AMERICAN MUSEUM NOVITATES

Number 3701

December 7, 2010

Leech Collections from Washington State, with the
Description of Two New Species of Placobdella
(Annelida: Glossiphoniidae)

ALEJANDRO OCEGUERA-FIGUEROA, 12 SEBASTIAN KVIST, 2 ’ 3 SARA C. WATSON, 2
DOMINIC F. SANKAR, 2 ROBIN M. OVERSTREET, 4 AND MARK E. SIDDALL 2

ABSTRACT

An assessment of the hirudinifauna of Washington State is presented. In total, 11 distinct
leech species were found representing two new records for the state and two new species of the
genus Placobdella, both described herein. Placobdella kwetlumye, n. sp., and Placobdella sophieae,
n. sp., both collected in Squires Lake, Whatcom County, are morphologically similar to P.
burresonae and P. pediculata respectively, but exhibit morphological features that readily sepa¬
rate them from congeners. In addition to the descriptions of the new species, here we provide
a brief summary of the morphological traits possessed by each species found.

INTRODUCTION

Washington State displays a wide variety of climates, environments, and ecological niches
(e.g., Kruckeberg, 1991; Peterson et al., 1997). The Cascade Mountain Range divides the state
from north to south and the climate varies greatly from one side of the range to the other: West
of the Cascades is a marine west coast climate with substantial parts covered by conifer forests
and temperate rainforests. East of the range is warmer and more arid with steppe as well as

1 Department of Biology, Graduate Center, City University of New York, NY, NY (aoceguera@amnh.org).

2 Division of Invertebrate Zoology, American Museum of Natural History, New York, NY.

3 Richard Gilder Graduate School, American Museum of Natural History, New York, NY.

4 Department of Coastal Sciences, University of Southern Mississippi, Ocean Springs, MS.

Copyright © American Museum of Natural History 2010

ISSN 0003-0082

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AMERICAN MUSEUM NOVITATES

NO. 3701

true desert. The Cascades themselves are a series of dormant and active volcanoes, which,
coupled with Pleistocene glaciations, have given rise to an almost unique geomorphological
complexity of the landscape (e.g., Armstrong et al., 1965; Crandell, 1971). This complexity, in
turn, provides the fauna with several microhabitats such as isolated ponds, small rock forma¬
tions, and patches of bushy growth (e.g., McCune et al., 2000; Peterson et al., 1997).

Accounts of the leech fauna of the Pacific Northwest are scarce, especially when compared
to the numerous accounts of the fauna east of the Rocky Mountains (e.g., Moser et al., 2008;
Phillips and Siddall, 2005; Sawyer, 1967; Sawyer et al., 1975). Klemm (1982) produced what is
probably the most comprehensive list of morphological attributes and species distributions of
North American leeches, which he based on published literature and collection records of the
time. Therein, Actinobdella inequiannulata Moore, 1901, Glossiphonia elegans (Verrill, 1872),
Helobdella elongata (Castle, 1900), Helobdella modesta (Verrill, 1872), Placobdella montifera
Moore, 1906, Myzobdella lugubris Leidy, 1851, Erpobdella punctata (Leidy, 1870), Erpobdella
obscura (Verrill, 1872) and the marine leech Piscicola salmositica Meyer, 1946, are all reported
as present in Washington State (Klemm, 1982). Pursuant to our recent collection efforts across
Washington, we here present an assessment of the distribution of 11 species of leeches and,
furthermore, describe two new species of the genus Placobdella, both collected in the state.

MATERIALS AND METHODS

Leeches were collected from 13 localities in 10 counties in Washington state (fig. 1; table
1) in September 2008 and October-November 2009. Leeches were found on the undersides of
rocks, wood, and debris in freshwater environments. Alternatively, blood-feeding leeches were

FIGURE 1. Map of Washington showing the 13 collection sites in solid circles. Grey areas indicate bodies of
water.

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TABLE 1. Species and collection locality information for for leech specimens encountered in this study

AMNH

Site

Taxa

County

Georeference

Date

catalog no.

Conconully

Helobdella modesta (G) n =

19

Okanogan

48°33'52.72"N

119°43'45.12"W

26 Sept 2009

5513

Curlew Lake

Erpobdella obscura (E) n =

11

Ferry

48°43'37.57"N

25 Sept 2009

5514

Erpobdella punctata (E) n =

3

118°39'32.38"W

5515

Glossiphonia elegans (G) n -

= 17

5516

Helobdella modesta (G) n =

1

5517

Friends Landing

Placobdella montifera (G) n

= 1

Grays Harbor

46°56'52.21"N

123°38T9.54"W

3 Sept 2008

5518

Mud Lake

Helobdella modesta (G) n =

24

Ferry

48°40T6.35"N

25 Sept 2009

5519

Glossiphonia elegans (G) n -

= 3

118°45'59.54"W

5520

Theromyzon cf. rude (G ) n -

= 1

5521

Summit Lake

Erpobdella annulata (E) n =

■ 8

Thurston

47°02'56.84"N

29 Sept 2009

5522

Placobdella montifera (G) n

= 1

123°06'58.42"W

5523

Helobdella modesta (G) n =

21

5524

Helobdella elongata (G) n =

1

5525

Sun Lake

Erpobdella punctata (E) n =

8

Grant

47°36'20.20"N

119°21T7.35"W

26 Sept 2009

5526

Squires Lake

Placobdella kwetlumye, n. sp. (G) n = 2

Whatcom

48°39'36.98"N

30 Sept 2009

5527, 5528

Placobdella sophieae, n. sp. (G) n = 8

122°20'02.76"W

5529, 5530

Theromyzon cf. rude (G) n ■

= 5

5531

Helobdella modesta (G) n -

63

5532

Helobdella elongata (G) n =

1

5533

Erpobdella annulata (E) n =

: 5

5534

Lake Sylvia

Erpobdella annulata (E) n =

- 2

Grays Harbor

46°59'38.68"N

29 Sept 2009

5535

Helobdella modesta (G) n =

48

123°38'36.92"W

5536

Thompson Lake

Helobdella modesta (G) n =

5

Grant

47°50'59.07"N

26 Sept 2009

5537

Helobdella papillata (G) n =

39

119°08'09.81"W

5538

Wallace Lake

Helobdella modesta (G) n =

23

Snohomish

47°54'06.87"N

121°40'30.55"W

28 Sept 2009

5539

Wanapum Lake

Helobdella modesta (G) n =

2

Kittitas

46°53'58.48"N

27 Sept 2009

5540

Erpobdella punctata (E) n =

■ 5

119°59T0.08"W

5541

Wapato Lake

Helobdella modesta (G) n -

32

Chelan

47°55'H.12"N

26 Sept 2009

5542

Erpobdella punctata (E) n =

1

120°09'43.49"W

5543

Deadman Lake

Helobdella modesta (G) n =

18

Adams

46°53'02.69"N

119°14'35.54"W

27 Sept 2009

5544

collected by immersing legs into the water at the edges of the lakes, waiting for approximately
1 min, and then examining for leeches attached to skin. Specimens were relaxed with gradual
addition of ethanol and fixed with 96% ethanol. The posterior sucker of representative speci¬
mens was fixed in 100% ethanol. Dissections of leeches were accomplished using stereoscopic
microscopy. Photographs of whole specimens were taken using either a Nikon Coolpix P5000

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AMERICAN MUSEUM NOVITATES

NO. 3701

or a P5100 digital camera attached to a microscope. Drawings were made by superposition of
vector art on placed images in Adobe Illustrator (Adobe Systems, San Jose, California). All
measurements mentioned herein are in millimeters. The type series and voucher specimens
were deposited in the American Museum of Natural History (AMNH), New York.

SYSTEMATICS

Rhynchobdellida Blanchard, 1894
Glossiphoniidae Vaillant, 1890

Placobdella kwetlumye , new species
Figures 2-6

Material Examined: Two specimens collected in Squires Lake, Washington on Septem¬
ber 30, 2009, by Alejandro Oceguera-Figueroa and Sebastian Kvist. Collected from the legs of
AOF and on the underside of submerged rocks and wood.

Description: External morphology based on two specimens. Body dorsoventrally flat¬
tened, lanceolate, brownish tegument. Average body length 17.75 (14.60-20.90), average
body width 4.70 (4.60-4.80). Complete somite triannulate, partially subdivided in somites
at middle of body. Somites I and II uniannulate; III-IV biannulate; V-XXIV triannulate;
XXV-XXVI biannulate; XXVII uniannulate. Two pair eyespots on III in “placobdellid”
arrangement (i.e., in which the anterior most eyespots are coalesced medially to each other
and posteriorly to the second pair). Oral sucker small, mouth pore on anterior border. Pos¬
terior sucker circular with papillae on dorsal surface. Anus located on dorsal surface of
XXVII. Solid longitudinal stripe in midline of dorsal surface from V to XXIV, partially inter¬
rupted by large papillae and replaced by unpigmented medial stripe in most anterior somites.
Dorsum with seven rows of papillae. Large papillae forming five longitudinal rows, promi¬
nent papillae on a2. Medial and lateral rows more conspicuous than marginal rows. Minor
paramedial rows formed of medium-sized papillae bilaterally in the area between medial and
lateral rows. From XXV-XXVII minor paramedial rows only are prominent. Dorsal surface
not occupied by large and medium papillae, covered with punctiform, evenly distributed
papillae (fig. 2). Ventral surface smooth and brownish, without metameric stripes, papillae
or spots (figs. 3-4). Male gonopore between XI and XII. Female gonopore at XII a2/a3; two
annuli between gonopores.

Internal morphology based on one dissected specimen. Proboscis large, in membranous
sheath extending posteriorly to XI when retracted, unlooped. One pair well-developed
anteromedial compact salivary glands extending from IXa3 to XI, discharging into base of
proboscis. Posterolateral salivary glands absent. Esophagus short, folded, with one pair elon¬
gated mycetomes extending anteriorly from XI/XII to X a2 (fig. 5). Crop with seven pairs
foliaceous caeca, last pair forming well-developed postcaeca (diverticula) extending posteri¬
orly to XXV. Intestine with four pairs simple caeca in XX-XXIII. Male reproductive system
with well-developed atrial cornua and highly coiled ejaculatory ducts. Six pairs intersegmen-

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FIGURES 2-6. Placobdella kwetlumye, n. sp. 2. Paratype, dorsal view. 3. Paratype, ventral view. 4. Eggs
attached to the venter, ventral view. 5. Illustration of the proboscis (p), compact salivary glands (s), and myc-
etomes (m), in dorsal view. 6. Illustration of the male and female reproductive systems, dorsal view; testisacs
not shown. Scale bars - 5 mm.

tal testisacs from XIII/XIV to XVIII/XIX. Ovisacs without common oviduct, anteriorly
bilobed, extending posteriorly to XVII, anterior ovisac bifurcation at XIII/XIV. Anterior lobe
extending anteriorly to XIII (fig. 6).

Holotype: Dissected, fixed in ethanol. 20.9 length, 5.0 maximum width. Collected by
Alejandro Oceguera-Figueroa on September 30, 2009 (AMNH 5527).

Type Locality: Squires Lake, Whatcom County, Washington, 48°39'36.98"N;
122°20'02.76"W.

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NO. 3701

Paratype: One undissected specimen fixed in ethanol, collected by Sebastian Kvist, Squires
Lake, Whatcom County, Washington, 48°39'36.98"N; 122°20'02.76"W, on September 30, 2009
(AMNH 5528).

Additional Material: Thirteen specimens fixed in ethanol collected by Robin M. Over-
street. Some specimens found free living, some feeding from the cloaca of a gadwall ( Anas
strep era) in Summer Lake Wildlife Area, Lake County, Oregon, on August 14, 2002.

Remarks: This species stands apart from all other species of Placobdella by its possessing
a single pair of compact salivary glands. Siddall et al. (2005) and Siddall and Bowerman (2006)
redefined the genus Placobdella to include species provided with two pairs of eyespots (with
the anterior pair smaller and coalesced), with one pair of cecate mycetomes connected to the
esophagus and with bilobate ovaries. The morphological characteristics found in P. kwetlumye,
n. sp., are consistent with that definition. Placobdella kwetlumye, n. sp., resembles other papil-
lated members of the genus described for North America: Placobdella burresonae Siddall and
Bowerman, 2006, Placobdella multilineata Moore, 1953, Placobdella all Hughes and Siddall,
2007, Placobdella ornata (Verrill, 1872), and Placobdella papillifera (Verrill, 1872). However, the
new species is easily distinguished from the last three of these owing, among other things, to
the pattern of papillation. Placobdella all, P. ornata, and P. papillifera present highly papillated
dorsal surfaces, not forming well-structured rows like those present in P. burresonae, P. multi¬
lineata, and P. kwetlumye, n. sp. In addition, those highly papillated species exhibit two pairs
of well-developed compact salivary glands connecting to the base of the proboscis; P. kwetlumye,
n. sp., is the only species of the genus lacking the posterior pair. Furthermore, P. ali and P.
papillifera present ventral pigmentation patterns, completely absent in P. kwetlumye, n. sp.

Placobdella burresonae and P. multilineata are superficially the most morphologically simi¬
lar species to P. kwetlumye, n. sp. However, some differences in the external as well as in the
internal morphology can be recognized. Medial and paramedial dorsal rows in P. burresonae
and P. multilineata are formed by papillae of different size in every single annulus (see fig. 1 in
Siddall and Bowerman, 2006), whereas in P. kwetlumye, n. sp., rows are formed by prominent
papillae only on a2. Moreover, no marginal furrows are present in P. burresonae in contrast
with P. kwetlumye, n. sp. (which has marginal papillae instead).

Etymology: The specific epithet is based on the Nlaka’pamux (an Interior Salish “Thomp¬
son group” language) word for “leech” or “bloodsucker,” kwetlumye. The species name should
be pronounced “kwaitle-oom-yay.” The type locality of P. kwetlumye, n. sp., corresponds to a
region inhabited by the Coast Salish, but because no word for “leech” could be found in the
Coast Salish lexicon, we opted for the lexicon of the geographically closest group.

Placobdella sophieae, new species
Figures 7-13

Material Examined: Eight specimens collected in Squires Lake, Washington, Septem¬
ber 30, 2009, by Alejandro Oceguera-Figueroa and Sebastian Kvist. Collected from the legs
of A.O.-F. and from the underside of submerged rocks and wood.

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FIGURES 7-13. Placobdella sophieae, n. sp. 7. Holotype, dorsal view. 8. Holotype, ventral view. 9. Eyespots
showing characteristic “placobdellid” arrangement. 10. Posterior sucker showing the pedicel (peduncle). 11.
Posterior sucker showing dorsal papilla. 12. Proboscis (p) and bundle of ductules (d), dorsal view; mycetomes
not shown. Diffuse salivary glands indicated by arrows. 13. Dorsal view of the male and female reproductive
systems. Scale bars = 3 mm.

Description: External morphology based on eight specimens. Body dorsoventrally flat¬
tened, ovate-lanceolate, semitransparent tegument when alive, with three pairs of dorsal rows
of brownish-pigmented spots on a2 of each somite, otherwise chromatophores randomly
arranged on ventral and dorsal surfaces (figs. 7-8). Body brownish when fixed. Average body
length 12.6 (11.0-14.1), average body width 4.8 (4.0-6.4). Complete somite triannulate. Somites
I and II uniannulate; III-V biannulate; VI-XXIII triannulate; XXIV biannulate; XXV-XXVII
uniannulate. Two pair eyespots on III in “placobdellid” arrangement (fig. 9). Oral sucker small,
mouth pore on anterior border. Posterior sucker circular, separated from body by obvious
constriction or pedicel (fig. 10). Anus on dorsal surface of XXVII (fig. 11). Male gonopore
between XI and XII. Female gonopore at XII a2/a3; 2 annuli between gonopores.

AMERICAN MUSEUM NOVITATES

NO. 3701

Internal morphology based on three dissected specimens. Proboscis short, in membranous
sheath extending posteriorly to IX, unlooped when retracted. Diffuse salivary glands dispersed
dorsolaterally from VII to XIII, connecting to base of proboscis through well-developed bun¬
dles of ductules (fig. 12). Esophagus large, folded, with one pair cecate mycetomes at X. Crop
with seven pairs foliaceous caeca, last pair forming well-developed postcaeca (diverticula)
extending posteriorly to XXV. Intestine with four pairs simple caeca in XX-XXIII. Male repro¬
ductive system with well-developed atria and highly coiled ejaculatory ducts. Six pair interseg-
mental testisacs from XIII/XIV to XVIII/XIX. Ovisacs without common oviduct, anteriorly
bilobed, extending posteriorly to XVIII, ovisac bifurcation at XIII. Anterior lobe very short
extending only to XII (fig. 13).

Holotype: Undissected, fixed in ethanol. 15.0 length, 5.8 maximum width. Collected by
Alejandro Oceguera-Figueroa on September 30, 2009 (AMNH 5529).

Type Locality: Squires Lake, Whatcom County, Washington, 48°39'36.98"N;
122°20'02.76"W.

Paratypes: Seven specimens (3 dissected and 4 undissected), fixed in ethanol. Collected
by Alejandro Oceguera-Figueroa and Sebastian Kvist, Squires Lake, Whatcom County, Wash¬
ington, on September 30, 2009 (AMNH 5530).

Etymology: The species is named after Sophie Alice Burgess in honor of her birth.

Remarks: The morphological characteristics found in P sophieae, n. sp., are consistent with
synapomorphies of the genus (Siddall et al., 2005; Siddall and Bowerman, 2006). The presence
of a small pedicel (peduncle) separating the posterior sucker from the rest of the body, present
in P. sophieae, n. sp., has been recorded in at least two other Placobdella species, Placobdella
pediculata Hemingway, 1908, and Placobdella cryptobranchii (Johnson and Klemm, 1977), as
well as in Actinobdella inequiannulata Moore, 1901, and Actinobdella annectens Moore, 1906.
Placobdella sophieae, n. sp., is distinguished from species of Actinobdella, in that the latter have
several retractile digitate processes on the rim of the caudal sucker; absent in the new species.
In addition to the presence of a small pedicel, P. pediculata and P. cryptobranchii also have dif¬
fuse salivary glands like those of P. sophieae, n. sp. However, P. sophieae, n. sp., is distinguished
principally by its external morphology, which contrasts with the absence of prominent papillae,
white patches or colored dots in P. pediculata and P. cryptobranchii. Moser et al. (2008) described
two paramarginal rows of metameric spots on the dorsal surface as well as white patches (typi¬
cally 3) between white cephalic and caudal somites for P. cryptobranchii, in any case, the pattern
corresponds with that of P. sophieae, n. sp. Furthermore, Hemingway (1908) recorded the anus
at XXIII/XXIV in P. pediculata, whereas in P. sophieae, n. sp., the same structure is situated in
XXVII. The diffuse salivary glands of Placobdella sophieae, n. sp., connect to the base of the
proboscis through well-developed common bundles. These structures were not recorded by
Johnson and Klemm (1977) for P. cryptobranchii. Placobdella pediculata and P. cryptobranchii
were described as permanent parasites of the fresh-water sheepshead ( Aplodinotus grunniens )
and the Ozark hellbender ( Cryptobranchus alleganiensis) respectively. Hemingway (1908) and
Johnson and Klemm (1977) reported that the leeches were always found attached to their host,
never free living, which contrasts with our findings of Placobdella sophieae, n. sp. In addition
to P. pediculata and P. cryptobranchii, discussed above, Placobdella phalera (Graff, 1899), Placob-

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della michiganensis (Sawyer, 1972), and Placobdella picta (Verrill, 1872) also possess diffuse
salivary glands, yet are easily distinguished from P. sophieae, n. sp., based on external pigmenta¬
tion. Placobdella phalera and P. michiganensis have white patches together with a white nuchal
ring on the dorsal surface. Placobdella picta has a dark greenish-brown dorsum and a thin
median line. These characters contrast with the semitransparent tegument of P. sophieae, n. sp.

Glossiphonia elegans (Verrill, 1872) Castle, 1900
Figure 14

The presence of three pairs of eyespots, dorsal papillation and pigmentation pattern, two
paramedial longitudinal stripes in the ventral surface, two annuli between gonopores, and a
relatively large size correspond with the description of Glossiphonia elegans. North American
and European forms have very similar morphological traits, to the extent that previous taxono¬
mists (i.e., Klemm, 1982; Sawyer, 1986) considered them to be the same species: Glossiphonia
complanata (Linnaeus, 1758). However, Siddall et al. (2005), using phylogenetic criteria, found
that they represent different evolutionary lineages and resurrected Verrills 1872 name Glossi¬
phonia elegans for the North American species (see also Madill and Hovingh, 2007). Found on
the underside of submerged rocks and wood.

FIGURES 14-19. Glossiphoniids found in Washington in this study; dorsal and ventral views, left and right
respectively. 14. Glossiphonia elegans. 15. Helobdella elongata. 16. H. modesta. 17. Helobdella papillata. 18.
Placobdella montifera. 19. Theromyzon cf. rude. Scale bars = 5 mm.

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AMERICAN MUSEUM NOVITATES

NO. 3701

Helobdella elongata (Castle, 1900)

Figure 15

The absence of a chitinous nuchal scute as well as the presence of an unpigmented, non-
papillated, and subcylindrical body all correspond to the description of H. elongata. Washing¬
ton specimens lacked obvious eyespots, a characteristic noticed for some individuals of this
species elsewhere (Klemm, 1982). Found on the underside of submerged rocks and wood.

Helobdella modesta (Verrill, 1872) Siddall et al., 2005
Figure 16

Specimens all correspond to the description of H. modesta due to the presence of an obvi¬
ous chitinous nuchal scute on the dorsal surface of VIII, one pair of eyespots, and the absence
of dorsal or ventral papillation or pigmentation. The presence of a nuchal scute had led previ¬
ous taxonomists to synonymize almost every previously described species exhibiting this char¬
acteristic under the name Helobdella stagnalis Linnaeus, 1758. Siddall et al. (2005), using a
phylogenetic perspective, resurrected Helobdella modesta (Verrill, 1872) for the North Ameri¬
can species. Found on the underside of submerged rocks and wood.

Helobdella papillata (Verrill, 1872) Siddall and Borda, 2003

Figure 17

The presence of one pair of eyespots, longitudinal dorsal pigmented stripes, and rows of
black-tipped papillae as well as one annulus between gonopores and diffuse salivary glands
match the description of Helobdella papillata. This species belongs to the “triserialis” complex
of species defined by Sawyer, 1986. Helobdella triserialis (Blanchard, 1894) was originally
described based on specimens collected in Chile. However, because of the high degree of varia¬
tion in the various forms in the New World, Ringuelet (1943) lumped them all under “H. tri¬
serialis.” Siddall and Borda (2003) found that at least North and South American forms each
constitute distinct evolutionary lineages and resurrected Verrill’s name, Helobdella papillata,
for North American forms, all of which are genetically similar regardless of pigmentation.
Specimens were found on the underside of submerged rocks and wood.

Placobdella montifera (Moore, 1906)

Figure 18

The presence of three longitudinal ridges on the dorsal surface (one median and two lat¬
eral) and the distinctively narrow neck constriction, together with the “placobdellid” eyespot
arrangement are in agreement with the description of P. montifera (see Klemm, 1982). Found
on the undersides of submerged rocks and wood.

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Theromyzon, cf. rude (Baird, 1869)

Figure 19

The presence of four pairs of eyespots arranged in parallel, two annuli between gonopores,
cylindrical male atrium and weakly developed atrial cornua agree with the description of
Theromyzon rude (see Oosthuizen and Davies, 1993). The type locality of T. rude is in the
Northwest at Great Bear Lake, Canada. Sawyer (1986) considered this species common in the
western United States and Canada. A major revision of the genus, including their phylogenetic
relationships has yet to be attempted. Found on the underside of submerged rocks and
wood.

Arhynchobdellida Blanchard, 1894
Erpobdellidae Blanchard, 1894

Erpobdella annulata (Moore, 1922) Oceguera-Figueroa et al. (in press)

Figure 20

Moore (1922) described Erpobdella punc¬
tata annulata from the vicinity of Vancouver,
Canada, and noticed that in the humid Pa¬
cific regions of Washington, Oregon, and
British Columbia this subspecies replaces the
more common E. punctata punctata. The
main morphological characteristic that dis¬
tinguishes E. annulata from E. punctata is
that the former has strongly pigmented dor¬
sal transverse stripes (one on each annulus),
unlike the longitudinal pigmentation of E.
punctata sensu stricto or any of its variants
(see Madill and Hovingh, 2007). Oceguera-
Figueroa et al. (in review) suggested that the
name E. annulata should be used for the
transversally striped form from the Pacific
Northwest. All other morphological charac¬
ters, including three pairs of eyespots, two
annuli between gonopores, and ejaculatory
ducts not forming preatrial loops, are consis¬
tent with those of E. annulata. Found on the
underside of submerged rocks and wood.

FIGURES 20-22. Erpobdellids found in Washington
in this study; dorsal and ventral views, top and bot¬
tom respectively. 20. Erpobdella annulata. 21. E.
obscura. 22. Erpobdella punctata. Scale bars = 5 mm.

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AMERICAN MUSEUM NOVITATES

NO. 3701

Erpobdella obscura (Verrill, 1872) Siddall, 2002
Figure 21

The presence of four pairs of eyespots, colored patches dispersed on the dorsal and ven¬
tral surface, two annuli between gonopores, spirally coiled atrial cornua, ejaculatory ducts
forming preatrial loops, and a relatively large size correspond to the description of Erpobdella
obscura (see Klemm, 1982). Found on the underside of submerged rocks and wood.

Erpobdella punctata (Leidy, 1870)

Figure 22

Erpobdella punctata is widely distributed in North America with highly variable pigmenta¬
tion patterns (see diagrams in Klemm, 1982; Madill and Hovingh, 2007). The presence of two
longitudinal paramedial stripes on the dorsal surface, as well as three pairs of eyespots, two
annuli between gonopores and ejaculatory ducts not forming preatrial loops are consistent with
the characteristics of E. punctata. Found on the underside of submerged rocks and wood.

CONCLUSIONS

This paper represents a first broad attempt to investigate the hirudinifauna from Washing¬
ton. We found a relatively rich diversity of leeches with 11 species of two families (Glossipho-
niidae and Erpobdellidae) including two new glossiphoniids: Placobdella kwetlumye, n. sp., and
Placobdella sophieae, n. sp. Altogether, 14 species are now known for the state of Washington,
including those identified by Klemm (1982). Our discovery of heretofore undescribed species
of Placobdella continues a recent pattern of increasing clarity regarding the diversity of this
principally North American genus of blood-feeding leeches (Hughes and Siddall, 2007; Lopez-
Jimenez and Oceguera-Figueroa, 2009; Oceguera-Figueroa and Siddall, 2008; Siddall and Bow-
erman, 2006). Additional faunistic surveys of neighboring freshwater habitats in Idaho,
Wyoming, northern California, and southwestern Canada may yet reveal species in addition
to those already found in Oregon and Washington.

Previously, glossiphoniid leeches known to feed on birds were exclusively in the genus
Theromyzon. Placobdella kwetlumye, n. sp., is the first species of the genus found feeding from
waterfowl, though not from their narines, as is typical for species of Theromyzon. Whether this
represents a specificity for waterfowl by P. kwetlumye, n. sp., or is merely reflective of very
general tastes is not yet clear.

Morphology of the salivary complex has long been used in the taxonomy of the genus and
some species formerly considered as belonging to Placobdella were transferred to the genus
Desserobdella Barta and Sawyer, 1990, because of their possession of diffuse salivary glands
(Barta and Sawyer, 1990; Jones and Woo, 1990). However, Siddall et al. (2005) recovered Des¬
serobdella as polyphyletic showing the poor phylogenetic value of this character and considered
Desserobdella a junior synonym of Placobdella. Regardless of this, the character is useful in

2010

OCEGUERA-FIGUEROA ET AL.: WASHINGTON LEECH COLLECTIONS

13

distinguishing between species since no evidence of intraspecific (within a particular species)
variation of the salivary glands in Placobdella species is known to occur. Placobdella kwetlumye,
n. sp., is unique among the species of Placobdella insofar as it possesses a single pair of compact
salivary glands; its inclusion in the genus Placobdella is guaranteed by its possession of diag¬
nostic characters but provide evidence for the extremely variable condition of the salivary cells.
Similar levels of salivary gland variation occur in the genus Helobdella, which includes non¬
blood-feeding leeches with compact, partially compact and diffuse salivary glands (Siddall and
Borda, 2003) but in sharp contrast with the unique salivary gland morphology present in all
the species of Haementeria (e.g., Oceguera-Figueroa, 2008).

ACKNOWLEDGMENTS

David Beck (University of Alberta) and Peter Whiteley (AMNH) passionately provided
linguistic insights leading to the choice of the name Placobdella kwetlumye.

Fieldwork was conducted with the financial support of the Theodore Roosevelt Memorial
Grant (AMNH) to A.O.-F. and the Richard Gilder Graduate School to S.K. A National Science
Foundation grant (DEB-0640463) provided financial support for the realization of this project.
CONACyT (172322-Mexico) and the CUNY Science Fellowship provided financial support to
A.O.-F. An early draft of this paper was much improved by comments from Anna Phillips. The
Washington State Parks and Recreation Commission and the Washington Department of Fish
and Wildlife provided collection permits.

REFERENCES

Armstrong, J.E., D.R. Crandell, D.J. Easterbrook, and J.B. Noble. 1965. Late Pleistocene stratigraphy and
chronology in southwestern British Columbia and northwestern Washington. Geological Society of
America Bulletin 76: 321-330.

Barta J.R., and R.T. Sawyer. 1990. Definition of a new genus of glossiphoniid leech and a redescription
of the type species, Clepsine picta Verrill, 1872. Canadian Journal of Zoology 68: 1942-1950.

Crandell, R. 1971. Postglacial lahars from Mount Rainier Volcano, Washington. U.S. Geological Survey
Professional Paper 677, 75 pp.

Hemingway, E.E. 1908. Placobdella pediculata n.sp. American Naturalist 42: 527-532.

Hughes, J.L., and M.E. Siddall. 2007. A new species of leech from the New York metropolitan area.
American Museum Novitates 3578: 1-6.

Johnson, G.M., and D.J. Klemm. 1977. A new species of leech, Batracobdella cryptobranchii n. sp. (Annel¬
ida: Hirudinea), parasitic on the Ozark hellbender. Transactions of the American Microscopical
Society 96: 327-331.

Jones, S.R.M., and P.T.K Woo. 1990. Redescription of the leech Desserobdella phalera (Graf, 1899)
n. comb. (Rhynchobdellida: Glossiphoniidae), with notes on its biology and occurrence on fishes.
Canadian Journal of Zoology 68: 1951-1955.

Klemm, D.J. 1982. The leeches (Annelida: Hirudinea) of North America. Cincinnati, OH: Aquatic Biol¬
ogy Section, Environmental Monitoring and Support Laboratory. Office of Research and Develop¬
ment, U.S. Environmental Protection Agency.

14

AMERICAN MUSEUM NOVITATES

NO. 3701

Kruckeberg, A.R. 1991. The natural history of Puget Sound Country. Seattle: University of Washington
Press.

Lopez-Jimenez, S., and A. Oceguera-Figueroa, 2009. New species of rhynchobdellid leech (Hirudinea:
Glosshphoniidae): a parasite of turtles from Chiapas, Mexico. Journal of Parasitology 95: 1356-
1359.

Madill, J., and P. Hovingh. 2007. Freshwater leech (Annelida: Hirudinida) distribution in the Canadian
province of Newfoundland and Labrador and adjacent regions: check-list, new records, new pig¬
mentation forms, and Pleistocene refugia. Zootaxa 1657: 1-21.

McCune, B., R. Rosentreter, J.M. Ponzetti, and D.C. Shaw. 2000. Epiphyte habitats in an old conifer for¬
est in western Washington, U.S.A. Bryologist 103: 417-427.

Moore, J.P. 1922. The fresh water leeches (Hirudinea) of Southern Canada. Canadian Field Naturalist
36: 6-11,31-39.

Moser, W.E., et al. 2008. Placobdella cryptobranchii (Rhynchobdellida: Glossiphoniidae) on Cryptobran-
chus alleganensis bishopi (Ozark Hellbender) in Arkansas and Missouri. Comparative Parasitology
75: 98-101.

Oceguera-Figueroa, A. 2008. A new glossiphoniid leech from Catemaco Lake, Veracruz, Mexico. Journal
of Parasitology 94: 375-380.

Oceguera-Figueroa, A., and M.E. Siddall. 2008. Placobdella lamothei n. sp. (Hirudinea: Glossiphoniidae),
a new leech parasite of freshwater turtles from Estado de Mexico, Mexico. Revista Mexicana de
Biodiversidad 79: 135S-139S.

Oceguera-Figueroa, A., A. Phillips, B. Pacheco-Chaves, W. K. Reeves, and M.E. Siddall. In press. Phy-
logeny of macrophagous leeches of the suborder Erpobdelliformes (Hirudinea, Clitellata) based on
molecular data and evolution of the barcoding locus. Zoologica Scripta.

Oosthuizen, J.H., and R.W. Davies. 1993. A new species of Theromyzon (Rhynchobdellida: Glossiphoni¬
idae), with a review of the genus in North America. Canadian Journal of Zoology 71: 1311-1318.

Peterson, D.L., E.G. Schreiner, and N.M. Buckingham. 1997. Gradients, vegetation and climate: spatial
and temporal dynamics in the Olympic Mountains, U.S.A. Global Ecology and Biogeography Letters
6: 7-17.

Phillips, A.J., and M.E. Siddall. 2005. Phylogeny of the New World medicinal leech family Macrobdel-
lidae (Oligochaeta: Hirudinida: Arhynchobdellida). Zoologica Scripta 34: 559-564.

Ringuelet, R.A. 1943. Sobre la morfologia y variabilidad de Helobdella triserialis (Em. Bl.) (Hirudinea,
Glossiphoniidae). Notas del Museo de la Plata Zoologia 8: 215-240.

Sawyer, R.T. 1967. The leeches of Louisiana, with notes on some North American species (Hirudinea,
Annelida). Proceedings of the Louisiana Academy of Science 30: 32-38.

Sawyer, R.T. 1986. Leech biology and behavior. Oxford: Clarendon Press.

Sawyer, R.T., A.R. Lawler, and R.M Overstreet. 1975. Marine leeches of the eastern United States and
the Gulf of Mexico with a key to the species. Journal of Natural History 9: 633-667.

Siddall, M.E., and E. Borda. 2003. Phylogeny and revision of the leech genus Helobdella (Glossiphoni¬
idae) based on mitochondrial gene sequences and morphological data and a special consideration
of the triserialis complex. Zoologica Scripta 32: 23-33.

Siddall, M.E., and J. Bowerman. 2006. A new species of glossiphoniid leech from Ranapretiosa (Amphibia:
Ranidae) in Oregon. Journal of Parasitology 92: 855-857.

Siddall, M.E., R.B. Budinoff, and E. Borda. 2005. Phylogenetic evaluation of the systematics and bioge¬
ography of the leech family Glossiphoniidae. Invertebrate Systematics 19: 105-112.

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