Establishment of a non-native xyleborine ambrosia beetle, Xyleborus monographus (Fabricius) (Coleoptera: Curculionidae: Scolytinae), new to North America in California
Author
Rabaglia, Robert J.
USDA Forest Service, Forest Health Protection, Washington, DC, 20250, U. S. A.
Author
Smith, Sheri L.
USDA Forest Service, Forest Health Protection, Vallejo, CA 94592, U. S. A.
Author
Rugman-Jones, Paul
Department of Entomology, University of California, Riverside, California, 92521, U. S. A.
Author
Digirolomo, Marc F.
USDA Forest Service, Forest Health Protection, Durham, New Hampshire, 03824, U. S. A.
Author
Ewing, Curtis
California Department of Forestry and Fire Prevention, Forest Pest Management, Davis, California, 95618, U. S. A. curtis. ewing @ fire. ca. gov; https: // orcid. org / 0000 - 0002 - 4567 - 1655
Author
Eskalen, Akif
Department of Plant Pathology, University of California, Davis, California, 95616, U. S. A.
text
Zootaxa
2020
2020-06-02
4786
2
269
276
journal article
10.11646/zootaxa.4786.2.8
1175-5326
3874780
D9917539-F122-437C-B609-4DEACA06CDDE
Xyleborus monographus
(
Fabricius, 1792
)
Figure 1
Bostrichus monographus
Fabricius, 1792: 365
.
Xyleborus monographus
(Fabricius)
,
Eichhoff 1864: 704
.
Bostrichus tuberculosus
Herbst, 1793: 113
. Synonymy
Eichhoff 1878: 397
.
Diagnosis.
Specimens of
Xyleborus monographus
can be distinguished from most species of
Xyleborus
in North America by the tubercles on declivital interstriae 1 that are distinctly larger than those on other interstriae. It is very similar to the eastern species
X. celsus
Eichhoff
, but
X. monographus
is smaller (3.0–
3.2 mm
vs
approximately
3.6– 4.5 mm
for
X
.
celsus
), and the width of interstriae 2 on the declivity is approximately half the width of interstriae 3 on
X. monographus
,
vs
twice the width of interstriae 3 on the declivity of
X. celsus
.
This is only the fourth species of
Xyleborus
reported from
California
; the other three species are native. It can be distinguished from
X. ferrugineus
(F.) which lacks tubercles on interstriae 1 and has tubercles on interstriae 3 larger than on others.
Xyleborus intrusus
Blandford
and
X. xylographus
(Say)
both have tubercles on interstriae 1 but they are not larger than those on interstriae 3. There are five other species of xyleborine ambrosia beetles in
California
,
Anisandrus dispar
(F.),
Cyclorhipidion bodoanum
(Reitter)
,
Euwallacea fornicatus
(Eichhoff)
,
E. kuroshio
Gomez & Hulcr
, and
Xyleborinus saxesenii
(Ratzeburg)
, which can be distinguished from
Xyleborus
and each other by the keys and images in
Gomez
et al
. (2018a)
and updated in
Smith
et al
. (2019)
.
The key to female
Xyleborus
species in America north of
Mexico
in
Gomez
et al.
(2018a)
is modified below to include
X. monographus
. Alterations are in bold.
3. Tubercles on declivital interstriae 1 distinctly larger than tubercles on other interstriae............................... 4 - Tubercles on declivital interstriae 1 either similar in size to tubercles on other interstriae or absent (except at base or apex)...
................................................................................................... 5
4. Elytral disc and declivity setose; all declivital interstriae armed by strong tubercles at base; declivital interstriae 1
armed by two very large pointed tubercles, declivital interstriae 3 armed by several smaller tubercles............ 4’
- Elytral disc and declivity glabrous; all declivital interstriae armed by small granules, gradually decreasing in size toward apex; interstriae 1 near apex armed by one or two small tubercles......................................
glabratus
Eichhoff
4’. Total body length
3.6−4.5 mm
; declivital interstriae 2 1.5–2x as wide as interstriae 3, punctures deep and large (
Fig. 2B
); in
Carya
species..........................................................................
celsus
Eichhoff
- Total body length
3.1−3.2 mm
; width of declivital interstriae 2.5–1x as wide as interstriae 3, punctures shallow and small (
Fig. 2A
); mostly in
Quercus
species............................................
monographus
(Fabricius)
Description:
Female- Length
3.1−3.2 mm
, 3 times as long as wide; color reddish brown. Frons convex, surface reticulate, not smooth, punctures sparse, shallow; setae sparse, longer near epistomal margin. Pronotum about 1.5 times as long as wide, anterior rounded and convex, coarsely asperate on anterior half, basal half smooth with shallow, sparse punctures. Elytra approximately twice as long as wide, and slightly less than twice as long as pronotum, disc shining, striae shallowly impressed, punctures shallow, interstriae with fewer, shallow punctures; declivity steep, less than 25% of elytral length, flat, surface dull, strial punctures small and shallow, in rows curving away from suture at middle of declivity, then towards suture at apex, interstriae 1 wide, smooth with two large tubercles at middle of declivity, one smaller denticle at base of declivity, interstriae 2 smooth, about half as wide as interstriae 3, two small denticles on interstriae 3 at about the same level as those on interstriae 1. Elytral setae on striae minute, in rows, interstrial setae longer and fine.
Male. Not examined.
Distribution.
The distribution records are based on
Wood & Bright (1992)
and supplements (
Bright & Skidmore 1997
,
2002
;
Knížek 2011
;
Bright 2014
).
Africa
:
Algeria
,
Morocco
;
Asia
:
Azerbaijan
,
Iran
,
Iraq
,
South Korea
,
Turkey
;
Europe
:
Albania
,
Austria
,
Belgium
,
Bulgaria
,
Croatia
,
Czech Republic
,
Denmark
,
Estonia
,
France
,
Great Britain
,
Germany
,
Greece
, Hungry,
Italy
,
Latvia
,
Luxemburg
, Macedonia,
Montenegro
,
Netherlands
,
Norway
,
Poland
,
Portugal
,
Romania
,
Russia
,
Slovakia
,
Slovenia
,
Spain
,
Sweden
,
Switzerland
,
Ukraine
.
New
records in
North America
:
United States
:
California
,
Napa Co.
,
Calistoga
, 14
September
, 2017,
M. Garbelotto
coll., ex.
Quercus lobata
(2,
NMNH
)
;
as previous except:, 10
September
, 2019,
L. Burkhardt
coll., ex.
Quercus lobata
(1,
USNM
; 2, UCRC [
UCRC
_
ENT 00528716
and
UCRC
_
ENT 00528703
])
;
as previous except:
Silverado Trail
, 16
October
, 2019,
Sheri Smith
coll., ex.
Quercus lobata
(2,
RJRC
)
;
as previous except: 17
October
, 2019,
Sheri Smith
coll., ex.
Quercus lobata
(2,
RJRC
)
;
as previous except:
Bothe Napa Valley State Park
,
38.551877
,
-122.522836
, 29
January
, 2020,
Cutis Ewing
coll., ex.
Quercus kelloggii
(10,
EMEC1332925-34
)
;
as previous except:
38.552298
,
-122.522948
, 29
January
, 2020,
Cutis Ewing
coll., ex.
Quercus douglasii
(1,
EMEC1332924
)
;
as previous except:,
Silverado Tr.
&
Brannan St.
,
38.5856
,
-122.5724
, 18
November
, 2019,
Curtis Ewing
coll., ex.
Quercus lobata
(5,
EMEC 1332915-19
)
;
as previous except: vineyard between
Silverado Tr.
&
Rt.
128,
38.57737
,
- 122.57563
, 18
November
, 2019,
Curtis Ewing
coll., ex.
Quercus lobata
(4,
EMEC 1332920-23
)
;
as previous except:
Middletown Hwy.
,
Mayacmas Mts.
,
38.6670
,
-122.5974
, 10
January
, 2020,
Curtis Ewing
coll., ex.
Quercus lobata
(4,
EMEC 1332935-38
)
;
California
,
Lake Co.
,
Middletown
,
Graham Ln.
,
38.7525
,
-122.6217
, 10
January
, 2020,
Curtis Ewing
coll., ex.
Quercus lobata
(1,
EMEC 1332939
)
;
as previous except:
Calistoga
,
Silverado Tr.
&
Glass Mt. Rd.
,
38.53529
,
-122.59057
, 29
January
, 2020,
Curtis Ewing
coll., ex.
Quercus lobata
, (5,
EMEC 1332940-44
)
;
as previous except:
Middletown Hwy.
,
Mayacmas Mts.
,
38.6670
,
-122.5974
, 02
February
, 2020,
Curtis Ewing
coll., ex.
Quercus lobata
(4,
EMEC 1332945-48
)
.
Hosts and biology.
In Europe, the most commonly reported hosts of
X. monographus
are various species of oaks (
Quercus
) and other genera of
Fagaceae
(
Fagus
and
Castanea
).
Wood & Bright (1992)
report
Quercus
spp., and state it is uncommon in
Castanea vesca
and
Fagus orientalis
.
Bright and Skidmore (1997)
cites Koch (1992) and lists:
Betula pendula
(=
B. verrucosa
), Carpinus betulus,
Castanea sativa
,
Fagus sylvatica, Fraxinus
excelsior,
Juglans regia, Prunus
avium,
Quercus canariensis
,
Q. castaneifolia
var.
incana
,
Q. ceris
,
Q. coccifera
,
Q. ilex
,
Q. lusitanica
,
Q. petraea
,
Q. pubescens
,
Q. pyrenaica
,
Q. robur
,
Q. rubra
,
Q. suber
,
Ulmus laevis
.
Schedl (1964)
states it is most frequently found in
Quercus
, but lists several of the non-oak species above as hosts also.
In
California
, the original infested trees were mostly valley oaks (
Quercus lobata
), but some blue oaks (
Q. douglasii
) also were found infested in the area. A very limited infestation was found in a single limb of
California
black oak (
Quercus kelloggii
) with extensive heart rot.
Schedl (1964)
stated that he found most attacks by this species in trunks of downed oaks felled in winter or early spring, and in branches larger than
20 cm
in diameter. He also stated that most attacks occurred on the sides or undersides of logs, and only rarely on the upper, sun-exposed surfaces. In
California
, we found a similar attack pattern by this beetle on valley oaks. Most of the trunks were heavily colonized by the beetle, but we also have seen attacks on mostly larger branches and in branches as small as
6.35 cm
. diameter in the upper crowns of apparently healthy oaks.
Data from
Schedl (1964)
and his reference to
Eichhoff (1881)
and Escherich (1929), indicated two generations per year for this species in
Germany
, but he questioned if this was the case throughout Europe, and cited
Palm (1959)
who found only one generation per year in
Sweden
. More recent work in
Greece
(Markalas & Kalapandia 1997) and
Slovakia
(
Galko
et al.
2014
) found one generation per year based on trapping data. These later two studies also found peak trap catch in late May and June. In
Israel
, adults were active for nearly the entire study period, March–September, and no activity peaks were detected, suggesting multiple overlapping generations (
Buse
et al
. 2013
).
There have been several studies in Europe that have tested the response of ambrosia beetles to ethanol-baited funnel traps (Markalas & Kalapandia 1997;
Galko
et al.
2014
and references therein), and they have shown positive response of
X. monographus
to ultra-high release (UHR) ethanol-baited traps.
As with all xyleborine ambrosia beetles,
X. monographus
exhibits sib-mating, with haploid and wing-less males (
Kirkendall 1993
).
Schedl (1964)
reports a sex ratio of 8.5:
1 females
to males. Other species of xyleborines have been reported to have ratios similar to this or more females to males (
Smith & Hulcr 2015
), and additional studies may show a more female biased sex ratio for this species as well.
FIGURE 1.
Dorsal and lateral habitus of
Xyleborus monographus
. Scale bar represents 0.5 mm.
FIGURE 2.
Elytral declivities of
Xyleborus monographus
(A) and
X. celsus
(B). I-2 and I-3: Interstriae 2 and 3 respectively. Scale bars represent 0.2 mm.
Fungal symbionts.
Ambrosia beetles carry symbiotic fungi which they introduce into the xylem and are used as food for adults and larvae (
Beaver 1989
). Species in the
Xyleborini
, as do most other ambrosia beetles, have special structures, mycangia, in which the spores of their symbiotic fungi are carried. In
Xyleborus monographus
, as in all
Xyleborus
species, the mycangia are in the mandibles (
Schedl 1964
). In most cases the fungal associate is not pathogenic to the host tree, however, the fungal associate of the non-native
X. glabratus
Eichhoff
(the red bay ambrosia beetle),
Raffaelea lauricola
is very pathogenic and has caused extensive mortality of several species of
Lauraceae
in the southeastern
US
(
Fraedrich
et al.
2008
;
Harrington
et al.
2010
). Gebhardt
et al.
(2004) found
Raffaelea montetyi
associated with
X. monographus
in
Germany
. They also found this fungus in
X. dryographus
(Ratzeburg)
and
Platypus cylindrus
(F.).
Inácio
et al.
(2012)
tested the pathogenicity of
R. montetyi
strains from
Portugal
on cork oak (
Quercus suber
) saplings and had 100% mortality within 60 days.
Ambrosial fungal species from both beetle and plant tissues infested by
X. monographus
were collected with methods of
Eskalen
et al.
(2013)
. Specimens were collected from infested valley oaks in Calistoga, CA. A total of 10 beetles and infested wood samples were collected from each of three infested trees. Fungal isolations from symptomatic tissues and female beetle mycangia were recovered following the methods of
Lynch
et al.
(2016)
. Based on the morphological characterization and BLAST’s query comparison of the ITS sequence data in the pres- ent study and other isolates in GenBank, the fungal species,
Raffaelea montetyi
(UCD8134),
Paecilomyces formosus
(UCD8140),
Fusarium solani
(UCD8043), undescribed species of
Fusarium
(UCD8376) and
Leptographium
sp. (UCD8382), and a yeast species,
Saccharomyces microspore
(UCD8112) were recovered.
Further identification of the fungal species using multi loci gene sequence analyses is underway. Currently, pathogenicity tests of fungal species on young valley oak trees are being conducted.