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Review of the mite genus Gaeolaelaps Evans & Till (Acari: Laelapidae), and description of a new species from North America, G. gillespiei n. sp. PDF

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Preview Review of the mite genus Gaeolaelaps Evans & Till (Acari: Laelapidae), and description of a new species from North America, G. gillespiei n. sp.

Zootaxa 2158: 33–49 (2009) ISSN 1175-5326 (print edition) www.mapress.com/zootaxa/ Article ZOOTAXA Copyright © 2009 · Magnolia Press ISSN1175-5334(online edition) Review of the mite genus Gaeolaelaps Evans & Till (Acari: Laelapidae), and description of a new species from North America, G. gillespiei n. sp. FRÉDÉRIC BEAULIEU Canadian National Collection of Insects, Arachnids and Nematodes, Agriculture and Agri-Food Canada, 960 Carling Avenue, Ottawa, ON K1A 0C6, Canada. E-mail: [email protected] Abstract The concept of the genus Gaeolaelaps of the mite family Laelapidae is reviewed, based on species descriptions in the literature and the examination of specimens of selected described and undescribed species. A short diagnosis and a description of the genus is presented, showing the range of morphological character states and indicating species that depart from the typical character states. Gaeolaelaps is restored from subgeneric to generic rank. A new species, G. gillespiein. sp., is described from adult female and male specimens. This species shows promise in the control of fungus gnats and thrips on greenhouse cucumbers in British Columbia, Canada. It is a relative of the well known biocontrol agent Gaeolaelaps (or Hypoaspis)aculeifer, but presents a set of morphological traits that distinguish it from G.aculeifer and other related species. The diversity of soil-dwelling mesostigmatic mites remains poorly explored, and so is their potential for biological control. Keywords:Hypoaspis, Hypoaspidinae, Mesostigmata, predatory mite, biocontrol Introduction The mesostigmatic mite family Laelapidae is ecologically diverse, and comprises obligate and facultative parasites of vertebrates, insect paraphages, and free-living predators that inhabit soil-litter habitats, as well as the nests of vertebrates and arthropods (Strong & Halliday 1994; Krantz & Walter 2009). The family, including the genus Gaeolaelaps Evans & Till 1966, is in need of taxonomic revision (Evans & Till 1966; Gilyarov & Bregetova 1977; Tenorio 1982; Casanueva 1993). The taxonomic rank and the boundaries of Gaeolaelaps are unclear and subject to disagreement between authors. Evans & Till (1966) defined Gaeolaelaps for the first time (Halliday & Lindquist 2007) as a subgenus of Hypoaspis Canestrini sensulato. They later (1979) gave provisionally generic status to most of the subgenera of Hypoaspis, but kept Gaeolaelaps (along with Alloparasitus and Hypoaspisella) under the genus Hypoaspis. Most subsequent authors of taxonomic studies (e.g. Costa 1968; Hunter & Yeh 1969; Gilyarov & Bregetova 1977; Karg 1979; Tenorio 1982; Ruf & Koehler 1993; Ma & Yin 1998) and biological studies (e.g. Lesna etal. 2000; Vänninen & Koskula 2004) regarded Gaeolaelaps-like species as Hypoaspis species, sometimes giving Gaeolaelaps as a subgenus, or even as a species group (Van Aswegen & Loots 1970). Other authors have used Gaeolaelaps at the genus level (Ryke 1963; Hyatt 1964; Rosario 1981; Walter & Oliver 1989; Gillespie & Quiring 1990; Krantz & Ainscough 1990; Farrier & Hennessey 1993). In this paper, I revise the concept of Gaeolaelaps by describing the range of morphological character states based on species descriptions in the literature and on the examination of specimens of selected described and undescribed species. Predatory laelapids tend to be voracious, polyphagous predators that reproduce quickly and can be reared easily (Walter & Oliver 1989; Gillespie & Quiring 1990; Lesna etal. 1995). This makes them good candidates for biological control of pests that spend time in the soil or in other plant growing media. Two soil-dwelling Accepted by B. Halliday: 1 Jun. 2009; published: 15 Jul. 2009 33 laelapids, Stratiolaelaps scimitus (Womersley) (or S. miles (Berlese); see discussion) and Gaeolaelaps aculeifer (Canestrini), are increasingly used as biocontrol agents on greenhouse crops or in mushroom cultures against fungus gnats (Sciaridae: Bradysia and Lycoriella spp.), shore flies (Ephydridae: Scatella spp.), and bulb and mould mites (Acaridae: Rhizoglyphus and Tyrophagus spp.) (Enkegaard etal. 1997; Lesna etal. 2000; Vänninen & Koskula 2004). An undescribed species related to G.aculeifer was observed in large numbers in 1984 in potted gerbera that was damaged by fungus gnats near Sidney, British Columbia, Canada (Gillespie & Quiring 1990). The predatory mite was collected and successfully cultured, first on fungus gnats and then on Tyrophagusputrescentiae (Schrank), with the aim of testing it in biological control. In greenhouse experiments, the mite caused substantial reduction in numbers of fungus gnats (Bradysia spp.) and western flower thrips (Thripidae: Frankliniella occidentalis (Pergande)) on hydroponically grown cucumbers in British Columbia (Gillespie & Quiring 1990). It reaches high populations in greenhouses and further observations suggest it may help control fungus gnats (Brian Spencer & Don Elliott, pers. comm.). I here describe the adult female and male of this new Gaeolaelaps species to provide a formal name for its identification and reference in support of its use in biocontrol programs and future ecological studies. Materials and methods Review of the genus Gaeolaelaps A total of 33 characters, as well as the leg and dorsal shield chaetotaxy when possible, was studied from descriptions (or redescriptions) in the literature, for about 75 species of Gaeolaelaps. Three species were also studied by the examination of specimens at hand: G. aculeifer, G. marksi (Strandtmann & Crossley) (female paratype), and G.queenslandicus (Womersley) (female, Puerto Rico). In addition, characters were studied for the new species described herein, as well as for at least 15 undescribed species, mostly from the Nearctic and Neotropical regions. Type specimens of G.aculeifer were not examined, as the only type specimen seemingly available for this species can be found (and examined on site only) at the Berlese Acaroteca in Firenze, Italy (Castagnoli & Pegazzano 1985; Marisa Castagnoli, pers. comm.). Some characters (e.g. the number of deutosternal denticles, the leg chaetotaxy) were not studied for all species because they were not described in the species description. Morphometric ratios of the dorsal, sternal and epigynal shields were generally calculated using my own measurements from the illustrations of species in the literature, or, when available, on specimens at hand. When measurements of dorsal shields were indicated in the text, these were used. Lengths of shields were measured along their midlines, and widths were measured between setae r3 and s6 (at widest point) for the dorsal shield, and between coxae II (at narrowest point) for the sternal shield. Description of the new species Most specimens of the new species were obtained from cultures reared on Tyrophagus sp. in sawdust substrate, by Applied Bionomics Ltd., Victoria, British Columbia. The culture originated from mites collected in 1984 from a soil mix of potted gerbera plants. The soil potting mix was prepared at the Centre for Plant Health (Canadian Food Inspection Agency), Sidney, British Columbia. Mites were mounted directly in Hoyer’s medium on microscope slides, or after clearing in lactic acid (Krantz & Walter 2009). Measurements (in μm; mean, minimum-maximum) were made from at least five females and five males mounted on slides using a stage-calibrated ocular micrometer or interactive measurement software connected to a digital camera and a compound microscope. Lengths of shields were measured along their midlines, and widths were measured at level of setae s6 for the dorsal shield, between coxae II (narrowest point) for the sternal shield, and at level of setae ZV1 for the male holoventral shield. Lengths of leg segments were measured dorso- medially, and setae from the bases of their insertions to their tips. Tarsi were measured without the ambulacra. Notation for the setae of legs and idiosoma follows Evans (1963), Evans & Till (1965, 1966), and Lindquist (1994). Notation of pore-like structures on the idiosoma mostly follows the system of Johnston & Moraza (1991) and Lindquist & Moraza (2008). I use the term ‘spine-like’ to describe setae that are strongly 34 · Zootaxa 2158 © 2009 Magnolia Press BEAULIEU thickened, and tapered apically, and ‘spur-like’ for strongly thickened setae that are blunter apically, and consequently often shorter. Holotype and paratypes are deposited at the CNCI (Canadian National Collection of Insects, Arachnids and Nematodes, at Agriculture and Agri-Food Canada) in Ottawa. The new species was compared to the descriptions of species in the literature, including the most reliable descriptions of G. ♀ ♂ aculeifer (Strandtmann 1963; Evans & Till 1966) as well as specimens (9 , 4 ) from England, The Netherlands, Sweden, Spain, and Canada (deposited at the CNCI, and at the Ohio State University Acarology Collection) that conform to the descriptions of G.aculeifer. Systematics GenusGaeolaelaps Evans & Till Geolaelaps Berlese, 1923: 254, nomennudum (see Halliday & Lindquist 2007) Gaeolaelaps Trägårdh, 1952: 66, nomennudum. Gaeolaelaps Evans & Till, 1966: 159, correct original spelling as clarified by Halliday & Lindquist (2007). Type species:Laelapsaculeifer Canestrini (1884), by original designation (Evans & Till 1966). Diagnosis. Hypoaspidine Laelapidae with the following combination of characters: dorsal shield usually bearing 39 pairs of simple, short to moderately elongate setae; adult female sternal shield longer than broad (rarely broader than long), presternal area weakly sclerotized; epigynal shield tongue-shaped or flask-shaped, not markedly broadened posteriorly, and not touching the inversely subtriangular anal shield; peritrematal and exopodal plates narrow, not expanded posteriorly to coxae IV, and free from each other; without dorsal or ventral hypertrichy, except for 0–3 additional unpaired median setae on dorsal shield; anterior margin of tectum denticulate; deutosternum with six (rarely five or seven) rows of denticles, with at least five denticles each (rarely three or four); chelicerae chelate-dentate, well-developed; leg setation normal for Laelapidae. Description. Dorsal idiosoma. Holodorsal shield covering part or all of dorsum, suboval or tapering posteriorly from setae r3–4; length 1.4–2.3 × width of shield (see Note 1 below); shield not extending ventrally, usually bearing 39 pairs of simple (2), short to moderately elongate setae (less than 0.2 × the length of dorsal shield), including setae px2–3 between J and Z series, and sometimes with 1–3 additional unpaired Jx setae between J rows; sometimes one or more podonotal setae (e.g. z3) or one or both px setae are missing on the shield, resulting in 38 or 37 pairs of setae on the shield, exceptionally less; rarely other opisthonotal setae missing (3); rarely, setae r2–3 off the dorsal shield, on soft cuticle(4); 1–8 marginal setae (r–R) and 0 to few UR setae on soft cuticle (5). Ventral idiosoma. Tritosternum normal, with two pilose laciniae. Presternal area usually weakly sclerotized and lineate, exceptionally with a pair of separate, well-sclerotized platelets (6). Sternal shield of female fused with endopodals beside coxae II–III, with anterolateral corners acutely produced, sometimes extended into narrow (7) arms (endopodal extensions) flanking coxae II anteriorly (8); shield bearing three pairs of fine, simple setae, and two pairs of lyrifissures; seta st1 sometimes off shield in presternal region (9); rarely, third pair of pore-like structures, iv3 (=pst3), captured by sternal shield (10); length 1.1–1.9 × width of sternal shield, or sometimes less in arthropod associates (11); setae st4 in soft cuticle, near iv3, or rarely st4 on minute metasternal platelets (12) or endopodal platelets (13); posterior margin of sternal shield straight, slightly convex or slightly concave (14). Epigynal shield tongue-shaped or flask-shaped, always rounded and not markedly broadened posteriorly, with broadest width (in posterior portion) 1–1.9 × the width between coxae IV (narrowest point) (15) and 0.6–1.3 × the width of sternal shield (16), and distant from the anal shield by at least the length of the anal opening (17); epigynal shield bearing a single pair of setae (st5); endopodal platelet beside coxae III–IV free, narrow and angular. Peritremes narrow, usually reaching level of coxae I anteriorly, but sometimes shorter, ending near the middle of coxae II (18); peritrematal shield connected anteriorly to dorsal shield, free from exopodal platelets (19), and not extending posteriad coxae IV. Exopodals GAEOLAELAPS GILLESPIEI SP. NOV. Zootaxa 2158 © 2009 Magnolia Press · 35 not expanded posteriad coxae IV. Metapodal platelets small. Anal shield inversely pear-shaped, subtriangular or suboval bearing three circum-anal setae; para-anal setae slightly shorter than or as long as post-anal seta, rarely slightly longer. Soft opisthogastric cuticle with 7–9 pairs of setae (JVs + ZVs) and sometimes a few URs and/or Rs visible ventrally, never hypertrichous (20). Males with holoventral shield usually bearing 10 pairs of setae, sometimes eroded laterally, capturing fewer (3 pairs instead of 5) opisthogastric setae (21), rarely with separate anal shield (22). Gnathosoma. Tectum with anterior margin rounded or subtriangular, sometimes almost straight, and occasionally with a few short, irregular projections (23), exceptionally with a narrow subtriangular projection (24), always with numerous denticles. Deutosternal groove with six rows of denticles, exceptionally five rows (25) or seven rows (26), usually preceded anteriorly and followed posteriorly by a smooth ridge; deutosternal rows with at least five denticles per row and usually some rows with over 10 denticles; exceptionally basal (6th) row with fewer than five denticles (27), or all rows with fewer than five denticles (28); all rows of denticles of subequal width, or sometimes the posterior rows narrower (29); all rows limited on each side by the lateral margins of deutosternal gutter (30). Corniculi horn-like, relatively short, reaching at most 2/3 of the palpfemur. Palp tarsal claw two-tined, rarely three-tined (31). Both sexes with cheliceral digits chelate- dentate, well developed, female movable digit with two teeth, exceptionally with a row of 5–7 small teeth between these (32); female fixed digit with few to many teeth, sometimes with a row of small teeth past the pilus dentilis; male movable digit unidentate; spermatodactyl free distally, usually short, exceeding the tip of the movable digit by less than 0.5 × the length of the digit, sometimes longer, exceeding the digit by as much as 1–1.5 × (33); pilus dentilis short, setiform; arthrodial process a simple corona. Chaetotaxy of the subcapitulum and of the palps normal for Laelapidae (sensu Evans & Till 1965). Legs. Chaetotaxy normal for Laelapidae (sensu Evans & Till 1965) (34); ventral setae of femora, genua, tibiae II–IV and many setae on tarsi II–IV usually at least thickened, sometimes spine-like or spur-like; setae of legs relatively short, except some setae on femur II (pd1), femur IV (ad1) and mostly on tarsus IV (ad2, pd2–3) can be elongate, sometimes as much as 0.6–0.7 × the length of tarsus IV (35). Pretarsi I–IV with well- developed paired claws, may be reduced on tarsi I (36). Explanatory notes. Structures referred to above vary in the following species: (1) only arthropod associates have length / width ratios of 1.4–1.5: G.barbarae (Strong 1995), blattae (Strong & Halliday 1994), glabrosimilis (Hirschmann et al. 1969), ruggi (Strong & Halliday 1994), passalus Rosario (1981), paraculeifer Rosario (1981); (2) a few setae (e.g. J4–5, Z5) may be inconspicuously barbed, e.g. in some specimens of G. aculeifer and G. gillespiei n. sp.; (3) e.g. G. disjuncta (Hunter & Yeh 1969), G. circularis Hyatt (1964), and G. ruggi have 32, 33, and 34 pairs of setae on the shield, respectively; (4) e.g. G. schusteri (Hirschmann 1966) and G.theodori (Costa 1969); (5) about 18–19 R and UR setae on lateral soft cuticle in G. millipedus Rosario (1981); (6) e.g. G.disjuncta; (7) broad arms in G. etiopicus (Berlese) as illustrated by Van Aswegen & Loots (1971), and G. wufengensis (Liu & Ma 2003); (8) anterolateral corners apparently poorly (not acutely) produced in G. blattae, millipedus, negevi (Costa 1969; or gracilis Meledzhaeva 1963, see Gilyarov & Bregetova 1977), mohrii (Ishikawa 1982); (9) e.g. G.minor (Costa 1968), franzi (Van Aswegen & Loots 1970); (10) e.g. G. schusteri, G. theodori; (11) length 0.8–0.9 × width of sternal shield in G. barbarae, paraculeifer, passalus, rarosae Rosario (1981), ruggi, 1.0 × in G. blattae, and 0.6 × in G. rosei (Strong & Halliday 1994) partly because shield is strongly indented posteriorly; (12) e.g. G. angustus (Karg 1965), ruggi,similisetae (Karg 1965); (13) e.g. G.minor,G.vanpletzeni (Van Aswegen & Loots 1970); (14) posterior margin moderately indented in G. barbarae, deeply indented in G. rosei, and with a triangular process in G. wufengensis; (15) exceptionally broadest width 2.0 × width between coxae IV in G. circularis; (16) exceptionally 1.5 × in G.etiopicus; (17) epigynal shield separated from anal shield by about half the length of the anal opening in G. tenuisetus Rosario (1981); (18) e.g. G. similisetae, G. nolli (Karg 1962); (19) fused to exopodals beside coxae IV in G. magkadikitus Rosario (1981), and apparently abutting exopodals in G. vanpletzeni; (20) exceptionally, two unpaired median setae in JV area on soft cuticle in G. angustiscutatus (Willmann 1951); (21) e.g. G. schusteri, theodori, millipedus; (22) e.g. G. negevi, G. schusteri; (23) in G. angustiscutatus, G. vertisimilis (Karg 1994), and G. praesternaloides (Ma & Yin 1998); (24) in G. 36 · Zootaxa 2158 © 2009 Magnolia Press BEAULIEU magkadikitus; G. wufengensis has an acute median projection; (25) in G. corpolongus Rosario (1981), G. etiopicus, and G. millipedus; (26) e.g. G. disjuncta, passalus, tarsalis (Bhattacharyya 1968), vanpletzeni, wufengensis, in some individuals of G. barbarae, and in the male of G. schusteri; (27) 6th row with four denticles in G. theodori; (28) 3–4 denticles in G. spiniseta (Barilo 1991); (29) e.g. 6th row narrower in G. theodori and 4th to 6th rows narrower in G. queenslandicus (Womersley 1956); (30) exceptionally 6th row widened beyond lateral margins in G.angustiscutatus (Willmann) sensu Karg (1965); (31) e.g. G.angustus,G. queenslandicus; (32) in G. angustiscutatus (Willmann 1951); (33) e.g. G.brevipilis (Hirschmann et al. 1969), G. disjuncta, G.ellipsoides (Hirschmann etal. 1969), G.postreticulatus (Xu & Liang 1996); (34)G. rosei has 2 pl setae on genu IV; (35) e.g. G. gillespiei n. sp., kargi (Costa 1968), nolli, queenslandicus; (36) e.g. G. mohrii. Remarks. By restoring Gaeolaelaps to genus rank from previous usage at the subgeneric rank (Karg 1979, 2006), I follow Walter & Oliver (1989) and Farrier & Hennessey (1993) who used Gaeolaelaps as a genus. The concept of the genus used here is narrower than that of Evans & Till (1966) and Gilyarov & Bregetova(1977), mostly by limiting Gaeolaelaps to species with a denticulate tectum, which excludes many species such as H. giffordi Evans & Till (1966), H. lubrica Voigts & Oudemans (1904), and H. heselhausi Oudemans (1912), and a relatively narrow epigynal shield bearing a single pair of setae, which excludes H. sardous Berlese (1911) and most other species classified as Alloparasitus by Karg (1979) or Euandrolaelaps by Gilyarov & Bregetova (1977). This concept is broader than that of Walter & Oliver (1989), who characterized the genus by having spur-like or spine-like setae on the distal segments of legs II–IV, and a fixed digit with a row of small teeth flanked by larger teeth. However, it broadly agrees with the definition of Hypoaspis (Gaeolaelaps) used by Karg (1979, 1982) and of Gaeolaelaps used by Krantz & Ainscough (1990). Most of the approximately 50 species classified by Karg as H. (Gaeolaelaps) (Karg 1982, 1987, 1989a, 1989b, 1994, 2000, 2003, 2006) probably belong to Gaeolaelaps. However, some of these species show disparate or exceptional character states and therefore may not belong to this group, and are, at least provisionally, excluded from Gaeolaelaps here. For instance, H.kassaii Van Aswegen & Loots (1970) and H. pinnae Karg (1987) have many barbed setae on the dorsal and opisthogastric regions. Hypoaspisciconia Karg (1979) and H. ardoris Karg (1993) have hypertrichous dorsal shields. Hypoaspis exquisita Karg (1989a) has dorsal setae with spatulate tips and a dorsal shield extending ventrally. Hypoaspis pugni Karg (1979) has many podonotal setae inserted on tubercles, no claws on tarsi I, and an epigynal shield almost blunt posteriorly. Hypoaspisloksai Karg (2000) has an enlarged epigynal shield, 1.6 × as wide as the sternal shield, and almost touching the anal shield. Hypoaspis passali Hyatt (1964) has an epigynal shield almost axe- shaped, as many as 9–10 unpaired median opisthonotal setae, and about 20 marginal and submarginal setae on the lateral cuticle. Hypoaspisspiculifer Berlese sensu Van Aswegen & Loots (1970) has only two denticles on the otherwise smooth margin of the tectum. Hypoaspis atomarius Berlese as redescribed by Van Aswegen & Loots (1970) has two ventral setae on genu IV instead of one. Hypoaspis guttaforma Karg (1989b), H. zachvatkini Buyakova & Goncharova (1972), and H. angustiscutatus sensu Lapina (1976) have at least some dorsal setae inflated near their bases, as seen in some species of Cosmolaelaps (Evans & Till 1966). The following additional species, mostly described as Hypoaspis, are regarded here as Gaeolaelaps species (see also those mentioned in Explanatorynotes above): G.aculeiferoides (Teng 1982), concinna (Teng 1982), dailingensis (Ma & Yin 1998), debilis (Ma 1996), deinos (Zeman 1982), ellipsoides (Hirschmann etal. 1969), fishtowni (Ruf & Koehler 1993), haiyuanensis (Bai et al. 1994), krantzi (Arutunian 1993), marksi (Strandtmann & Crossley 1962), matinikus Rosario (1981), paraculeifer Rosario (1981), neoaculeifer (Hirschmann 1966), oreithyiae Walter & Oliver (1989), postreticulatus (Xu & Liang 1996), singuloides (Gu ň & Duan 1993; described as Androlaelaps), subminor (Gu & Bai 1991), taitzujungi (Samši ák 1964), and G. tengi (Gu & Bai 1991). Additional ‘Hypoaspis’ or ‘Androlaelaps’ species may belong to Gaeolaelaps but are not listed here, either because I overlooked the reference or because their description in the literature did not provide sufficient information for placement in the genus. GAEOLAELAPS GILLESPIEI SP. NOV. Zootaxa 2158 © 2009 Magnolia Press · 37 Species of the genus Hypoaspis sensu stricto described by Costa (1971) are distinct from Gaeolaelaps species and can be differentiated from them by their elongate setae on the dorsal shield (particularly j3, z4, s4–5, and Z4 which is 0.2–0.5 × the length of the dorsal shield), and on femur IV (seta ad1), tarsus IV (setae ad2, pd2–3, which are usually 0.6–1.0 × the length of tarsus IV), usually also on femora II and III (pd1 and ad1, respectively), and sometimes on genu IV (ad1). Species of Hypoaspis also have a subtriangular median projection of the tectum, peritremes free from the dorsal shield anteriorly, and setae z4 and s4 tend to be inserted more laterally on the dorsal shield, resulting in exposed areas laterad j4–5 and z5. They also have a maximum of 37 pairs of setae on the dorsal shield, r2–3 being off the shield. More distant taxa, such as Androlaelaps (Laelapidae) and some Leptolaelapidae may be confused with Gaeolaelaps on the basis of similarities in dorsal chaetotaxy and the shape of the epigynal shield. Androlaelaps species can be distinguished from Gaeolaelaps by their frequently enlarged pilus dentilis, the presence of seta pl2 on genu IV, and the male chelicerae with the fixed digit reduced and edentate, and the movable digit partially or entirely fused with an elongate spermatodactyl (Till 1963; Krantz & Ainscough 1990). Leptolaelapids have the spermatodactyl directed posteriorly, often more than seven rows of deutosternal denticles, and sometimes also large metapodal plates (Ayersacarus), some setae pilose laterally (Ayersacarus) or apically (Hunteracarus), or a sternal shield that extends strongly anterior to coxa II (Leptolaelaps) (Evans 1957; Hunter 1964; Costa 1975). Gaeolaelapsgillespieisp. nov. (Figures 1–11) Material examined. Holotype: Female. Canada, British Columbia, Sidney, ex. roots and soil of wilting gerbera plants, 15 April 1982, Dave Gillespie. Paratypes: 3 females, 2 males, same data as holotype; 3 females, Sidney, ex. sawdust growing media in greenhouse, 4 May 2005, Don Elliott; 21 females, 5 males, reared from culture originated from specimens collected from potted Gerbera jamsonii Hook. that were damaged by fungus gnats, Sidney, 1984, Dave Gillespie. Diagnosis. Female dorsal shield suboval with 39 pairs of setae and 1–3 additional unpaired setae in the median area between J2–3 and between J3–4; setae px2–3 present between J and Z series; setae on shield long and slender. Seven pairs of marginal setae (r6,R1–6) in soft lateral cuticle. Peritremes extending to level of j2 and past acetabulum I. Sternal shield reticulated throughout except smooth postero-medially. Presternal area weakly sclerotized, notched anteriorly. Epigynal shield flask-shaped, relatively small, separated from the anal shield by about the length of the anal shield; reticulated throughout with larger cells behind two diagonal lines forming an inverted-V. Tectum with anterior margin rounded and denticulate. Subcapitulum with six rows of 11–34 deutosternal denticles; hypostomal seta h3 elongate and posterior to h2. Fixed digit of female chelicera with 7–10 teeth of irregular size, and male fixed digit with 11–15 small to minute teeth. Palp genua with tips of setae al1 trifurcate. Setae on legs simple and slender except the following setae thickened and/or spine-like: seta al on trochanter II, dorsal seta on trochanter IV, av2 on femur II, pd on femur III (slightly thickened), pd on femur IV, av1 on genua III–IV, pv1 on tibia II (slightly thickened), av1 and pv1 on tibia III–IV, most setae on telotarsi II–IV; pd2 and al2 on tarsus IV slender and elongate. Spermatodactyl relatively long, tip tapering sharply and bent ventrally. Female. Dorsal idiosoma (Fig. 1). Dorsal shield (600–672 long × 328–368 wide) suboval, reticulate throughout, bearing 39 pairs of setae and 1–3 unpaired setae: 22 pairs (j1–6, z1–6, s1–6, r2–r5) in podonotal region and 17 pairs (J1–5, Z1–5, px2–3, S1–5) in opisthonotal region and usually 2 (rarely 1 or 3) additional unpaired setae (Jx) in the median area between J2–3 and between J3–4; all setae simple (although J4–5 and Z5 are sometimes inconspicuously barbed, Fig. 1 inset), slender and long (49–83), except j1 (30–36) and z1 (35–43) shorter; setae s1, J1–5, Jx, and px2–3 tend to be slightly shorter (55, 49–63) than other setae, and j3–4,z3–4,s3–5 tend to be the longest (73, 66–83). Marginal setae r6 and R1–R6 relatively short (37, 30–53), in soft lateral cuticle. Peritrematal shield smooth, limited to a narrow band of varying width (3–16) bordering 38 · Zootaxa 2158 © 2009 Magnolia Press BEAULIEU the peritreme on the side neighbouring the dorsal shield, free posteriorly, narrowly fused to dorsal shield near z1, bearing six pairs of discernible pore-like structures (apparently at least three lyrifissures ‘ip’, and two or three gland pores ‘gp’; see also male in Fig. 10); peritreme extending to level of j2. Dorsal shield with 21 pairs of discernible pore-like structures, of which five or six (three or four podonotal, two opisthonotal) appear secretory (gland pores ‘gd’, Fig. 1) and at least 15 non-secretory (lyrifissures); the gland pore anterolaterad seta px2 is conspicuous and surrounded by a lacuna (cell-like border); the other opisthonotal pore, laterad seta S5, is similar although appears less conspicuous because the shield surface is more oblique near the edge; other gland pores minute. Gland pores on the dorsal shield can usually be distinguished from lyrifissures by their deeper structures and their sac-like invaginations and diverticula at high magnification. Ventralidiosoma (Figs 2–3). Tritosternum with plumose laciniae (85–92), apparently fused proximally for 5–7 from base apex (transversal line) to a fringe of 12–14 denticles, columnar base (32–37 long) (Fig. 3). Sternal shield (length 127–141), narrowest width between coxae II (95–100) (Fig. 2), broadest between coxae II–III (144–170), ratio length / width 1.27–1.42, with narrow, extended arms flanking coxae II anteriorly, often obscure; reticulated throughout except smooth in postero-median region where overlapped by hyaline anterior margin of epigynal shield, cells elongate and compressed in median anterior area; shield bearing long, slender setae st1–3 (47–50, 52–59, 47–53, respectively), and lyrifissures iv1–2; posterior margin more or less straight, with a pair of minute pits near the median line (sometimes not discernible). Presternal area weakly sclerotized, lineate and lightly granulate, notched medially (Fig. 2, see also male, Fig. 10). Setae st4 (51–56) and lyrifissure iv3 in soft cuticle; endopodals mediad coxae III–IV, angular, separate from sternal shield. Epigynal shield (full length 210–230; 95–110 from level of st5 to posterior tip) with hyaline anterior margin broadly rounded, reticulate throughout, with 6–8 larger cells in the posterior area delimited by two lines forming an inverted-V (only four cells if longitudinal divisions are not discernible), narrowest width between coxae IV (73–82), and oval posteriorly (maximum width 106–115), bearing setae st5 on margins, and flanked by pair of lyrifissures iv5 (=pst5) on soft cuticle near st5. Narrow endopodal platelet present mediad coxae III–IV. Narrow exopodal plate surrounding coxae IV, and small exopodal plate between coxae II and III. External, primary (27–30 × 5–8) and inner (9–20 × 3–4) metapodal platelets narrow; paragenital platelet narrow, beside seta ZV1 (Fig. 2). Anal shield (85–103 × 78–94 wide) inversely subtriangular, lineate, with post-anal seta (44–49) longer than para-anal setae (33–36); cribrum with dense field of spicules. Soft cuticle with long (most 38–53), slender ventral setae JV1–5,ZV1–4, with JV5 longest (52–64), ZV3 shortest (31–39), and one pair of submarginal setae (UR) laterad ZV3–4 (or laterad R3–4 if seen dorsally) (Figs 1–2). Gnathosoma (Figs 4–7). Tectum (Fig. 4) with anterior medial margin somewhat rounded and denticulate. Subcapitulum (Fig. 5) with six rows of deutosternal denticles, preceded anteriorly and followed posteriorly by a smooth ridge devoid of teeth; rows 2–3 with most denticles (23–34) and row 6 (basal row) with fewest (11–16); rows 4–6 usually with slightly larger denticles, and ridges of rows 5–6 extending onto genae; corniculi horn-like (51–55), extending slightly beyond palptrochanter; internal malae abutting and projecting medially, coarsely fringed laterally, more finely fringed along median projection, almost reaching tip of corniculi; labrum extending slightly beyond corniculi for 6–12 (Fig. 5); hypostomal setae long and fine, inner posterior h3 longer (60–63) than anterior h1 (39–43), outer posterior setae h2 (26–29), and palpcoxal setae pc (41–43); setae h2 42–46 apart, and pc 52–58 apart. First cheliceral segment 68–88; second cheliceral segment (170–187) ending in fixed digit, bearing an offset large tooth and 1–2 small teeth subapically, followed by a large tooth at the level of a short, setiform pilus dentilis, and a row of 2–6 teeth of irregular size (the most proximal ones tend to be larger) flanked proximally by a larger tooth; dorsal seta posteriad dorsal lyrifissure; movable digit (64–67) bidentate, with fringed arthrodial corona (Fig. 7). Palps (195–211) (Figs 5–6) with simple setae except al on femur thickened, spine-like, al1 and al2 of genu thickened, and apically trifurcate and subspatulate respectively; setation of palp segments from trochanter to tarsus: 2-5-6-14-15, including two dorso-distal setae on tibia apparently hollow and with narrowly rounded tip, and nine similar setae on tarsus; palp tarsal claw 2-tined, with tines tapered and flanked by a hyaline flap (not always discernible), ventral tine shorter (12–15 from the fork) than dorsal tine (18–20 from fork, 26–29 from base) (Fig. 6). GAEOLAELAPS GILLESPIEI SP. NOV. Zootaxa 2158 © 2009 Magnolia Press · 39 FIGURES 1–4.Gaeolaelapsgillespiein. sp., female. 1, Dorsal shield; 2, Ventral idiosoma. Arrows showing endopodal platelet, (2) metapodal platelets, (1) paragenital platelet, and lyrifissure iv5; 3, Tritosternum; 4, Tectum. 40 · Zootaxa 2158 © 2009 Magnolia Press BEAULIEU FIGURES 5–8.Gaeolaelapsgillespiei n. sp., female. 5, Subcapitulum and trochanter, femur and genu of palp; 6, Palp tarsal claw; 7, Chelicera, antiaxial view; 8, Left leg II, antero-lateral view. GAEOLAELAPS GILLESPIEI SP. NOV. Zootaxa 2158 © 2009 Magnolia Press · 41 FIGURES 9–11. Gaeolaelaps gillespiei n. sp. 9, Female, right leg IV, dorsal view; 10, Male, holoventral and peritrematal shields; 11, Male, chelicera, spermatodactyl, and variation in teeth on fixed digit, antiaxial view. 42 · Zootaxa 2158 © 2009 Magnolia Press BEAULIEU

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