouch with attached rudimentary ovary

Figure 7b.

Figure 7b.

Wide uterine pouch

Figure 7c.

Figure 7c.

Uterine pouch with several chambers

Figure 7d.

Figure 7d.

Elongated uterine pouch

Open in a new tab
Table 1.

Morphometric characteristics (measurements in µm) of Acrostichus medius n. sp.; mean ± standard deviation (range).

Characters Acrostichus medius n. sp.
Holotype male Paratype female
(n=10) 		Paratype male
(n=10)
Body length 613 821.0 ± 27.5 (764– 867) 659.5 ± 27.6 (611– 715)
Body diameter 33 51.0 ± 7.2 (41– 63) 36.9 ± 2.2 (33– 40)
a 18.6 16.3 ± 2.0 (13.0– 19.6) 18.0 ± 1.1 (15.2– 19.5)
b 5.6 6.0 ± 0.1 (5.7– 6.3) 5.1 ± 0.2 (4.8– 5.5)
c 4.1 3.2 ± 0.1 (3.1– 3.6) 3.7 ± 0.4 (3.1– 4.7)
c’ 5.8 11.1 ± 1.7 (9.2– 15.8) 6.4 ± 0.7 (5.6– 7.6)
V/T 49.7 44.7 ± 1.0 (43.0– 46.9) 50.4 ± 3.6 (43.6– 55.5)
G1 - 26.0 ± 2.4 (21.3– 29.0) -
G2 - 18.9 ± 2.8 (14.2– 22.7) -
Lip height 3 2.3 ± 0.4 (2– 3) 2.2 ± 0.4 (2– 3)
Lip diameter 7 11.1 ± 0.4 (8– 12) 7.9 ± 0.8 (7– 9)
Stoma length 12 13.6 ± 0.6 (12– 16) 12.2 ± 0.6 (12– 14)
Stoma diameter 3 4.5 ± 0.6 (3– 5) 3.9 ± 0.3 (3.0– 4.5)
Pharynx length 109 136.4 ± 2.1 (133–140) 127.6 ± 5.0 (109– 136)
Nerve ring– ant. end 83 106.4 ± 2.9 (100– 110) 100.0 ± 3.8 (83– 108)
Secretory-excretory pore– ant. end 96 118.4 ± 2.8 (115– 125) 116.3 ± 4.8 (96– 122)
Rectum Length 25 27.5 ± 2.0 (25– 30) 33.5 ± 2.3 (25– 37)
Anal body diameter 26 22.8 ± 2.6 (16– 25) 27.6 ± 1.5 (25– 30)
Tail length 151 249.7 ± 14.9 (228– 274) 178.7 ± 16.0 (151– 195)
Spicule length 39 - 42.0 ± 2.1 (36– 44)
Gubernaculum length 25 - 32.5 ± 1.9 (25– 35)
Open in a new tab

Male (Figs 2b, f, 5 and Table 1): Similar to female in general appearance but shorter in length and strongly curved in posterior region. Testis single, laterally reflexed, reflexed part 45–52 µm long. Vas deferens a long tube with a tapering ejaculatory duct joining with rectum to form cloaca. Spicules strongly built, heavily cuticularised, strongly arcuate in proximal half, 1.3–1.5 times anal body diam. long with elongated hood-like capitula, a distinct neck and distal part deeply bifurcated with fine extensions and an attenuated ventral arm separated from main body of spicule (Figs 2f, 5a, d, e). Gubernaculum stout, heavily built, 70–82% of spicule length, proximally tapering and curved and distal end with slight protuberances (Figs 2f, 5e). Tail in two parts, an anterior short, conoid part and a posterior long, filamentous part. Genital papillae ten pairs with three precloacal, one adcloacal and six postcloacal pairs. Precloacal pairs GP1 and GP2 closely placed, subventral; GP3 lateroventral. GP4 at level of cloaca. Postcloacal pairs GP5 closely posterior to cloaca; GP6 subventral, more or less one cloacal body diameter posterior to cloaca and nearly at level of phasmids. GP10 subdorsal pair placed slightly posterior to the group of subventrals GP7, GP8 and GP9 (Figs 2f, 5b, c). A membranous rudiment indicating bursa, occasionally confined to posterior most genital papillae including three subventral pairs and one dorsally directed pair (Figs 2f, 5c). Copulatory muscles representing 5-6 pairs of broad bands. Phasmids pore-like, about one anal body diam. posterior to anal opening.

Diagnosis

Acrostichus medius n. sp. is characterised by female hermaphrodites having a medium-sized body with cuticle bearing faintly striated longitudinal ridges; lateral fields demarcated with two conspicuous ridges; lips amalgamated, labial sensilla small, papilliform; cheilostom with six adradial plates; dorsal tooth moderately-built slightly larger than subventrals; posterior genital branch relatively smaller; dorsal uterine pouch large, multilocular, oval to rounded occasionally filled with sperms and males with robust, heavily cuticularised spicules with hood-like capitula, appearing deeply forked distally with fine extensions and a ventral attenuated arm; gubernaculum 2/3 of spicule length with curved and tapering proximal end and distal end with slight protuberances; bursa almost absent with rudiments confined to posterior four genital pairs.

Etymology

The species name ‘medius’ is a latin word that indicates the intermediate status of the species showing a blend of characters of Acrostichus and Diplogastrellus.

Distribution

Samples containing Acrostichus medius n. sp. were collected from soil rich in organic matter near State Bank of India at Aligarh, Uttar Pradesh, India at geographical coordinates 27°53'35"N, 78°4'27"E.

Ecology

Acrostichus is a genus with species reported from all the continents except Australia although biogeography of the genus indicates larger distribution in subtropical to temperate regions (Fig. 8). The individuals have been found to inhabit soil, fresh and polluted water and more specifically reported from aquatic mulm or slime flux or sewage; from soil to rotten decaying matter or from moist husk to rotten plants and from dung to frass of beetles. Most species are bacteriophagous but like other diplogastrids, may also feed on protozoa, fungi and nematodes (Bento et al. 2010).

Figure 8.

Figure 8.

Open in a new tab

Biogeographical distribution of species of Acrostichus Rahm 1928.

Conservation

Due to inhabiting diverse environment types, the species show extensive diversity reflecting phenotypic plasticity. The variations in the shape of buccal cavity which can be shallow and broad, or narrower and deeper, and the variations in size and shape of dorsal tooth are few such examples.

Biology

A. medius n. sp. shows hermaphrodite females and males in the population. It demonstrates a gradual reduction in posterior genital branch in several specimens up to the extent of a reminiscent post-uterine sac. Such unique feature indicates towards its transitional status in the evolutionary process showing affinities to both the related yet distinct genera Acrostichus and Diplogastrellus.

Taxon discussion

Relationship with closely related species

Acrostichus medius n. sp. most closely resembles A. consobrinus (De Man 1920) Massey 1962 in most morphometric characteristics but differs in having smaller ‘a’ (13.0–19.6 vs 20.5–24.3) and greater ‘c' (9.2–15.8 vs 7–8) values in females and smaller ‘a’ value (15.2–19.5 vs 25.7–29.5) in males; labial sensilla papilliform (vs setose); faint (vs conspicuous) adradial plates; stoma narrow tubular (vs wide tubular); dorsal tooth small (vs robust), slightly larger (vs markedly larger) than subventrals; spicules with prominently demarcated dorsal and ventral arms having fine distal extensions (vs arms not demarcated into arms and genital papillae ten pairs (vs nine pairs) in A. consobrinus.

Acrostichus medius n. sp. also resembles A. superbus (Paesler 1946) Massey 1966 in most morphometric characteristics but differs in having smaller ‘a’ value in females (13.0–19.6 vs 20.0–24.4) and males (15.2–19.5 vs 25.5–30.2); labial sensilla papilliform (vs setose); faint (vs conspicuous) adradial plates; stoma narrow tubular (vs wide tubular); gymnostom (strongly vs weakly) cuticularised; subventral metastegostomal teeth relatively larger (vs smaller); basal bulb continuous with isthmus (vs distinctly demarcated); males with broad, massive (vs slender, arcuate) spicules having prominent dorsal and ventral arms (vs arms not demarcated) and genital papillae ten pairs (vs nine pairs) in A. superbus apud Weingärtner 1950 and Gagarin 2002).

The new species comes close to A. dendrophilus (Weingärtner 1950) Massey 1966 in most morphometric characteristics but differs in having smaller ‘a’ value (13.0–19.6 vs 23.3–30.7) in males; smaller ‘b’ value (5.7–6.3 vs 6.8–8.6) in females; greater ‘c’ (3.1–3.6 vs 2.0–3.0) and ‘V’ (43.0–46.9 vs 33.7–36.7) values; labial sensilla papilliform (vs setose); males with broad, massive (vs slender, arcuate) spicules; hood-shaped (vs rounded) capitula; spicules having prominent dorsal and ventral arms (vs arms not demarcated) and genital papillae ten pairs (vs eight pairs) in A. dendrophilus apud Gagarin 2002.

The new species also resembles A. lazarevskajae (Lazarevskaja 1964) Sudhaus and Fürst von Lieven 2003 in most allometric ratios but differs from it in having larger body size (L= 764-867 µm vs 365-430 µm in females and 611-715 µm vs 290-441 µm in males); greater 'ć' value (9.2-15.8 vs 6.6) and large-sized spicules (36-44 µm vs 23-25 µm) in males; spicules massive (vs slender) with elongated hood-like (vs rounded capitula) and distal part deeply bifurcated (vs bearing very fine spines at tip) and presence [vs absence of an attenuated ventral arm separated from main body of spicules in A. lazarevskajae apud Lazarevskaja 1964].

Notes

Most of the species of the genus have been described on very flimsy characteristics hence many of them are likely to be synonymous. We tried to have a comparative assessment of the morphological characteristics of most species. Of the total nominal species, few could not be included largely due to insufficient descriptions available.

Analysis

Remarks

A. medius n. sp. is unique in having a blend of features of Diplogastrellus and Acrostichus. The species with nearly 1:1 sex ratio in natural population shows hermaphroditism with smaller sperms (sh) stored in spermatheca and the larger ones (sm) filling up the uterine pouch. It may be possible that like Caenorhabditis elegans, the males’ sperms besides being larger, have an edge over the hermaphrodites’ sperms in fertilizing the ova. The robust spicules with furcate distal ends, are unique for the genus as well as for Diplogastridae. The well developed and cuticularised ovijector presumably is to complement such spicules during the process of copulation. The gubernaculum, however, shows similarity to those found in several species of Acrostichus including A. superbus.

Discussion

Taxonomic status and affinities of new species

The genus Acrostichus is typified by the species A. toledoi Rahm 1928. However, the original description of the species lacks some vital information and the illustrations include only the pharyngeal region as well as the male tail region. Massey (1962) considered Acrostichus toledoi to be a true representative of the genus with stoma much longer than wide, longitudinal striations prominent, female with a reniform spermatheca and male with massive gubernaculum, almost to the size of spicules and tails of both sexes long and filiform. Andrássy (1984), Andrássy (2005) emphasized on the monovarial condition of the species and, therefore, considered Acrostichus to be representative of all monodelphic-prodelphic species. However, the reniform spermatheca of A. toledoi seems synonymous to the dorsal uterine pouch which also makes the presence of a single anterior genital branch without a posterior extension, doubtful. Thus A. toledoi seems to possess an anterior well developed genital branch and a reduced posterior genital branch occasionally represented by a post-uterine sac. In this perspective, the presence of a relatively well-built upright dorsal tooth, uterine pouch, robust spicules and equally large gubernaculum in A. toledoi confirms the status of Acrostichus as a senior synonym to Diplogasteritus thus supporting the views of Kiontke and Sudhaus (1996). Considering the criterion of single anterior gonad, the species does not seem to enjoy enough affinities with other mono-prodelphic species that belong to genus Diplogastrellus. It is also a fact that despite its placement along with other species of Acrostichus, the species A. toledoi shows some unusual features viz., relatively greater body length (1–1.9 mm vs <1mm), relatively elongate (vs ovoid) metacorpus, greater ‘V’ value (64 vs 35–50) and larger spicules (80 µm vs <40 µm in most species of the Acrostichus). Nevertheless, in the shape of spicules and gubernaculum, the species resembles A. superbus or looks like a close relative of A. nudicapitatus, A. taedus and A. gubernatus. The relative lengths of both genital branches in supposedly amphidelphic genus Acrostichus, are likely to be variable hence an unreliable character. The present species A. medius n. sp. serves a good example demonstrating a gradual reduction in posterior genital branch (Figs 6b, c, d, e, 7a) in several specimens up to the extent of a reminiscent post-uterine sac. The species also shows variation in the shape of metacorpus that ranged from ovoid to elongate-rectangular type making it a less consistent character for differentiation. It is clearly evident that the representative species of Acrostichus clade possess both narrow- and wide tubular but thick-walled stoma with strongly cuticularised dorsal tooth mostly upright and straight or arcuate. Concurrently, the metacorpus in species having narrow tubular stoma is elongate and rectangular type while the species with broader stoma possess a swollen and ovoid metacorpus. Undoubtedly, the uterine pouch is a diagnostic character of Acrostichus as also of its junior synonym Diplogasteritus. Another reliable feature of the former is the presence of very closely placed precloacals, GP1 and GP2. Thus the amended diagnosis of the genus is as follows:

Amended diagnosis of genus

Genus Acrostichus can be characterized by the presence of transverse cuticular striations, usually prominent longitudinal ridges; narrowed to truncate lip region; stoma longer than wide consisting of a cuticularized cheilostom with six adradial plates, metastegostom anisotropic, armed with thorn or dagger-like, cuticularized, dorsal tooth and usually smaller subventral teeth; pharynx typically diplogasteroid with metacorpus usually swollen and ovoid, rarely elongate; female gonad primarily amphidelphic with an elongate to bilobed uterine pouch serving as spermatheca, posterior genital branch occasionally reduced; males without bursa, with large cephalated, well-built spicules and usually massive gubernaculum, of variable shape, genital papillae GP1 and GP2 closely placed, tails of both sexes usually filiform.

Most of the species of the genus have been described on sketchy characteristics hence many of them are likely to be synonymous as suggested by Andrássy (1984). The species A. angustilaimus (Schuurmans Stekhoven and Teunissen 1938) Massey (1966) has a poor description and illustrations and has also been synonymized with D. lineatus by Gagarin (2002). Others like A. paramicrostoma (Schuurmans Stekhoven 1943) Sudhaus and Fürst von Lieven 2003, A. brevicauda (Schuurmans Stekhoven 1951) Sudhaus and Fürst von Lieven 2003, A. brevicaudatus (Schuurmans Stekhoven and Teunissen 1938) Sudhaus and Fürst von Lieven 2003, A. filicaudatus (Bütschli 1874) Sudhaus and Fürst von Lieven 2003 and A. likoi (Kokordák 1969) Sudhaus and Fürst von Lieven 2003 show insufficient morphological descriptions with the latter two reported on the basis of individuals of one sex only. A. liratus (Schneider 1866) Sudhaus and Fürst von Lieven 2003 was described with poor description and no measurements. A. lazarevskajae (Lazarevskaja 1964) Sudhaus and Fürst von Lieven 2003, Lazarevskaja 1964, without a proper description, is a new name to Acrostichus minimus Lazarevskaja 1964. Further, the species with some anomalies or atypical features were not selected for comparison. A. paxi described from five females and five males from decaying wood by Paramonov et al. (1952b) shows a gubernaculum equal to spicules but atypical of Acrostichus as also considered species incertae sedis by Gagarin (2002). A. pterygatus (Timm 1961) Massey 1966 though included in the comparison also shows some unusual features like punctations and the dissimilar stomal armature. Diplogaster minor Cobb 1893 as synonymised with A. minutus (Kreis 1930) Massey 1966 does not seem to fit in because of presence of a single gonad in female (apud Cobb 1893) whereas D. minor apud Maupas 1900 shows too wide stoma without characteristic armature. Some of the disparities of descriptions include: descriptions of A. concolor apud Massey 1962, Massey 1966 with varying number (6 vs 8) of male genital papillae and variation in the shape and size of gubernaculum. Likewise A. taedus described by Massey (1962), Massey (1966) do not correspond in the number (7 vs 9) and configuration of genital papillae. A. minimus (Lazarevskaja 1964) Sudhaus and Fürst von Lieven (2003) as described by Gagarin (2002) shows a disparity in the size of gubernaculum as stated in the text with that shown in illustration.

Of the characters taken for cluster analysis (Fig. 1, Table 2) of twenty species of Acrostichus Rahm 1928, the stomal characteristics, the presence of uterine pouch, the shape and size of spicules and gubernaculum and the genital papillae as well as the tail shape seem to be important differentiating characters. In the constructed phylogram, Diplogastrellus cerea Kiontke and Sudhaus 1996 a species of closely related genus stands out from all species of Acrostichus Rahm 1928. A. medius n. sp. occupies an intermediate position between the outgroup species and other congeners. The next close relative to A. medius n. sp. comes to be A. consobrinus (De Man 1920) Massey 1962. However, all the selected species of Acrostichus show a more or less orderly grouping. Nevertheless, in the phylogram two large and one small subgroups could be figured out that largely reflect species with closer affinities. The subgroup representing the largest aggregate includes A. halicti (Giblin and Kaya 1984) Sudhaus and Fürst von Lieven 2003, A. puri Kanzaki et al. 2010a, A. megaloptaeKanzaki et al. 2010b, A. primitivus (Gagarin 2002) Sudhaus and Fürst von Lieven 2003 and A. pterygatus (Timm 1961) Massey 1966 the former three species shows closer affinity. Another group comprises of A. dendrophilus (Weingärtner 1950) Massey 1966, A. stoeckherti (Weingärtner 1950) Massey 1966, A. miminus and A. lazarevskajae with the former three species having more relatedness. A. taedus Massey 1962 enjoys affinity with both subgroups. Rest of the species A. concolor Massey 1962, A. rhyncophori Kanzaki et al. 2009, A. gubernatusMassey 1974, A. nudicapitatus (Steiner 1914) Massey 1962, A. occidentalis (Steiner 1932) Massey 1962 and A. lineatus (Fuchs 1915) Massey 1962 show a staircase arrangement with more or less an orderly grouping except A. аustriасus (Fuchs 1938) Massey 1962 and A. superbus (Paesler 1946) Massey 1966 which show closer affinities. The clustering groups indicate similarity largely in having slightly to moderately arcuate, simple spicules, trough-shaped, robust gubernaculum of 75-100% of spicule length (Fig. 9). The species A. rhyncophori Kanzaki et al. 2009 is unique in the lot with gubernaculum having bifid processes distally. Titilleus shahinae Seinhorst et al. 1959b shows striking similarity with the latter and has been raised mainly on the basis of bifid processes of gubernaculum termed as titillae; hence the status of the genus Titilleus is doubtful and T. shahinae Seinhorst et al. 1959b seems to be a junior synonym of A. rhyncophori Kanzaki et al. 2009.

Figure 9.

Figure 9.

Open in a new tab

Comparison of stoma, spicule and gubernaculum of selected species of Acrostichus Rahm 1928 and Diplogastrellus cerea Kiontke and Sudhaus 1996 (modified from the original drawings). (A) A. аustriасus (Fuchs 1938) Massey 1962; (B) A. concolor Massey 1962; (C) A. pterygatus (Timm 1961) Massey 1966; (D) A. taedus Massey 1962; (E) A. rhyncophori Kanzaki et al. 2009; (F) A. gubernatus Massey 1974; (G) A. nudicapitatus (Steiner 1914) Massey 1962; (H) A. occidentalis (Steiner 1932) Massey 1962; (I) A. halicti Giblin and Kaya 1984; (J) A. megaloptae Kanzaki et al. 2010b; (K) A. puri Kanzaki et al. 2010a; (L) A. primitivus (Gagarin 2002) Sudhaus and Fürst von Lieven 2003; (M) A. superbus (Paesler 1946) Massey 1966; (N) A. dendrophilus (Weingärtner 1955) Massey 1966; (O) A. lazarevskajae (Lazarevskaja, 1964) Sudhaus and Fürst von Lieven 2003; (P) A. stoeckherti Völk 1950; (Q) A. lineatus (Fuchs 1915) Massey 1962; (R) A. consobrinus (De Man 1920) Massey 1962; (S) A. medius n. sp; (T) Diplogastrellus cerea Kiontke and Sudhaus 1996 (figures are schematic and not to scale).

The present species A. medius n. sp. seems to serve as a transitional species in the evolutionary process showing affinities to both the supposedly related yet distinct genera Acrostichus and Diplogastrellus. Besides showing distinctive features of the former viz., thick-walled stoma, a large uterine pouch, primarily amphidelphic female gonad and the closely placed GP1 and GP2, the species shows some distinctive features of Diplogastrellus too. There is a tendency of reduction of female posterior genital branch with few individuals possessing only the post-uterine sac. The narrow tubular stoma with a less prominent, triangular dorsal tooth and an elongate to rectangular metacorpus in few specimens also hint towards its affinity with Diplogastrellus. Thus the close lineage of the two taxa can further be a matter of investigation as A. medius n. sp. seems to be a link between the Diplogastrellus and Acrostichus. It is also a fact that most species of Acrostichus possess prominent cuticular ridges which are often weak or faint in species of Diplogastrellus. A. rhynchophori and A. medius n. sp. form an exception where in addition to faint longitudinal ridges, two prominent ridges are found in the lateral fields. The lip region does not appear to offer any differentiating feature between the two genera as is seen in A. rhyncophori and D. metamasius Kanzaki et al. 2008 which show striking similarities in the lip regions (apud Kanzaki et al. 2009 : Fig. 14 A–C and apud Kanzaki et al. 2008 : Fig. 7 A–C). Likewise, the dorsal tooth in D. indicus Khera 1970 and D. sikorai Khan et al. 2008 appears slightly different from those (Ahmad et al. 2005) typical of Diplogastrellus thus making the feature of stoma and dorsal tooth as weak differentiating characters. Thus the only reliable differentiating features of Acrostichus are the prominent gubernaculum, uterine pouch and the relative close position of the genital papillae GP1 and GP2.

Supplementary Material

XML Treatment for Acrostichus medius
BDJ.4.e8029-treatment1.xml (54.3KB, xml)

Acknowledgements

The financial assistance provided by the University Grants Commission (UGC), Ministry of Environment, Forests and Climate Change (MoEFCC), Department of Science and Technology (DST) and Indian National Science Academy (INSA), New Delhi, is gratefully acknowledged.

References

  1. Ahmad I., Ahmad W., Mahmood M. Peterngus nepenthi gen. n., sp. n. (Diplogastridae) from Pitcher plants in Singapore. International Journal of Nematology. 2004;1:81–84. [Google Scholar]
  2. Ahmad I., Shah A. A., Mahamood M. Nematodes of the order Rhabditida from India. Description of a new and a known species of Diplogastrellus (Diplogastridae). Journal of Nematode Morphology and Systematics. 2005;7:159–168. [Google Scholar]
  3. Andrássy I. Klasse Nematoda (Ordnungen Monhysterida, Desmoscolecida, Araeolaimida, Chromadorida, Rhabditida). In: Bestimmungsbücher zur Bodenfauna Europas. Fischer. 1984;Stuttgart.:509. [Google Scholar]
  4. Andrássy I. Free-living nematodes of Hungary (Nematoda Errantia), I. Pedozoologica Hungarica. 2005;3:518 pp. [Google Scholar]
  5. Bento G., Ogawa A., Sommer R. J. Co-option of the hormone signalling module dafachronic acid-DAF-12 in nematode evolution. Nature. 2010;466:494–497. doi: 10.1038/nature09164. [DOI] [PubMed] [Google Scholar]
  6. Bütschli Ö. Zur Kenntniss der freilebenden Nematoden insbesondere der ferdes Kieler Hafens. Abhandlungen der. Senckenbergischen Naturforschenden Gesellschaft 9 1874
  7. Carus Julius Victor. Icones Zootomicae / Erst Hälfte: Die wirbellosen. Engelmann; Leipzig: 1857. 1-32. [DOI] [Google Scholar]
  8. Cobb N. A. Nematodes, mostly Australian and Fijian. Macleay New South Wales Miscellaneous Publications. (Sydney) 1893;13:3–59. doi: 10.5962/bhl.title.56231. [DOI] [Google Scholar]
  9. Cobb N. A. Estimating the nema population of the soil. U.S. Department of Agriculture. Agricultural Technology Circular. 1918;1:48. [Google Scholar]
  10. De Maeseneer J., D’ Herde J. Méthodes utilisées pour l’étude des anguillules libres du sol. Revue de Agricultural. Bureau. 1963;16:441–447. [Google Scholar]
  11. De Man J. G. Description d´une espèce nouvelle du genre Diplogaster Max Schultze: Diplogaster consobrinus, nov. sp. Annales de la Societe Royale Zoologique de, Belgique. 1920;51:47–54. [Google Scholar]
  12. Fuchs A. G. Die Naturgeschichte der Nematoden und einiger anderer Parasiten. 1. Des Ips typographus L. 2. Des Hylobius abietis L. Zoologische Jahrbuecher (Systematik) 1915;38:109–222. [Google Scholar]
  13. Fuchs A. G. Neue parasiten und halbparasiten bei Borkenkäfern und einige andere Nematoden. Zoologische Jahrbuecher (Systematik) 1938;71:123–190. [Google Scholar]
  14. Fürst von Lieven A., Sudhaus W. Comparative and functional morphology of the buccal cavity of Diplogastrina (Nematoda) and a first outline of phylogeny of this taxon. Journal of Zoological Systematics and Evolutionary Research. 2000;38:37–63. [Google Scholar]
  15. Gagarin V. G. A review of the genus Diplogasteritus Paramonov, 1952 with description of a new species from Central Russia (Nematoda, Diplogasterida: Diplogasteridae) Zoosystematica Rossica. 2002;11:57–73. [Google Scholar]
  16. Giblin R. M., Kaya H. K. Aduncospiculum halicti n. gen., n. sp. (Diplogasterida; Diplogasteroididae), an associate of bees in the genus Halictus (Hymenoptera: Halictidae). Revue de Nèmatologie. 1984;7:189–197. [Google Scholar]
  17. Goodey T. Soil and Fresh water nematodes – a monograph. London. 1951;390:pp. [Google Scholar]
  18. Goodey T. Soil and freshwater nematodes (Revised by Goodey) Methuen; 1963. 544 [Google Scholar]
  19. Hnatewytsch B. Die Fauna der Erzgruben von Schneeberg im Erzgebirge. Zoologische Jahrbuecher (Systematik) 1929;56:173–261. [Google Scholar]
  20. Kanzaki N., Giblin-Davis R. M., Zeng Y., Ye W., Center B. J. Diplogastrellus metamasius n. sp. (Rhabditida: Diplogastridae) isolated from Metamasius hemipterus (L.) (Coleoptera: Dryophthoridae) in southern Florida and Costa Rica. Nematology. 2008;10:853–868. [Google Scholar]
  21. Kanzaki N., Giblin-Davis R. M., Zeng Y., Ye W., Center B. J. Acrostichus rhynchophori n. sp. (Rhabditida: Diplogastridae): a phoretic associate of Rhynchophorus cruentatus Fabricius and Rhynchophorus palmarum L. (Coleoptera: Curculionidae) in the Americas. Nematology. 2009;11:669–688. [Google Scholar]
  22. Kanzaki N., Giblin-Davis R. M., Wcislo W. T., Zeng Y., Ye W., Center Esquivel, A., Thomas W. K. Acrostichus megaloptae n. sp. (Nematoda: Diplogastridae), a phoretic associate of Megalopta spp. (Hymenoptera: Halictidae) Nematology. 2010;12:453–468. [Google Scholar]
  23. Kanzaki N., Giblin-Davis R. M., Zeng Y., Ye W., Center B. J., Thomas W. K. Acrostichus puri n. sp. (Nematoda: Diplogastridae), a phoretic associate of Augochlora pura mosieri Cockerell (Hymenoptera: Halictidae). Nematology. 2010;12:49–64. [Google Scholar]
  24. Khan R., Bajaj H. K., Sultana R., Tahseen Q. Description of Diplogastrellus gracilis (Bütschli, 1876) Paramonov, 1952, Diplogаstеritus sikorai sp. n. and Fictor composticola sp. n. (Nematoda: Diplogastrina) from India. Nematology. 2008;10:153–166. [Google Scholar]
  25. Khera S. Nematodes from the banks of still and running waters. IX. Two new genera belonging to subfamily Diplogasterinae Micoletzky from India. Revista Brasileira de Biologia (Rio de. Janeiro) 1970;30:405–409. [PubMed] [Google Scholar]
  26. Kiontke K., Sudhaus W. Diplogaster (Diplogastrellus) cerea sp. n. from Saguaro cactus rot and a revision of the subgenus Diplogastrellus (Nematoda: Diplogastridae) Nematologica. 1996;42:173–197. [Google Scholar]
  27. Kokordák J. Beitrag Zur Systematik und der Ökologie (der Nematoden) der Koprophagen Käfer. Folia Vet (Brat) 1969;13:143–158. [Google Scholar]
  28. Kreis H. A. Freilebende terrestrische Nematoden aus der Umgebung von Peking (China) Zoologischer Anzeiger. 1929;84:283–294. [Google Scholar]
  29. Kreis H. A. Freilebende terrestrische Nematoden aus der umgebung von Peking (China).2. Zoologischer. Anzeiger. 1930;87:67–87. [Google Scholar]
  30. Lazarevskaja S. L. Acrostichus minimus n. sp. (Diplogasteroididae) - a new nematode of the timberman beetle. (In Russian) Trudy Geologicheskogo Instituta Akademiya Nauk SSSR (Moskva) 1964;14:122–127. [Google Scholar]
  31. Lazarevskaja S. L. Filipjevella gen. n. (Diplogasteroididae). Trudy Geologicheskogo Instituta Akademiya Nauk SSSR (Moskva) 1965;16:63–67. [Google Scholar]
  32. Massey C. L. The genus Acrostichus Rahm, 1928, synonym Diplogasteritus Paramanov, 1952 (Nematoda) Proceedings of the Helminthological Society of Washington. 1966;33:8–13. [Google Scholar]
  33. Massey C. L. New species of Diplogasteridae (Nematoda) associated with bark beetles in the United States. Proceedings of the Helminthological Society of Washington. 1962;29:67–75. [Google Scholar]
  34. Massey C. L. Biology and taxonomy of nematode parasites and associates of bark beetles in the United States. Agricultural Forestry Service (Washington), Agricultural Handbook 446 1974
  35. Maupas E. F. Modes et formea de reproduction des nématodes. Archives de Zoologie Expérimentale et. Générale. 1900;7:563–628. [Google Scholar]
  36. Merrill J. H., Ford A. L. Life history and habits of two new nematodes parasitic on insects. Journal of Agricultural Research. 1916;6:115–127. [Google Scholar]
  37. Micoletzky H. Die freilebenden Erd-Nematoden mit besonderer. Archiv für Naturgeschichte Abteilung. 1922;87:1–650. [Google Scholar]
  38. Paesler F. Beitrag zur Kenntnis der im Dünger Bucht. Kieler Bucht. Kieler Meeresforschungen. 1946;1:1–48. [Google Scholar]
  39. Paesler F. Nematoden in Reisspreu. Beschreibung einiger Arten und Sukzessionserscheinungen. Opuscula Zoologica (Budapest) 1962;4:105–120. [Google Scholar]
  40. Paramonov A. A. Opyt ekologitscheskoi klassificazii fitonematod. Trudy Geologicheskogo Instituta Akademiya Nauk. SSSR (Moskva) 1952;6:338–369. [Google Scholar]
  41. Paramonоv A. A. Fundamentals of Phytohelminthology. Vol. II. Taxonomy of Phytonematodes. Doklady Akademiya Nauk. SSSR (Moskva) [in Russian] 1–447 1964
  42. Rahm G. Alguns nematodes parasitas e semi-parasitas das plantas cultureas do Brasil. Archivos do Instituto de Biológico de Defesa Agricola e Animal (Sao. Paulo) 1928;1:239–251. [Google Scholar]
  43. Saсhs H. Die Nematodenfauna der Rinderexkremente. Eine ökologisch systematische studie. Zoologische Jahrbücher (Systematik) 1950;79:209–272. [Google Scholar]
  44. Schneider W. Niederrheinische freilebende Nematoden. Zoologischer Anzeiger. 1923;56:264–281. [Google Scholar]
  45. Schneider A. F. Monographie der Nematoden. Reimer. 1866;Berlin.:357. [Google Scholar]
  46. Schuurmans Stekhoven J. H. Nèmatodes recueillis dans des grottes et des sources en Belgique. Bulletin du Musée Royal d'Histoire Naturelle de Belgique. Bulletin du Musée Royal d'Histoire Naturelle de Belgique. 1943;19:1–20. [Google Scholar]
  47. Schuurmans Stekhoven J. H. Nématodes saprozoaires et libres du Congo belge. Mémoires de l'Institut Royale des Sciences Naturelles de. Belgique. 1951;39:1–79. [Google Scholar]
  48. Schuurmans Stekhoven J. H., Teunissen R. J.H. Nématodes libres terrestress. Exploration du Parc National Albert, Mission G. F. De Witte (1933-1935) Fasc. 1938;22:1–229. [Google Scholar]
  49. Siddiqi M. R. Descriptions of Titilleus shahinae gen. n., sp. n. and three new species of Diplogasteritus Paramonov (Diplogastridae: Titilleinae subfam n.). International Journal of Nematology. 2015;24:161–173. [Google Scholar]
  50. Seinhorst W. A rapid method for the transfer of nematodes from fixative to anhydrous glycerin. Nematologica. 1959;4:67–69. doi: 10.1163/187529259x00381. [DOI] [Google Scholar]
  51. Steiner G. Freilebende nematoden aus der schweiz. 1. Teil einer vorläufigen Mitteilung. Archiv für Hydrobiologie und Planktonkunde. 1914;9:259–276. [Google Scholar]
  52. Steiner G. Some nemic parasites and associates of the mountain pine beetle (Dendroctonus monticolae) Journal of Agricultural Research. 1932;45:437–444. [Google Scholar]
  53. Sudhaus W., Fürst von Lieven A. A phylogenetic classification of the Diplogastridae (Secernentea, Nematoda) Journal of Nematode Morphology and Systematics. 2003;6:43–90. [Google Scholar]
  54. Swofford D. L. PAUP*. Phylogenetic Analysis Using Parsimony (*and Other Methods). Sinauer Associates. 2001;1:1–140. [Google Scholar]
  55. Timm R. W. Five species of Diplogaster (Nematoda, Diplogasteridae) from East Pakistan. Pakistan Journal of Biological and Agricultural Sciences. 1961;4:1–6. [Google Scholar]
  56. Völk J. Die Nematoden der Regenwürmer und aasbesuchenden Käfer. Zoologische Jahrbuecher (Systematik) 1950;79:1–70. [Google Scholar]
  57. Weingärtner I. Versuch einer Neuordnung der Gattung Diplogaster Schulze 1857 (Nematoda). Zoologische Jahrbuecher (Systematik) 1955;83:248–317. [Google Scholar]

Associated Data

This section collects any data citations, data availability statements, or supplementary materials included in this article.

Supplementary Materials

XML Treatment for Acrostichus medius
BDJ.4.e8029-treatment1.xml (54.3KB, xml)

Articles from Biodiversity Data Journal are provided here courtesy of Pensoft Publishers

RESOURCES