Journal of Oceanology and Limnology   2021, Vol. 39 issue(2): 683-692     PDF       
http://dx.doi.org/10.1007/s00343-020-9292-5
Institute of Oceanology, Chinese Academy of Sciences
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Article Information

YANG Peipei, LIU Mengdi, GUO Yuqing
One new species and one new record species of Sphaerolaimus (Nematode, Sphaerolaimidae) in offshore wetlands, China
Journal of Oceanology and Limnology, 39(2): 683-692
http://dx.doi.org/10.1007/s00343-020-9292-5

Article History

Received Nov. 7, 2019
accepted in principle Dec. 25, 2019
accepted for publication Mar. 19, 2020
One new species and one new record species of Sphaerolaimus (Nematode, Sphaerolaimidae) in offshore wetlands, China
Peipei YANG, Mengdi LIU, Yuqing GUO     
Fisheries College, Jimei University, Xiamen 361021, China
Abstract: One new species and one new record species of Sphaerolaimus are described. Sphaerolaimus longispiculatus sp. nov. is characterized by body length 2 213-2 470 μm, amphideal fovea 12%-16% corresponding body diameters in males and 9%-10% corresponding body diameters in females, long slender spicules 2.8-3.8 cloacal body diameters, eight small papilliform precloacal supplements, gubernaculum without apophysis, and tail conico-cylindrical, 2.5-3.7 cloacal/anal body diameters long. Sphaerolaimus gracilis is recorded from the first time in the mangroves wetlands, it can be distinguished from the original desceiption by longer spicules (66-71 μm vs 56 μm) and wider body (a=20.1-21.4 vs 25).
Keywords: free-living marine nematodes    taxonomy    Sphaerolaimus longispiculatus sp. nov.    
1 INTRODUCTION

The genus Sphaerolaimus was established by Bastian in 1865 (Bastian and Lond, 1865). It is characterized by buccal cavity surrounded by a solid, heavily sclerotized buccal capsule. Inner lining of oesophagus is strongly cuticularized. Groups of subcephalic setae are absent in first two juvenile instars, with 4-6 groups in the third stage, and 8 groups in the fourth stage juvenile and adult (Warwick et al., 1998). There are 38 species currently considered valid in genus Sphaerolaimus (Warwick, 1973; Leduc and Zhao, 2017; Bezerra et al., 2019).

To study the species diversity of free-living marine nematodes in offshore wetlands in China, especially mangrove wetlands, sediment samples have been collected from multiple sites in the intertidal to the sublittoral regions in recent years. Up to now, over 20 novel species of free-living marine nematode from the mangroves wetlands have described (Chen and Guo, 2015; Guo et al., 2015, 2018; Li and Guo, 2016). This study describes one new and one new record Sphaerolaimus species in order to enrich the biodiversity of marine nematodes.

List of valid Sphaerolaimus species

S. abeskunus Tchesunov, 1980

S. anterides Inglis, 1961

S. arcospiculum Allgén, 1959

S. balticus Schneider, 1906

= S. bretonicus Kreis, 1929

= S. ditlevseni Kreis, 1924

S. caspius Tchesunov, 1980

S. crenellatus Warwick, 1973 S. cuneatus Paramonov, 1929

S. ferulaceus Gourbault & Boucher, 1981 S. glaphyrus Vitiello, 1971

S. gracilis De Man, 1876

= S. buetschlii Schulz, 1932

= S. demani Filipjev, 1922

= S. setosus Paramonov, 1927

S. haurakiensis Leduc, D. & Zhao, Z., 2017

S. hirsutus Bastian, 1865

S. ibericus Freudenhammer, 1975 S. kleini Jensen, 1992

S. lamasus Gerlach, 1956

S. latilaimus Allgén, 1958

S. limosus Fadeeva, 1983

S. lutarius Gourbault & Boucher, 1981

S. macrocirculoides Wieser, 1954

S. macrocirculus Filipjev, 1918

S. maeoticus Filipjev, 1922

S. makrolasius Schulz, 1932

S. megamphis Wieser, 1956

S. micropapillatus Tchesunov & Miljutin, 2006

S. minutus Vitiello, 1971

S. occidentalis Turpeenniemi, 1997

S. ostreae Filipjev, 1918

S. pacificus Allgén, 1947

S. papillatus Kreis, 1929

S. paragracilis Vitiello, 1971

S. penicilus Gerlach, 1956

S. peruanus Freudenhammer, 1975

S. profundus Vitiello, 1971

S. rivalis Gagarin, 2014

S. solivagus Galtsova et al., 1980

S. tenuis (Kreis, 1924) Schuurmans Stekhoven, 1935

S. uncinatus Freudenhammer, 1970

S. valentinae Tchesunov, 1987

Doubtful species

S. abyssorum Allgén, 1933

S. asetosus Allgén, 1952

S. brevicollis Ssaweljev, 1912

S. duplex Allgén, 1952

2 MATERIAL AND METHOD

Samples were collected from Baiha Island in Xiamen City (118.370°E, 24.531°N) and Maoling River mangrove wetlands in Qinzhou City (108.2860°E, 21.5212°N). Samples were collected by pushing a modified syringe with an inner diameter of 2.9 cm into the sediment to a depth of 5 cm, and then fixed with 5% formalin. In the laboratory, samples were slowly washed through mesh of 500 μm and 38 μm with tap water until the majority of clay and silt were washed out, and then extracted marine nematode from the sediment by the Ludox centrifugation (Warwick et al., 1998). Each extracted sample was stained with rose Bengal for more than 24 h, and the meiofauna were counted and classified under a stereomicroscope. Marine nematodes were transferred into an embryo glass dish containing by volume 5% glycerine, 5% pure ethanol, and 90% freshwater (McIntyre and Warwick, 1984), and left in a desiccator for a week. This allows the ethanol and water to evaporate slowly and leave marine nematodes in pure glycerol. The observations were performed using differential interference contrast microscopy (Nikon 80i), and the morphology was drawn using a camera lucida.

All measurements are in μm, and all curved structures are measured along the arc. Abbreviations are as follows: a=body length/maximum body diameter, b=body length/oesophagus length, c=body length/tail length, c'=tail length/anal body diameters, V=vulva distance from anterior end. All holotypes and paratypes are deposited in the Institute of Oceanology, Chinese Academy of Sciences, Qingdao, China.

3 SPECIES DESCRIPTION

Family Sphaerolaimidae Filipjev, 1918

Subfamily Sphaerolaiminae Filipjev, 1918

Genus Sphaerolaimus Bastian, 1865

3.1 Sphaerolaimus longispiculatus sp. nov. (Figs. 1-3, Table 1)
Fig.1 Sphaerolaimus longispiculatus sp. nov. (part 2-1) a. lateral view of female head; b. lateral view of male anterior part; c. lateral view of male tail and spicule; d. lateral view of female tail. Scale bar=100 μm.
Fig.2 Sphaerolaimus longispiculatus sp. nov. (part 2-2) a. total body of male; b. total body of female; c. lateral view of female reproductive system; d. lateral view of copulatory apparatus. Scale bar: a, b=100 μm; c=50 μm; d=20 μm.
Fig.3 Sphaerolaimus longispiculatus sp. nov. a. lateral view of male head (buccal cavity); b. lateral view of male head (amphideal fovea); c. cervical setae of female; d. lateral view of copulatory apparatus; e. lateral view of female head (subcephalic setae); f. pre-cloacal supplements; g. total body of female; h. total body of male; i. male tail and spicule; j. female tail. Scale bar. a-f=10 μm; g-j=50 μm.
Table 1 Morphometrics (μm) of Sphaerolaimus longispiculatus sp. nov. and Sphaerolaimus gracilis
3.1.1 Basic information

Type material

Four males and two females: Holotype: ♂1 on slide number XMBHJ201504B1017. Paratypes: ♂2 on slide number XMBHJ20140907BM1112, ♂3 on XMBHJ201504AM1006, ♂4 on XMBHJ201406073109, ♀1 on XMBHJ201406071110, and ♀2 on XMBHJ20140907BU1106.

Type locality and habitat

All the specimens were collected from Baiha Island in Xiamen City in June and September 2014, and April 2015. 118.370°E, 24.531°N, subtidal environment, muddy sediment. Total nitrogen, 1.31 mg/g; total phosphorus, 0.40 mg/g; organic carbon, 1.72%; sulfide, 16.89×10-6 mg/g.

Etymology

The species name is composed of the Latin adjective longus and spiculatus, and related to its long spicules.

Measurement

The measurements of the species are shown in Table 1.

3.1.2 Description

Male: Body stout, tapering slightly towards both extremities. Cuticle with obvious transverse striations. Buccal cavity opening surrounded by six small lips with inner labial papillae at the lip base, outer labial sensilla indistinct. Four cephalic setae about 3-μm long. Eight groups of 2-3 subcephalic setae, 3-12-μm long. Multiple rows of somatic setae, 8-11-μm long, extending from level of amphids to cloaca, most dense in pharyngeal region and becoming gradually sparser posteriorly. Amphideal fovea circular, with cuticularized outline, 12%-16% corresponding body diameters. Buccal cavity barrel-shaped and heavily cuticularized, 55-58-μm long and 32-36-μm wide. Numerous longitudinal cheilostomal ridges in anterior part of buccal cavity, and posterior part of buccal cavity with three plate-like structures. Pharyngeal wall with thick cuticle along entire length. Cardia small, surrounded by intestinal tissue. Nerve ring at approximately 34%-36% of pharynx length from anterior. Excretory pore 193-216 μm from anterior end of body, at 34%-40% of the pharyngeal region length.

Reproductive system diorchic with two outstretched testes. Spicules 2.8-3.8 cloacal body diameters long, slightly curved, cephalated proximally and pointed distally. Gubernaculum 53-73-μm long, without apophyses. Eight small papilliform precloacal supplements. Tail conico-cylindrical, the end slightly swollen with three terminal setae, 16-18 μm. Three caudal glands and spinneret present.

Female: Similar to male in general characteristics, except smaller amphideal fovea, 9%-10% corresponding body diameters. Reproductive system monodelphic, with single anterior outstretched ovary situated at the right or left of intestine. Vulva located at about 83% of the body. Ovoviviparity.

3.1.3 Diagnosis and discussion

Sphaerolaimus longispiculatus sp. nov. is characterized by body length 2 213-2 470 μm, amphideal fovea 12%-16% corresponding body diameters in males and 9%-10% corresponding body diameters in females, slender spicules 2.8-3.8 cloacal body diameters long, eight small papilliform precloacal supplements, gubernaculum without apophysis, and tail conico-cylindrical, 2.5-3.7 cloacal/anal body diameters long.

Sphaerolaimus longispiculatus sp. nov. can be differentiated from most other species of the genus by its long spicule. S. longispiculatus sp. nov. resembles S. cuneatus, S. hirsutus, S. kleini, S. macrocirculoides, S. macrocirculus and S. penicillus in having long spicule. S. longispiculatus sp. nov. can be distinguished from S. cuneatus by lower values of a (15.8-18.6 vs 21.0-24.0) and spicule morphology. S. longispiculatus sp. nov. can be differentiated from S. hirsutus by total body length (2 213-2 470 μm vs 2 700-3 300 μm in S. hirsutus) and the shape of gubernaculum (gubernaculum flaky vs gubernaculum small, roughly triangular in S. hirsutus). S. longispiculatus sp. nov. differs from S. kleini in the longer body length (2 213-2 470 μm vs 1 142-1 300 μm), smaller amphideal fovea (9%-16% corresponding body diameters vs 22%-45% corresponding body diameters), and longer spicules (280-320 μm vs 73-80 μm). S. longispiculatus sp. nov. differs from S. macrocirculoides in the longer body length (2 213-2 470 μm vs 1 500 μm), the number and length of subcephalic setae (eight groups, 3-12 μm vs six groups, 10-12 μm). S. longispiculatus sp. nov. can be distinguished from S. macrocirculus by smaller amphideal fovea (9%-16% corresponding body diameters vs 20%-34% corresponding body diameters in S. macrocirculus), and shorter tail length (2.5-3.7 cloacal/anal body diameters vs 4.7-5.7 cloacal/anal body diameters in S. macrocirculus). S. longispiculatus sp. nov. can be distinguished from S. penicillus by length of subcephalic setae (3-12 μm vs 42 μm), size of amphideal fovea (9%-19% corresponding body diameters vs 27% corresponding body diameters in S. penicillus), and the number of precloacal supplements (8 vs 1).

3.2 Sphaerolaimus gracilis (Figs. 4-6, Table 1)
Fig.4 Sphaerolaimus gracilis (part 2-1) a. lateral view of male anterior part; b. lateral view of male head; c. lateral view of female head; d. lateral view of male tail and spicule; e. lateral view of female tail; f. lateral view of copulatory apparatus. Scale bar =20 μm
Fig.5 Sphaerolaimus gracilis (part 2-2) a. total body of male; b. total body of female; c. lateral view of female reproductive system. Scale bar=50 μm
Fig.6 Sphaerolaimus gracilis a. lateral view of male head (amphideal fovea); b. lateral view of male head (cephalic setae; subcephalic setae); c. lateral view of female head (buccal cavity); d, e. copulatory apparatus; f. vulva region; g. total body of male; h. male tail with two rows of setae; i. total body of female; j. male tail and spicule; k. female tail. Scale bar. a-f, i-k=10 μm; g=20 μm; h=100 μm.
3.2.1 Basic information

Type material

Two males and two females. ♂1 on slide number MLJ2018020211. ♂2 on slide number MLJ2018020206, ♀1 on MLJ2018020201, ♀2 on MLJ2018020215.

Type locality and habitat

All the specimens were collected from Maoling River mangroves wetlands in Qinzhou City in February 2018, 108.286 0°E, 21.521 2°N, intertidal zone, muddy sediment.

3.2.2 Description

Male: body cylindrical, tapering slightly towards both extremities. Cuticle with faint transverse striations. Eight rows of somatic setae, 10-11-μm long, more numerous in esophageal region than in midbody. Inner labial and outer labial sensilla indistinct, four cephalic setae 6 μm-long. Eight groups of 2-4 subcephalic setae, 6-16-μm long. Two additional setae located immediately anterior to amphideal fovea. Amphideal fovea circular, with cuticularised outline, 28%-32% corresponding body diameters. Buccal cavity barrel-shaped and heavily cuticularised, 31-33-μm long and 20-21-μm wide. Numerous longitudinal cheilostomal ridges in anterior part of buccal cavity. Pharyngeal wall with heavily cuticularised along entire length. Cardia small, partially surrounded by intestine. Nerve ring at approximately 50%-53% of pharynx length from anterior. Secretory-excretory system not observed.

Reproductive system diorchic with two outstretched testes. Spicules 1.4-1.5 cloacal body diameters long, arcuate. Gubernaculum with 24-32-μm long, heavily cuticularised and curved apophysis, proximal portion of gubernaculum surrounding spicules. Precloacal supplements not observed. Tail conico-cylindrical, with two rows of subventral setae and two rows of subdorsal setae. Three terminal setae, 11-12-μm long. Three caudal gland and spinneret present.

Female: similar to males but with smaller amphideal fovea, 20%-24% corresponding body diameters, and longer tail length. Reproductive system monodelphic and prodelphic, with single anterior outstretched ovary located to the left of intestine, no spermatheca observed. Vulva situated at 69% of the body; vaginal glands present on either side of proximal portion of vagina.

3.2.3 Diagnosis and discussion

The specimens examined here closely resemble the description of Lorenzen (1969) based on specimens from the north of Husum, although the Maoling River mangroves wetlands specimens possess slightly longer spicules (66-71 μm vs 56 μm) and wider body (a=20.1-21.4 vs 25).

4 DATA AVAILABILITY STATEMENT

All data generated and/or analyzed during this study are available from the corresponding author on reasonable request.

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