JHR 95: 73-83 (2023) apes Se JOURNAL OR Sheen enicatientt

doi: 10.3897/jhr.95.97490 RESEARCH ARTICLE () Hymenopter a
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https://jhr.pensoft.net Te Imarasional Society of Hymenopeeriss, RESEARCH

Laotris luzulae (Hymenoptera, Braconidae,
Alysiinae, Dacnusini), a new species
from the southwest of England

H. Charles J. Godfray'

| Department of Biology, University of Oxford, South Parks Road, Oxford OX1 3PS, United Kingdom

Corresponding author: H. Charles J. Godfray (charles.godfray@oxfordmartin.ox.ac.uk)

Academic editor: J. Fernandez-Triana | Received 12 November 2022 | Accepted 11 January 2023 | Published 17 February 2023
https://z00bank.org/877F 1 129-B440-4EAF-9744-9E8A9999776F

Citation: Godfray HCJ (2023) Laotris luzulae (Hymenoptera, Braconidae, Alysiinae, Dacnusini), a new species from
the southwest of England. Journal of Hymenoptera Research 95: 73-83. https://doi.org/10.3897/jhr.95.97490

Abstract

Laotris luzulae Godfray, sp. nov. is described in the small genus Laotris Nixon, 1943, (Braconidae,
Alysiinae, Danusini) from five specimens reared from Cerodontha silvatica (Groschke, 1957) (Diptera,
Agromyzidae) mining Luzula sylvatica (Huds.) Gaudin (Juncaceae) in Devon and Gloucestershire in the
southwest of Great Britain. Six further specimens from Somerset caught as adults in the 1950s are also
noted. It differs morphologically from the three described species of Laotris and shows a 4.2% and 6.6%
genetic distance at the CO1 barcode locus from an undescribed North American species and from the
European L. striatula (Haliday, 1839), respectively.

Keywords

Alysiinae, Braconidae, Dacnusini, Europe, Laotris, new species, United Kingdom

Introduction

Laotris Nixon, 1943, is a small genus of Alysiinae (Braconidae) in the tribe Dacnusini;
it was established by Nixon (1943, 1954) to accommodate the rather anomalous spe-
cies, striatula, which Haliday (1839) had described in Alysia Latreille, 1804, with Mar-
shall (1891) moving it to Dacnusa Haliday, 1833. In general shape and body size, this

Copyright H Charles J Godfray. This is an open access article distributed under the terms of the Creative Commons Attribution License (CC
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74 H Charles J Godfray / Journal of Hymenoptera Research 95: 73-83 (2023)

species resembles the many species of Dacnusa, Chorebus Haliday, 1833, and Exotela
Forster, 1863, that largely parasitise Agromyzidae (Diptera), and it was with these
genera that Nixon associated Laotris. However, Grifhiths (1964) argued that it shared
derived characters (in particular the striate second metasomal tergite and the mandi-
ble with a fourth small tooth dorsal to the large middle tooth) with members of the
Coelinius genus-group and he considered Laotris a basal member of that assemblage.
Wharton (1994) agreed with this placement, and considered Laotris to be most closely
related to, and possibly congeneric with, Synelix Forster, 1863 (=Ectilis Nixon, 1943).
Keys to the genera that have at some time been included in Coelinius Nees, 1819, are
provided by van Achterberg (2014) and Zheng et al. (2017) which include Laotris
because of its similar mandibles.

Grifhths (1968) described a second species, L. rupestris, from Poland and Tobias
(1998) a further species, L. minuscularia, from far-east Asian Russia. Laotris striatula is
a parasitoid of Cerodontha (Dizygomyza) luctuosa (Meigen, 1830) (Agromyzidae) which
mines Juncus (Juncaceae) reeds while the single specimen of L. rupestris was reared
from an unidentified species of Cerodontha (Dizygomyza) mining Carex sempervirens
Vill. (Cyperaceae) (Griffiths 1968).

Laotris luzulae is described here based on five specimens reared from Cerodontha
(Dizygomyza) silvatica (Groschke) (Agromyzidae) mining Luzula sylvatica (Huds.)
Gaudin (Juncaceae) in Devon and Gloucestershire in the southwest of Great Britain.
A further six swept specimens were found in unsorted material in the Natural History
Museum, London, UK (NHMUK), also from southwest Britain (Somerset). It differs
in morphology and biology from the previously described species and shows a genetic
divergence of 6.5% from L. striatula at the CO1 mitochondrial barcode locus.

Methods

Material examined

Five specimens of an undescribed species of Laotris were reared from Cerodontha silvatica
in south Gloucestershire and south Devon (full details in type designation below).

In addition, six specimens (three males and three females) were found amongst
unsorted Dacnusini in the NHMUK'’s collections. They too come from the south-
west of England and were collected in the Haddeo Valley, Brompton Regis, Som-
erset (Grid Reference, SS9529) by JF & DMS Perkins on 13.viii.1952. They are
included in the NHMUK’s digital catalogue with codes NHMUK010885170 to
NHMUK010885175.

Material of L. striatula used for genetic analysis was from a collection of five males
and a female reared from Cerodontha luctuosa on Juncus effusus, four from Hessle (Grid
Reference, TA033272; collected 6.xii.2020) and two from Anlaby (Grid Reference,
TA033278; collected 18.1.2021 & 7.ii.2021); both near Hull, Yorkshire in the north

Laotris luzulae sp. nov. FD

of England (BP Warrington, codes A1292-5 [Hessle] and A1303 & A1308 [Anlaby]).
Here and below, “codes” refer to entries in a database of those parasitoid wasps in the
collection of the National Museum of Scotland (NMS, Edinburgh) that have been ex-
amined by the author. ‘Three non-reared specimens in the NMS, and 32 specimens in
the NHMUK, including material studied by Nixon and Griffith, were also examined.

Photographs were taken through a Leica M125C microscope with focus stacking
using Leica LAS X software and final processing in Photoshop.

CO1 sequencing was carried out on legs removed from specimens by the Biodiver-
sity Institute of Ontario at the University of Guelph. To obtain maximum sequence in-
formation, initial Sanger sequencing was supplemented by “next generation” short read
sequencing. Sequence analysis was carried out on the BOLD platform and using the
programme MEGA11 (Molecular Evolutionary Genetics Analysis version 11, Tamura
et al. (2021)). The sequence data is publicly available at http://v4.boldsystems.org/.

Systematics

Laotris luzulae Godfray, sp. nov.
https://zoobank.org/9803187F-B3AF-4EE8-BA3C-853C59EBE858

Type material. Holotype: female (code: NK64), Hencliffe Woods, south Gloucester-
shire, Grid Reference, ST6371, emerged 13.v.2003, in NMS.

Paratypes: female (code: NK62, in NHMUK with digital catalogue num-
ber NHMUK010885191), emerged 27.iv.2002, and male (code: NK63, in NMS),
emerged 7.v.2003, otherwise same data as holotype; two females (codes: NK195,
NK196, deposited in NMS), Steps Bridge, South Devon, Grid Reference, SX801884,
both collected 15.iv.2004 deposited in NMS.

NK62, NK63 & NK64 were reared by DJ Gibbs and NK195 & NK196 by M. Storey.

Description of female (Fig. 1). Size: body length (excluding antennae), 2.3—
2.5 mm; wing length 2.7—-3.0 mm.

Colour. Head black except for labrum, mandibles and part of cheek immediately
above insertion of mandibles which are brown. Antennal scape, pedicel and proximal
part of first flagellar segment brown with rest of flagellum black; palps pale yellow.
Mesosoma black except for small brown patches near base of wings. Legs including
coxae light yellow-brown (in some specimens with base of hind coxa dark) with only
fifth tarsal segment infuscated. Petiole black with rest of metasoma shading from dark
brown anteriorly to black posteriorly.

Head. Antennae with 30 or 31 segments (3 specimens each), approximately equal
in length to wing; first flagellar segment 3.4 times as long as maximally wide, 0.75
times as long as scape plus pedicel; second flagellar segment 2.8 times as long as maxi-
mally wide; distal flagellar segments approximately two times as long as maximally
wide. Head 1.7 times as wide as long in dorsal view, with sparse forward-directed setae

76 H Charles J Godfray / Journal of Hymenoptera Research 95: 73-83 (2023)

Figure |. Laotris luzulae sp. nov. female a general habitus b dorsal view of head and mesosoma C€ ovi-

positor d basal part of forewing e face and mandibles f dorsal view of first and second metasomal tergites

g lateral view of head and mesosoma.

Laotris luzulae sp. nov. Tl.

on occiput and temples; ocelli arranged in an equilateral triangle with OOL almost ex-
actly twice POL; OOL 2.3 times posterior ocellar diameter, a small medial depression
on frons dorsal to the antennal insertions. In lateral view, width of eye approximately
equal to width of cheek with frons slightly protruding beyond eye; clypeus distinctly
protruding. Face at narrowest point half width of head and width and height (meas-
ured from ventral labrum rim to antennal insertion) equal, slightly roughened with
extensive but not dense setae which are ventrally directed along eye margin, medially
directed above labrum, dorso-medially directed on lateral panels of face, and dorsally
directed near mid-line. Clypeus 0.4 times as high as maximum width, its ventral mar-
gin with a narrow carina which is shallowly concave medially and forms distinct angles
at ventral-lateral corners. The clypeus is largely bare or with sparse ventrally directed
setae. Labrum ventrally with dense setae which are approximately equal in length to
height of labrum. Maxillary palps six-segmented and reaching to a little before middle
of mesopleuron, last segment 6 times as long as wide and 1.3 times length of penulti-
mate segment. Labial palps four-segmented. Mandible more or less parallel-sided, 1.9
times as long as medially wide, with a long central tooth and subequal first and last
teeth; a small fourth tooth appears as an outgrowth on anterior edge of central tooth
(not posterior edge as in many Chorebus spp.).

Mesosoma. Mesosoma in lateral view 1.4—1.5 times as long as high. Pronotum
dorsally with a medial pit; laterally largely hairless, smooth and shining above oblique
suture, with some rugosity around its margins. The oblique suture is rugose with some
setae below. Mesoscutum dorsally 1.1—1.2 times as broad as long, anteriorly rough-
ened, its surface covered with backwardly directed setae except for posterior lateral
margins. Notaulices well-developed as a series of connected pits that converge on,
but do not quite meet, the postero-medial fovea. Fovea elongate, 6—7 times as long as
wide. Prescutellar furrow 3 times as broad as long, with a medial longitudinal costa and
indistinct sub-medial costae. Scutellum smooth with backwardly directed setae, espe-
cially at margins and posterior apex. Postscutellum with backwardly pointed setae and
a median carina that bluntly protrudes in lateral view. Propodeum strongly sculptured
with backwardly directed setae, most dense posteriorly. Mesopleuron bare and shining
centrally; epicnemial (antero-dorsal) area with setae and rugosity, a small patch of setae
at postero-ventral corner; pleural suture and episternal scrobe smooth. Precoxal suture
strong and ribbed, extending from anterior margin about four-fifth of way to posterior
margin. Area below precoxal suture with setae. Metapleuron with rugose sculpture
similar to propodeum, covered with quite dense postero-ventrally directed setae.

Legs. Hind coxa dorsally somewhat rugose. Hind femur 4.5 times as long as maxi-
mum width. Hind tarsus approximately same length as hind tibia. Ratio of hind tarsal
segment lengths (from base): 1:0.58:0.39:0.31:0.38.

Wings. Pterostigma elongate, approximately 7 times longer than broad, more or
less parallel-sided beyond origin of radius (7) (at 1/5) until 4/5 when it tapers to meta-
carp (R/a). First segment of radius (7) slightly longer than width of pterostigma; radius
distally (RS) somewhat sinuate reaching wing margin before wingtip; metacarp half

78 H Charles J Godfray / Journal of Hymenoptera Research 95: 73-83 (2023)

Figure 2. Laotris luzulae sp. nov. male a dorsal view of head and mesosoma b general habitus € mandible

d face e dorsal view first and second metasomal tergites f lateral view of head and mesosoma.

Laotris luzulae sp. nov. 79

length of pterostigma. Vein m-cu received into first submarginal cell (antefurcal condi-
tion). First subdiscal cell closed at postero-ventral corner by 2cu-a.

Metasoma. Metasoma 1.2—1.3 times length of mesosoma. First tergite (petiole)
1.4 times as long as its posterior width, initially widening from base but approximately
parallel-sided in posterior two thirds. At base, two carinae run from margins diagonally
to join before centre and continue as a short, indistinct, medial ridge. Surface of first
tergite rugose with some indistinct longitudinal ridges, covered in sparse backward-
directed setae except for central area which is largely bare. Lateral and posterior edges
of first tergite are margined by a narrow carina. Second tergite with an area of longitu-
dinal striae that extends only over its basal 1/3—1/4. Most of tergite covered with sparse
setae, except for posterior central area and posterior margin. There are rows of setae at
bases of posterior metasomal tergites. Ovipositor does not project beyond apical tergite
in retracted position.

Description of male (Fig. 2). Size: body length (excluding antennae), 2.3—
2.7 mm; wing length 2.7—2.8 mm.

The single reared male specimen has 33 antennal segments while the three swept
male specimens have 29, 30 & 31 segments. Otherwise, the male is very similar to the
female with no obvious sexual dimorphism.

Molecular analysis. Sequence data from the mitochondrial CO1 gene (the stand-
ard barcode locus) were obtained from three specimens each of the new species and
L. striatula. Full barcode sequences (658bp) were obtained from five specimens and
513bp from one specimen of L. /uzulae. The BOLD database contains no further
European specimens of Laotris but ten specimens of a species of wasp collected in the
Yukon (Canada) and assigned the Barcode Index Number (BIN) ADV6100 which
showed a 4.2% genetic distance from L. /uzulae. The new species was placed in BIN
AEO8807 and showed a 6.6% genetic distance from L. striatula (placed in BIN
AEO8806) (Fig. 3). The magnitude of the genetic divergence supports the hypothesis
based on morphology that L. /uzulae is distinct from L. striatula, and also from the
undescribed North American species.

vias Laotris ADV6100
0,013
0.024 | pe | Lootris sp. nov.
oth aa Laotris striatuia
eft Exotela flavicoa

Figure 3. Neighbour-joining tree (CO1 gene, Kimura 2-parameter model) of Laotris species with an Exotela
flavicoxa (placed by some authors in the genus Avtrusa) sequence used as an outgroup. The height of the
triangular wedges represents sample size and their horizontal width the genetic variation within the species.

80 H Charles J Godfray / Journal of Hymenoptera Research 95: 73-83 (2023)

Figure 4. Laotris striatula Haliday female a dorsal view of head and mesosoma b general habitus € two

views of mandible d dorso-lateral view of first and second metasomal tergites e face f lateral view of head

and mesosoma.

Laotris luzulae sp. nov. 81

Discussion

The new species differs from Laotris striatula (Fig. 4), the only common and wide-
spread Laotris species in Europe, in morphology, biology and DNA sequence. The

main morphological differences are:

e Striations on second metasomal tergite restricted to anterior half or less; in
L. striatula the striations typically cover the whole surface though in some specimens
the striations cover just the anterior three quarters.

¢ Normally over 30 antennal segments in both sexes while in L. striatula there
are normally fewer than 28. Of the L. /uzulae material examined one (out of 10 with
intact antennae) had 29 antennal segments as did one (out of 35) L. striatula.

e Legs largely light yellow-brown with only the base of the hind coxae infus-
cated; the majority of L. striatula have greater infuscation, and in lighter specimens the
legs are red-brown rather than yellow-brown.

e Pubescence of the mesoscutum (especially the lateral lobes), propodeum and
metapleuron more extensive than in L. striatula.

I have not seen the single specimen and holotype of L. rupestris, which is in the
Museum of the Polish Academy of Science, Warsaw, but Grifhith’s description clear-
ly demonstrates it is morphologically distinct. In comparison with the new species,
L. rupestris has very dark legs, fewer antennal segments (28), a less developed additional
tooth on the mandible and a largely smooth metapleuron. It shares with L. /uzulae
more restricted striations on the second metasomal tergite compared with L. striatula.

I have also not seen the type of Laotris minuscularia Tobias (in the Zoological In-
stitute, Academy of Sciences, St Petersburg) which was described from the Vladivostok
region (Primorsky Krai) of the Russian Far East. However, its small number of anten-
nal segments (20) strongly suggests it is distinct from the species described here.

The three Laotris whose life history are known all attack agromyzid flies in the ge-
nus Cerodontha, subgenus Dizygomyza, though different host species on different host
plant genera. Laotris is regarded as a relatively plesiomorphic member of the Coelinius
genus group (Grifhths 1964; Wharton 1994) and the only member of the group that
attacks Agromyzidae. Griffith (1966) points out that the most plesiomorphic members
of the Dacnusa genus group, which has radiated greatly on Agromyzidae, also attack
Cerodontha (and Agromyza) species feeding on monocots and suggested this may reflect
the life history of the first Dacnusini. Unfortunately, there was insufhcient phyloge-
netic signal in the barcode DNA sequence to explore this hypothesis further.

It is striking that all three collections of L. /uzulae come from south-west Eng-
land, though of course this may reflect sampling bias. The host is not common in the
UK and in addition to records from the south-west it has been recorded from Wales,
Northern Ireland and Berkshire (https://agromyzidae.myspecies.info/node/1499). A
second species of Cerodontha, C. luzulae (Groschke), also feeds on Luzula, but has a

82 H Charles J Godfray / Journal of Hymenoptera Research 95: 73-83 (2023)

more northerly distribution and is recorded from North Wales and Scotland. I have
seen 45 parasitoids reared from this host in Scotland by KP Bland which were 33
Chorebus merellus (Nixon, 1937) (Dacnusini), 9 Apodesmia nr. similis (Szépligeti,
1898) (Braconidae, Opiinae), 2 Phaedrotoma reptantis (Fischer, 1957; sensu C van
Achterberg, in litt.) (Opiinae) & 1 Pediobius metallicus (Nees, 1834) (Chalcidoidea,
Eulophidae). Griffiths (1968) also notes 11 German and Polish records of C. merellus
from C. lugulae. The absence of Laotris luzulae from these rearings suggest it may be
specific to Cerodontha silvatica rather than to Cerodontha feeding on Luzula. The only
other parasitoids of C. silvatica 1am aware of are a single specimen of C. merellus reared
by JP Day in Devon, UK (this parasitoid is recorded from a number of Cerodontha
spp.) and a single specimen of the relatively polyphagous (within the Agromyzidae)
Grammospila rufiventris (Nees, 1812) (Braconidae, Alysiinae, Alysini) reared by DJ
Gibbs in Gloucestershire, UK. Apart from the Griffiths records, all the other wasps
mentioned here are in the NMS collection.

Wharton (1994) stated he had examined five specimens of Laotris from North
America (three from Colorado and singletons from the Yukon and British Columbia)
which he believed belonged to two species. The cluster of ten specimens from the
Yukon in the Bold database confirms the presence of Laotris in North America (low
resolution photographs of three of these specimens on BOLD show it has the wing
venation and general habitus of Laotris). Cerodontha luctuosa, the host of L. striatula, is
found in North America, as is Chorebus cytherea (Nixon, 1937) (Dacnusini), the com-
monest parasitoid of this fly in Europe (data in BOLD). It would thus not be surpris-
ing if L. striatula occurs in North America.

Acknowledgements

I am very grateful to David Gibbs, Malcolm Storey, Barry Warrington, Keith Bland &
John Day who reared the wasps studied here. Mark Shaw (NMS) passed the L. /uzulae
specimens to me and has been an invaluable source of advice on the Braconidae for
many years. I particularly thank Paul Hebert (University of Guelph) for sequencing
these (and many other wasps) and Jayme Sones and her team at Guelph for all their
technical assistance. Gavin Broad allowed me access to the main collection and un-
sorted material at the NHMUK and provided much helpful advice including com-
menting on a draft of this paper which was further improved by Mark Shaw and Javier
Peris-Felipo’s refereeing.

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