Nota Lepi. 48 2025: 289-298 | DOI 10.3897/n1.48.173830 Research Article

Monochroa monellii (Lepidoptera, Gelechiidae), a new species from
Portugal

MakrTIN Cor ey!, JORGE ROSETE?, SONIA FERREIRA?*

Pucketty Farm Cottage, Faringdon, Oxfordshire SN7 8JP, UK

2 Urbanizagdao Lourisol, Rua Manuel Cerqueira Nobrega, Lote 16, 2.° Frente, P-3105-165 Lourical, Pombal, Portugal
CIBIO, Centro de Investigagao em Biodiversidade e Recursos Genéticos, InBIO Laboratorio Associado, Campus de
Vairdo, Universidade do Porto, 4485-661 Vairdo, Vila do Conde, Portugal

4 BIOPOLIS Program in Genomics, Biodiversity and Land Planning, CIBIO, Campus de Vairdo, 4485-661 Vairdo, Vila
do Conde, Portugal

https://zoobank. org/90FSA555-6820-41C8-A823-76BS8 7489358

Received 4 October 2025; accepted 6 November 2025; published: 20 November 2025
Subject Editor: Lauri Kaila.

Abstract. A previously undescribed species of Monochroa Heinemann, 1870 has been found and repeat-
edly collected from a single locality in central Portugal since 2020. It is closely related to three species
with larvae feeding on Primulaceae: M. conspersella (Herrich-Schaffer, 1854), M. servella (Zeller, 1839) and
M. tetragonella (Stainton, 1885) but differs in genitalia and DNA barcode.

Introduction

The genus Monochroa Heinemann, 1870 has about 60 described species, mainly in the Palearctic
and Nearctic regions and about half of these occur in Europe (Gregersen and Karsholt 2022). Seven
Species are recorded in the Iberian Peninsula, six of these in Portugal. According to Gregersen and Kar-
sholt (2022) the European species fall into eleven groups, each group associated with a particular plant
family. The Portuguese species are each in a different group. Larvae are miners in leaves and stems.

On 29 July 2020 JR ran a mercury vapour light at Lagoa de Sao José, Carri¢o, Pombal, Beira
Litoral. Among the microlepidoptera attracted to the light were some small gelechiids which could
not be identified. Further night sessions in the same locality on 13 August and 3 September 2020
produced more specimens. After examination of male and female genitalia and DNA barcoding
this can now be recognised as a new species, closely related to M. conspersella (Herrich-Schaffer,
1854), M. servella (Zeller, 1839) and M. tetragonella (Stainton, 1885).

Methods

Morphological examination: genitalia preparations were made following standard techniques
(Robinson 1976), with permanent preparations mounted in DMHF and Euparal.

A DNA barcode of the Folmer fragment of the gene cytochrome c oxidase I (COI) was ob-
tained using the methodology of the InBIO Barcoding Initiative described in Ferreira et al. (2024).

Copyright Corley et al. This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0), which permits
unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

290 Corley et al.: Monochroa monellii (Lepidoptera, Gelechiidae), a new species from Portugal

The average divergence (uncorrected p-distance) between the sequence of Portuguese specimens
and sequences available in GenBank and BOLD was calculated in MEGA v.12 (Kumar et al. 2024).
Plant names follow Plants of the World On-line (POWO 2025).

Abbreviations

ECKU — Collection of Ecology Centre, Kiel University, Germany

GP, GU and gen. prep. — Genitalia preparation

INV — Reference number for invertebrate sample in InBIO Barcoding Initiative, Portugal
IZPC — Natural History Museum of the Sciences Faculty, Porto, Portugal

JR — Jorge Rosete

MFVC — Martin Corley

RCJR — Research collection of Jorge Rosete, Portugal

RCMC - Research collection of Martin Corley, United Kingdom

SF — Sonia Ferreira

ZMUC — Zoological Museum, Natural History Museum of Denmark, Copenhagen, Denmark

Results

Monochroa monellii Corley & Rosete, sp. nov.
https://zoobank.org/4A2E661 A-3521-4000-9482-515B39875C29
Figs 1, 2, 6, 10

Type material. Holotype male. + Lagoa de S. José, Mata de Urso, Carrico, Pombal, Leiria, BL, 40°00'19.52"N,
8°52'03.19"W. Ex pupa on Lysimachia monelli, 18.vi.2025, J. Rosete leg. | [Small white label] J. Rosete prep. gen. n°.
860 m. | [Red label] Monochroa monellii Corley & Rosete, 2025 sp. nov. HOLOTYPE. To be deposited in IZPC with code
MHNCUP-ART-43666.

Paratypes. Ail with same locality and collector. * Portugal, Lagoa de S. José, Mata de Urso, Carri¢o, Pombal, Leiria,
40°00'19.52"N, 8°52'03.19"W, 19, 13.viii.2020, leg. J. Rosete, gen. prep. JR56 f, in RCJR, to be deposited in IZPC with
code MHNCUP-ART-43667; * 1°, 3.ix.2020, Rosete gen. prep. JR50 m, DNA barcode INV17383, in RCJR, to be depos-
ited in IZPC with code MHNCUP-ART-43668; 1, 13.vii.2024, Bioscan DNA Voucher, Sample ID: BGE_00575_D12,
Rosete gen. prep. JR804 m, in RCJR; ¢ 14, 29, 29.vii.2020, M. Dale gen. preps MD02981 m, MD02977 f (in RCMC),
MD02979 f (in RCJR); * 19, 13.viii.2020, M. Dale gen. prep. MD02978 f, in RCMC; « 1¢, 3.ix.2020, M. Dale gen. prep.
MD02961 m, in RCMC; ¢ 19, 3.ix.2020, M. Dale gen. prep. MD02980 f, in RCJR; * 23,19, 13.vii.2024, in RCMC.

Description. Wingspan 8—10 mm. Head light grey; labial palps with segment 2 slightly thick-
ened with scales, 1.1 times as long as segment 3, dark fuscous on outer side, whitish on inner side,
segment 3 slender, whitish with a few darker scales on outer side, sometimes with a blackish partial
ring at base; antenna fuscous, dark brown at distal end of each segment. Thorax grey. Forewing
fuscous, small blackish spot or short dash in fold at one-quarter and spot at end of cell; fringes dark
grey with scattered dark dots, sometimes with a distinct dark grey fringe line; hindwing three-quar-
ters width of forewing, grey, fringes grey. Abdomen light fuscous.

Variation. Forewing scales may be uniformly dark brown, or paler towards base to a varying ex-
tent, resulting in variation in ground colour. In the darker specimens the blackish spots are obscure.

Male genitalia. Tegumen slightly more than half as long as valva, expanding distally, uncus a weak
bulge, gnathos absent; valva with costal margin concave in middle, tapering from four-fifths to obtuse

Nota Lepi. 48: 289-298 291

Monochroa
monellii
Lagoa de S. José,
Mata do Urso,
Carrico,
Pombal, Leiria, BL
40°00'19.52"N,
8°52'03.19"W

29TNE11302835
|Lysimachia monelli

J. Rosete det. 2025

Monochroa monellii
Corley & Rosete, 2025
Sp. nov.

HOLOTYPE

2mm J. Rosete

prep. gen.
n.°860 m

Figure 1. Monochroa monellii sp. nov. holotype male, Lagoa de Sao José, Leiria, Portugal, 18.vi.2025, leg. J.
Rosete, gen. prep. J. Rosete JR860 m. Right: Labels of holotype. Photograph by André Lameirinhas.

2mm
a ae ed

Figure 2. Monochroa monellii sp. nov. paratype female, Lagoa de Sao José, 29.vi1.2020, leg. J. Rosete, gen.
prep. M. Dale MD02977 f. Photograph by André Lameirinhas.

or truncate apex with one or two small teeth before apex, ventral margin with long gradual curve to dig-
itate sacculus which extends very shortly beyond harpe which forms a very large oval flap; phallus with
basal part longer than parallel-sided distal part, swollen in middle and with a large oval, thin-walled
‘window’, cornuti very numerous, largest only slightly longer than those in the middle of the group.

292 Corley et al.: Monochroa monellii (Lepidoptera, Gelechiidae), a new species from Portugal

Female genitalia. Posterior and anterior apophyses about equal in length; ostium opening at
distal margin of segment VIII, antrum gradually tapering, ductus bursae twice as long as ovate
corpus bursae with ductus seminalis arising at middle and colliculum at one-third ductus length
from corpus bursae; signum a broad plate constricted in middle by a pair of chess pawn-shaped
structures on the longitudinal axis.

Diagnosis. Externally M. monellii sp. nov. is extremely similar to M. conspersella (Figs 3, 7),
M. servella (Figs 4, 8) and M. tetragonella (Figs 5, 9). The last species, according to Gregersen and
Karsholt (2022) has much of the forewing with whitish scales thus looking paler. The specimens they
illustrate are from localities around the Baltic Sea, but those from England (Fig. 5) are uniformly dark
brown. All four species vary in the extent of pale coloration at the base of the scales which affects the
overall coloration of the forewing. Reliable identification by morphology therefore depends on genitalia
characters. In the male genitalia, 4 monellii has the costal margin of the valva slightly concave in the
middle, whereas the margin is straight or slightly convex in the other species. The phallus has a cluster
of numerous cornuti, with little difference in size in M. monellii while in M. servella and M. consper-
sella the size of the cornuti increases considerably from one end of the cluster to the other, the longest
cornuti being about 3 times as long as those tn the middle of the cluster; in M. tetragonella the increase
in size is less marked. Other differences are in the shape of the costal margin and apex of the valva and
the length and shape of the sacculus. These features can be seen in Figs 6-9. In the female genitalia there
are differences between species in the shape of the signum, also clearly visible in Figs 10-13.

} 2mm

Figure 3. Monochroa conspersella (Herrich-Schaffer, 1854), Schleswig-Holstein, Germany, without locality,
25.vi.1959, ex larva. (ECKU). Photograph taken by Mona Dahmen, made available by Hartmut Roweck in
Gregersen and Karsholt (2022).

Nota Lepi. 48: 289-298 293

Figures 4, 5. Imagoes. 4. Monochroa servella (Zeller, 1839), male, Maria Ansbach im Wienerwald, Austria,
13.v1.2014, leg. P. Buchner. Photograph by P. Buchner. 5. Monochroa tetragonella (Stainton, 1885), female,
Hollesley, Suffolk, England, 6.viii.2025, leg. R. A. Watson. Photograph by R. Watson.

DNA Barcode. Specimen INV17383 is currently the single representative of the BIN
BOLD:AGQ5413. The molecular results from the specimen from Leiria of the partial COI
gene sequence show that M. conspersella is the closest related species (uncorrected p-distance
4.4%) followed by M. servella and M. tetragonella with sequences available with 4.9% and
5.7% divergence, respectively.

Bionomics. Collection dates for 1 monellii sp. nov. are between 13 July and 3 September. The
habitat is a roadside with limited vegetation near a small lake which is gradually silting up. The
coastal forest is mainly composed of Pinus pinaster Aiton. The sandy soil has a variety of shrubs
including species of Erica L., Cistus L., Halimium Spach and Corema album (L.) D. Don with
scattered larger shrubs such as Morella faya (Aiton) Wilbur, Rhamnus alaternus L., Arbutus unedo
L. and Salix repens L. Herbaceous plants include Juncus L. spp., Ammophila arenaria (L.) Link,
Elymus L. sp., Silene littorea Brot., Iberis procumbens Lange, Seseli tortuosum L. and Asphodelus
L. From March onwards, coinciding with the beginning of the corresponding flowering, scattered
clusters of Lysimachia monelli (L.) U. Manns & Anderb. are visible. It was on this plant that sever-
al pupae of M. monellii. were found which suggests that this is its host-plant. The pupae were found
under the sandy soil, inside a silk tunnel, approximately one centimetre long, attached to the plant
along the transition area between the stem and the root. No signs of stem mining were detected in
any plants that were examined. This suggests that the larva feeds on upper parts of the plant and
then descends to pupate at the base of the stem.

Etymology. Monochroa monellii sp. nov. is named after its host-plant Lysimachia monelli
(L.) U. Manns & Anderb. It is appropriate to mention here that the genus Lysimachia has re-
cently been expanded to include species that were placed in Anagallis L. and Glaux L. (Manns
and Anderberg 2009).

294 Corley et al.: Monochroa monellii (Lepidoptera, Gelechiidae), a new species from Portugal

Figures 6—9. Male genitalia. 6. Monochroa monellii sp. nov., paratype male, Lagoa de Sao José, Leiria, Por-
tugal, 29.v1i.2020, leg. J. Rosete, gen. prep. M. Dale MD02981 m. Photograph by M. Dale. 7. Monochroa
conspersella (Herrich-Schaffer, 1854), male, Orség National Park, Hungary, 24.viii.2023, leg. P. Davey,
gen. prep. P. Hall. Photograph by P. Hall (Wheeler et al. 2025). 8. Monochroa servella (Zeller, 1839), male,
Maria Ansbach im Wienerwald, Austria, 13.vi.2014, leg. P. Buchner, gen. prep. PB2214. Photograph by P.
Buchner. 9. Monochroa tetragonella (Stainton, 1885), male, Hollesley, Suffolk, England, 29.vi.2018, leg.
and gen. prep. R. A. Watson Photograph by R. A. Watson.

Discussion

The genus Monochroa has not been revised. Additional species are likely to exist (Huemer and
Karsholt 2020) although these authors do not mention any such possibility in the M. servella group.

Although feeding larvae on Lysimachia monelli have not yet been found, the position of pupae
that have been found leaves no doubt that this is the host-plant. The three most closely related
species of Monochroa all feed on Primulaceae: M. servella (Zeller, 1839) on Primula L., M. con-
spersella (Herrich-Schaffer, 1854) on Lysimachia vulgaris L. and M. tetragonella (Stainton, 1885)
on Lysimachia maritima (L.) Galasso, Barfi & Soldano (formerly Glaux maritima). According to
Gregersen and Karsholt (2022) all three mentioned species feed as leaf-miners in autumn. Howey-
er, unlike the other two species, M. tetragonella mines stems of its host-plant in the following year.

Subsequent to devastating wildfires in 2017, the Portuguese government brought in a law forcing
landowners to ‘clean’ their land of combustible shrubs and herbage. The roadside where M. monellii.

Nota Lepi. 48: 289-298 295

11 Ss

10

Figures 10, 11. Female genitalia. 10. Monochroa monellii sp. nov., paratype female, Lagoa de Sao José,
Leiria, Portugal, 29.vii.2020, leg. J. Rosete, gen. prep. M. Dale MD02979 f, photograph by M. Dale. 11. Mon-
ochroa conspersella (Zeller, 1839), female, Gori¢ka National Park, Slovenia, 28.v.2023, leg. P. Davey, gen.
prep. P. Hall, photograph by P. Hall (Wheeler et al. 2025).

has been found shows signs of cultivation with a tractor-drawn fixed tine cultivator, leaving the very
sandy soil with longitudinal striations (Fig. 14). In May 2024 much of the soil was bare, with some
Lysimachia monelli plants surviving (Fig. 15), but others having been ripped out and desiccated.

296 Corley et al.: Monochroa monellii (Lepidoptera, Gelechiidae), a new species from Portugal

12

Figures 12, 13. Female genitalia. 12. Monochroa servella (Zeller, 1839), female, Sweden, gen. prep, HH1737
(ZMUC). 13. Monochroa tetragonella (Stainton, 1885), female, Denmark, gen. prep. HH1440 (ZMUC). Pho-
tos from preparations of Henning Hendriksen, taken by Reinhard Sutter and published in Gregersen and
Karsholt (2022).

Although M. monellii is very much a ‘small brown job’ it is remarkable that it has only been de-
tected in a single locality, particularly as it appears to be locally plentiful and comes freely to light.
The host-plant 1s widespread in south-west Europe. A possible explanation is that the roadside
habitat is not one that invites light-trapping activity. We predict that M monellii will eventually
prove to be much more widely distributed.

Mendes (1904) recorded Xystophora farinosae Stainton (now Monochroa servella) as rare in
June at Sao Fiel, near Fundao in Beira Baixa, Portugal. This was rejected in Corley (2015) on the

Nota Lepi. 48: 289-298 297

Figure 14. Roadside at Lagoa de Sao José, Leiria, Portugal, habitat of Monochroa monellii sp. nov., photo-
graph by Jorge Rosete.

»~

Figure 15. Lysimachia monelli L., foodplant of Monochroa monellii sp. nov., photograph by Jorge Rosete.

298 Corley et al.: Monochroa monellii (Lepidoptera, Gelechiidae), a new species from Portugal

grounds that no specimens had been found, the record was improbable and identification would
have been unreliable at that time. With the discovery of M. monellii.sp. nov. this record could pos-
sibly refer to the new species. However, according to Flora-on, Lysimachia monelli has not been
recorded in the Fundao area.

Acknowledgements

We are most grateful to André Lameirinhas for the photos of set specimens of MZ monellii, to Ole Kar-
sholt, the Norwegian Entomological Society, Peter Hall, Raymond A. Watson and the Moth Dissection UK
website for allowing us to use their photos, and to José Grosso-Silva curator of the Natural History Muse-
um of the Sciences Faculty, Porto, for providing code numbers for type specimens. SF was funded by the
FCT—Fundacao para a Ciéncia e a Tecnologia, I.P., through the program “Stimulus of Scientific Employ-
ment, Individual Support” (2020.03526.CEECIND/CP1601/CP1649/CT0007; DOI identifier: https://doi.
org/10.54499/2020.03526.CEECIND/CP1601/CP1649/CT0007).

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