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JHR TT: 2 I 32 I rf (2020) JOURNAL OF A peer-reviewed open-access Journal
doi: |0.3897/jhr.77.53827 SHORT COMMUNICATION ME Hymenopter a

http://jhr.pensoft.net The Insertional Society of ymenoptersts. RESEARCH

Discovery of a non-native parasitoid, Marlattiella
prima Howard (Hymenoptera, Aphelinidae) and its
non-native host, Lopholeucaspis japonica Cockerell

(Hemiptera, Diaspididae) in Central Texas

Kyle Gilder', Kenneth E. Masloski', James B. Woolley',
Mengmeng Gu’, Michael E. Merchant’, Kevin M. Heinz!

| Texas A&M University, Department of Entomology, Minnie Bell Heep Center, Suite 412, 2475 TAMU, 370
Olsen Blvd, College Station, TX, 77843, USA 2 Department of Horticultural Sciences, Texas A&M AgriLife
Extension Service, Horticulture/Forest Science Building, Suite 225, 2134 TAMU, 495 Horticulture Street,
College Station, TX, 77843, USA 3 The Texas A&M AgriLife Research & Extension Center at Dallas, 17360
Coit Road, Dallas, TX, 75252, USA

Corresponding author: Kenneth E. Masloski (kemasloski@tamu.edu)

Academic editor: Mark Shaw | Received 30 April 2020 | Accepted 27 May 2020 | Published 29 June 2020
http://zoobank.org/18E7EDE4-966C-465E-9 1A3-6863EF 556704

Citation: Gilder K, Masloski KE, Woolley JB, Gu M, Michael E. Merchant ME, Heinz M (2020) Discovery of a
non-native parasitoid, Marlattiella prima Howard (Hymenoptera, Aphelinidae) and its non-native host, Lopholeucaspis
japonica Cockerell (Hemiptera, Diaspididae) in Central Texas. Journal of Hymenoptera Research 77: 213-217. https://
doi.org/10.3897/jhr.77.53827

Abstract

Sampling of crapemyrtle trees (Lagerstroemia L.) in central Texas yielded the discovery of an invasive scale
pest, Lopholeucaspis japonica Cockerell, and its parasitoid natural enemy, Marlattiella prima Howard. These
discoveries expand the known range of both the scale insect and the parasitoid wasp in the United States.
Marlattiella prima was not recovered in the absence of L. japonica. Of the two counties sampled, Brazos
County yielded 26 M. prima individuals and Tarrant County yielded neither M. prima nor L. japonica.

Keywords
biologivcal control, Marlattiella, Marlattiella prima, Lopholeucaspis japonica

Copyright Kyle Gilder 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.

214 Kyle Gilder et al. / Journal of Hymenoptera Research 77: 213-217 (2020)

Introduction

Members of the genus Marlattiella Howard (Hymenoptera: Aphelinidae) are known to
parasitize only armored scale insects (Hemiptera: Diaspididae). Two species have been
described worldwide (Viggiani 1985; Rehmat et al. 2011): MZ. prima Howard and M.
maculata Hayat. Marlattiella prima is a parasitoid of Lopholeucaspis japonica Cockerell
(Japanese maple scale) in China and Japan (Rosen and DeBach 1970) and M. maculata
is a parasitoid of Aonidiella orientalis Newstead (Oriental yellow scale) in India (Re-
hmat et al. 2011). Viggiani (1985) identified chalcidoid wasps collected from sticky
traps in Africa and uncovered a possible third species, extending the geographical range
of the Marlattiella genus to the Ethiopian region.

Marlattiella prima adults closely resemble adults in the genus Aphytis Howard, and
other genera in the tribe Aphytini (Kim and Heraty 2012). Marlattiella spp. individu-
als are distinguished from the other members of Aphytini by their antennal formula:
scape, pedicel, no funicle segments or anelli, and a long, unsegmented clava (Figure 1).
Species of Eretmocerus Haldeman, a similar and closely related genus (Kim and Heraty
2012), share this antennal formula but have four-segmented tarsi while Marlattiella
spp. have five-segmented tarsi. Additional recognition characteristics include a short
propodeum in Marlattiella spp. lacking the marginal crenulae found in Aphytis spp.
(Rosen and DeBach 1970) (Figure 1).

Lopholeucaspis japonica (Hemiptera: Diaspididae) was first reported in the United
States in Connecticut in 1914 (Miller et al. 2005). Currently the reported distribution
of this scale in the United States includes Connecticut, Delaware, Georgia, Kentucky,
Louisiana, Maryland, New Jersey, New York, North Carolina, Pennsylvania, Rhode
Island, Tennessee, Virginia, and Washington DC (Frank et al. 2013; Jeger et al 2018).
It has a host range of approximately 97 plant species from 35 families (Knox et al.
2012; Harsur et al. 2018; Jeger et al. 2018). In the United States, . prima has been
reported in Maryland, only one of the fifteen states in which L. japonica has been re-
ported (Krombein et al. 1979). This paper describes the first reported occurrences of
L. japonica and M. prima in Texas. This is important because it expands the range of
a pervasive pest of 97 tree species as well as the range of one of its known parasitoids.

Methods

Foliage samples were collected from 40 plants of the ‘Natchez’ (Lagerstroemia indica L.)
crapemyrtle cultivar and 60 plants of other crapemyrtle cultivars in Brazos County and
Tarrant County, Texas. Tarrant County is 190 km north of Brazos County, and Brazos
County is approximately 158 km NE of Houston, Texas. Ten 30 cm long branch tips
randomly distributed along the canopy perimeter of three-meter to five-meter-tall trees
were collected using a telescoping pruner with a 2.7 m reach. Branch tips were im-
mediately placed in Sure Fresh rectangular storage containers, 10 cm x 35 cm (Green-

brier International, Inc., 1509 Sam’s Circle Store No 502 Chesapeake, VA 23320-4694

Discovery of a non-native parasitoid and its non-native host in Central Texas 2L5

0.25 mm

Figure |. Marlattiella prima Howard adult female recovered from Lopholeucaspis japonica Cockerell on
Lagerstroemia indica L. trees. This specimen is in the TAMU insect collection (TAMUIC) as TAMU
Vouchers #746. The photograph was taken by JBW with a Macropod system (https://macroscopicsolu-

tions.com) using 20x microscope objective, a 200 mm tube lens, and a Canon EOS 5D Mark III camera.

United States, www.dollartree.com, SKU: 236854). Storage containers were labelled
by tree. Each tree was given a unique number and GPS data was collected using a cell-
phone application (GPS Status & Toolbox Pro version 9.0.183 2019, EclipSim). The
GPS coordinates were recorded for the purpose of using the same trees every season
from spring 2018 to winter 2018.

The plastic containers containing branch samples were placed in cold storage for
24 to 120 hours at 6 °C to slow down arthropods during the sample processing pe-
riod. Containers removed from cold storage were opened and branches were carefully
examined with the aid of a stereo microscope (Olympus SZ-6045). Scale insects were
counted and identified to the lowest taxon possible.

Branches were subsequently placed in sealed, white paper bags (Uline white gro-
cery bags, uline.com model no. S-11541, 19.685 cm x 12.065 cm x 40.64 cm) to
allow for parasitoid emergence. After three months, the bags were opened and the
contents were shaken into a petri dish containing 70% ethanol. Using a stereo micro-
scope (Olympus SZ-6045), parasitoids were then counted and identified to the lowest
taxonomic level possible before being placed in labelled vials with 70% ethanol for
preservation. Voucher specimens have been deposited in the TAMU Insect Collection

(TAMUIC) as TAMU Vouchers #746.

216 Kyle Gilder et al. / Journal of Hymenoptera Research 77: 213-217 (2020)

Table |. Numbers of Lagerstroemia indica trees with L. japonica and M. prima present.

Collection Trees with L. japonica’ Trees with M. prima present (range of M. prima recovered)” Number of M. prima present

Spring 2018 Data Not Recorded 4 (1-2) 6
Summer 2018 29 4 (1-3) 6
Fall 2018 23 1 (1) 1
Winter 2018 25 5 (1-5) 13

*A total of 100 trees were sampled for each collection and a total of 35 trees across all collections hosted L. japonica. Values within the
column are the number of trees infested with L. japonica within a collection. "Range represents the minimum and maximum of /.
prima recovered from trees infested by L. japonica within a collection.

Results

A total of 26 M. prima individuals were recovered from 400 L. indica samples in
Brazos County (Table 1). Most were recovered from samples collected during win-
ter of 2018. All of the L. indica twigs from which Marlattiella individuals were
recovered contained Lopholeucaspis japonica individuals, with the exception of those
collected in the spring of 2018, for which there are no data on scale presence. Lopho-
leucaspis japonica were frequently recovered from the same locations and trees across
all four seasons. No L. japonica or M. prima were recovered from 400 samples taken
in Tarrant County.

Discussion

Our collections represent the first occurrence of both L. japonica and M. prima indi-
viduals in Texas. The range of L. japonica around Brazos County may be indicative of
a population existing prior to our detection. The fact that it was recovered from the
same trees at the same locations may imply that it is not rapidly spreading, though
only L. indica plants were sampled and it is known that L. japonica has a wide host
range (Knox et al. 2012; Harsur et al. 2018; Jeger et al. 2018). Acer spp. L. (Sapin-
dales: Sapindaceae), Alnus spp. Miller (Fagales: Betulaceae), //ex spp. L. (Aquifoliales:
Aquifoliaceae), Liguidambar spp. L. (Saxifragales: Altingiaceae) and, Magnolia spp. L.
(Magnoliales: Magnoliaceae) are among the native Texas trees (Texas A&¢M Depart-
ment of Horticulture 2019) that L. japonica uses as a host, and sampling of these trees
may yield more discoveries of L. japonica individuals in Texas.

Conclusion

Surveys from Brazos County, TX document the presence of Lopholeucaspis japonica
and Marlattiella prima, which have not previously been reported for Texas. This record
expands the range of both organisms. The population of L. japonica is apparently not
spreading, as it remained localized on a set number of trees in Brazos County and was
not found in Tarrant County.

Discovery of a non-native parasitoid and its non-native host in Central Texas 217

Acknowledgements

The authors would like to acknowledge our funding source, USDA grant number
2017-51181-26831/1013059. The authors would also like to acknowledge the con-
tributions of Steven Arthurs, Silvana Caravantes, John Gilder, Patricia Gilder, Patricia
Ishii, José G. Juarez, Shroq Kesbeh, Peter Krauter, Bala Sapkota, and Janaina Siqueira
Da Cunha. This work is partially supported by Specialty Crop Research Initiative pro-
ject “Systematic Strategies to Manage Crapemyrtle Bark Scale, An Emerging Exotic
Pest’ [grant no. 2017-51181-26831/project accession no. 1013059] from the U.S.
Department of Agriculture (USDA) National Institute of Food and Agriculture. Any
opinions, findings, conclusions, or recommendations expressed in this publication are
those of the author(s) and do not necessarily reflect the view of the USDA.

References

Frank SD, Klingeman HI WE, White SA, Fulcher A (2013) Biology, injury, and management
of maple tree pests in nurseries and urban landscapes. Journal of Integrated Pest Manage-
ment 41(1): 1-14. https://doi.org/10.1603/IPM12007

Harsur MM, Joshi S, Pal RK (2018) Pomegranate: a new Host for the Invasive Scale Insect
Lopholeucaspis japonica (Cockerell, 1897) (Hemiptera: Diaspididae) from Gujarat, India.
Oriental Insects. https://doi.org/10.1080/00305316.2018.1451783

Jeger M, Bragard C, Cafher D, Candresse T, Chatzivassiliou E, Dehen-Schnutz K, Gilioli G,
Grégore J, Jaques Miret JA, Navarro MN, Niere B, Parnell S, Potting R, Rafoss T, Rossi V,
Urek G, Van Bruggen A, Van der Werf W, West J, Winter S, Kertész V, MacLeod A (2018)
Pest categorization of Lopholeucaspis japonica. European Food Safety Authority Journal
16(7): e05353. https://doi.org/10.2903/j.efsa.2018.5353

Kim J-W, Heraty J (2012) A phylogenetic analysis of the genera of Aphelininae (Hymenoptera:
Aphelinidae), with a generic key and descriptions of new taxa. Systematic Entomology 37:
497-549. https://doi.org/10.1111/j.1365-3113.2012.00625.x

Knox G, Klingeman WE, Paret M, Fulcher A (2012) Management of pests, plant diseases, and
abiotic disorders of Magnolia species in the Southeastern United States: a review. Journal of
Environmental Horticulture 30(4): 223-234.

Krombein KV, Hard Jr PD, Smith DR, Burks BD (1979) Catalog of Hymenoptera in America
North of Mexico (Vol. 1). Smithsonian Institution Press, Washington, 1198 pp.

Miller DR, Miller GL, Hodges GS, Davidson JA (2005) Introduced scale insects (Hemiptera:
Coccoidea) of the United States and their impact on U.S. agriculture. Proceedings of the
Entomological Society of Washington 107(1): 123-158.

Rehmat T, Anis SB, Khan MT, Fatma J, Begum S (2011) Aphelinid parasitoids (Hymenoptera:
Chalcidoidea) of armoured scale insects (Homoptera: Diaspididae) from India. Biology
and Medicine 3(2): 270-281.

Rosen D, DeBach P (1970) Notes on the genus Marlattiella Howard (Hymenoptera: Aphelini-
dae). Mushi 43(3): 39-43.

218 Kyle Gilder et al. / Journal of Hymenoptera Research 77: 213-217 (2020)

Texas A&M Department of Horticulture (2019) Native Trees of Texas. https://aggie-horticul-
ture.tamu.edu/ornamentals/natives/ INDEXCOMMON.HTM [Accessed on 01.12.2019]

Viggiani G (1985) Notes on a few Aphelinidae, with description of five new species of Encarsia
Foerster (Hymenoptera, Chalcidoidea). Bollettino del Laboratorio di Entomologia Agraria
Filippo Silvestri 42: 81-94.