2urn:lsid:arphahub.com:pub:45048D35-BB1D-5CE8-9668-537E44BD4C7Eurn:lsid:zoobank.org:pub:91BD42D4-90F1-4B45-9350-EEF175B1727AZooKeysZK1313-29891313-2970Pensoft Publishers10.3897/zookeys.629.1012110121Research ArticleAcariArachnidaArthropodaChelicerataInvertebrataMesostigmataFaunistics & DistributionNomenclatureSystematicsTaxonomyMexicoNorth AmericaTwo new mite species of the genus Zygoseius Berlese from Mexico (Acari, Mesostigmata)AhadiyatAli1ali.ahadiyat@hotmail.comBeaulieuFrédéric2Department of Entomology, Science and Research Branch, Islamic Azad University, Tehran, IranIslamic Azad UniversityTehranIranCanadian National Collection of Insects, Arachnids and Nematodes, Agriculture and Agri-Food Canada, 960 Carling avenue, Ottawa, ON K1A 0C6, CanadaAgriculture and Agri-Food CanadaOttawaCanada
Corresponding author: Ali Ahadiyat (a.ahadiyat@srbiau.ac.ir; ali.ahadiyat@hotmail.com)
Academic editor: F. Faraji
2016071120166291149FFE0FFC2-FFE5-FFB3-FFD0-FFDBA77FE030DAF04819-EFD8-462C-AA6B-1D3ED3D2FCB41651510908201613092016Ali Ahadiyat, Frederic BeaulieuThis 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.http://zoobank.org/DAF04819-EFD8-462C-AA6B-1D3ED3D2FCB4
Two new species of mites of the genus Zygoseius Berlese, Z.papaversp. n. and Z.lindquistisp. n., collected from moss and flood debris, respectively, in a creek in Chiapas State, Mexico, are described herein.
Ahadiyat A, Beaulieu F (2016) Two new mite species of the genus Zygoseius Berlese from Mexico (Acari, Mesostigmata). ZooKeys 629: 11–49. doi: 10.3897/zookeys.629.10121
Introduction
The genus Zygoseius Berlese, 1916 is a moderately small genus of mesostigmatic mites, with 13 described species currently. It was first defined by Berlese (1916) as a subgenus of Lasioseius Berlese, 1916, with description of the species Z.furciger, collected from ants’ nests in Argentina. The genus was variously reviewed by Halliday (1997), Karg (1998) and Karg and Schorlemmer (2009). Zygoseius species are found in soil, leaf litter, moss, compost, cow and chicken dung, and ants’ nests (Halliday 1997, Karg 1998, Karg and Schorlemmer 2009). Some species were found in association with insects, namely dung beetles (e.g. Z.furciger (Costa 1963) and Z.sarcinulus Halliday, 1997 (Halliday 1997)). Feeding behavior has been observed for one species, Z.furciger, which fed readily on nematodes (Walter and Ikonen 1989).
The taxonomic placement of Zygoseius is still problematic and authors placed it in various families: Ascidaesensu lato or Blattisociidae (Evans 1958, Sheals 1962, Costa 1963, Hyatt 1964), Halolaelapidae (Karg 1998, Christian and Karg 2006, Karg and Schorlemmer 2009), Laelapidae (Vitzthum 1943) and Pachylaelapidae (Lindquist and Evans 1965, Hafez and Nasr 1982, Krantz and Ainscough 1990, Halliday 1997, Moraza and Peña 2005, Lindquist et al. 2009, Childers and Ueckermann 2015). Mašán and Halliday (2014) excluded the genus from Pachylaelapidae based on its leg chaetotaxy and the two dorsal shields of the deutonymphs. Recently, the molecular analyses of Sourassou et al. (2015) suggest that Zygoseius is related to members of the superfamily Rhodacaroidea.
Materials and methods
Mite specimens were collected from moss and debris in Chiapas State (officially the Free and Sovereign State of Chiapas), Mexico, in May 1969. All specimens had been extracted from samples using Berlese-Tullgren funnels, then cleared in lactophenol and mounted in Hoyer’s medium on microscope slides. Specimens were examined using a Zeiss Axio Imager M2 and a Leica DM 2500 compound scopes, attached to cameras AxioCam ICc 5 and ICC50 HD, respectively. Images and morphological measurements were taken via ZEN 2012 software (version 8.0) and
Leica Application Suite
(LAS) software (version 4.2, Live and Interactive Measurements modules). More than 120 morphological characters were examined and measured for each species. All the measurements were given as ranges of minimum–maximum, in micrometers (µm). Lengths of shields were taken along their midlines from the anterior to posterior margins; widths were measured approximately at mid-level (at the widest point) for the dorsal shield, between mid-level of coxae II (at the narrowest point) for the female sternal shield, and from the posterior part of coxae IV (at the widest point) for the male holoventral shield. Epigynal shield lengths were measured along their midlines from anterior margin of hyaline extension to posterior shield margin and also from the level of setae st5 to the posterior shield margin. Epigynal and ventrianal shield widths were measured at the widest point, past st5 level, and near ZV2 level, respectively. Leg lengths were measured ventromedially from the base of coxa to the apex of tarsus, excluding the ambulacrum (ambulacral stalk, claws and pulvillus); lengths of leg segments were taken dorsomedially. Ambulacra were measured ventromedially including pulvilli and claws. Setae lengths were measured from the bases of their insertions to their tips. Distances between setae were measured from the center of the setal alveolae. Corniculi were measured from the apex to the median section of posterior margins. Chelicera lengths were measured for: the first or basal segment, second segment (from base to apex of the fixed digit; width measured at the widest point), fixed digit (from dorsal poroid to apex) and movable digit (from base to apex). Length of peritreme was measured from the anterior margin of stigmata to the anterior end of peritreme. Length and width of anal opening were measured excluding the raised band of cuticle surrounding the anus. Idiosomal notation for setae used in this paper follows that of Lindquist and Evans (1965). The notations for leg and palp setae follow those of Evans (1963a, 1963b). Idiosomal and peritrematal shield notations for pore-like structures (gland pores and poroids/lyrifissures) follow the systems of Athias-Henriot (1971) for ventral idiosoma and Athias-Henriot (1975) for dorsal idiosoma. The notations of spermathecal structures are based on Athias-Henriot (1968) and Evans and Purvis (1987).
(female). Dorsal shield oval, well-reticulated throughout, except nearly smooth medially between setae j6–J4; shield with serrated lateral margins. Dorsal setae smooth, relatively short, all <35 long, some podonotal (s3–5, z6) and opisthonotal (J1, J2, J4, Z1–4) setae longer than other setae; setae J5 strongly mesad, and slightly anterad Z5. Sternal shield irregularly and sparsely micropunctate, with a transverse, recurved linea posterad level of setae st1. Epigynal shield punctate, mostly anteriorly and laterally. Ventrianal shield wider than long, lineate except anterad anus, and punctate except in anterior fourth; setae JV1–2 1.5–2× as long as other setae on shield. Peritrematal shield micropunctate; punctae larger in poststigmatic region. Soft lateral and opisthogastric integument bearing nine pairs of short setae. Epistome bifurcate, distal haves of projections bipectinate. Hypostomal setae h1 twice as long as h2 and 1.5× as long as h3. Cheliceral movable digit with two subapical, unconspicuous teeth. Cheliceral fixed digit with two subapical teeth. Genua II–III with 10 and 8 setae, lacking setae av and pv, respectively. Spermathecal apparatus with globular spermatheca separated from small, ring-like sperm reservoir by a thick-walled, short duct; spermatic canal long, narrow.
Description.
Female (n = 11). Dorsal idiosoma (Figs 1, 28). Dorsal shield ovoid, 340–374 long, 252–275 wide (length/width ratio: 1.26–1.44), completely covering idiosoma, slightly widened posteriorly. Shield margins serrated posterolaterally from level of setae r3. Shield well-reticulated throughout, except more or less smooth medially in j5–6 region and in median narrow band between setae j6–J4. Reticulations in opisthonotal region densely covered with small punctae. Posterior region between pairs of setae J4, Z4, J5 with large punctae, not reticulate. Dorsal shield bearing 37 pairs of setae, 23 and 14 pairs on podonotal and opisthonotal regions, respectively; setae J3 missing. Dorsal setae less than 35 long (Table 1), all smooth, acuminate, slightly widened in basal halves, except J5 pilose in basal half (Fig. 3A); setae J4 slightly pilose basally in some specimens (Fig. 3B). Dorsal idiosoma with 23 pairs of pore-like structures, including seven gland openings and 16 poroids.
Lengths of most idiosomal setae of Zygoseiuspapaver sp. n. and Z.lindquisti sp. n.
Setae
Z.papaver
Z.lindquisti
Female (n = 11)
Male (n = 1)
Female (n = 2)
j1
10–15
?
~ 5–7
j2
17–25
?
14–17
j3
19–27
24
15–17
j4
18–25
21
16–19
j5
16–20
~ 15
14–17
j6
16–20
17
16–20
J1
26–30
24
27–32
J2
24–32
26
28–34
J4
24–30
22–24
30–31
J5
16–22
17–19
19–21
z1
9–12
?
~ 5–7
z2
17–21
~ 12
13–18
z3
17–25
~ 20
17–19
z4
19–31
22
15–19
z5
16–23
16
15–19
z6
24–32
30
26–34
Z1
22–29
27
30–31
Z2
25–30
26
33–34
Z3
23–28
22
31–33
Z4
22–28
22
30–31
Z5
15–22
16
20–26
s1
12–17
~ 11
14–19
s2
19–26
?
17–22
s3
21–28
22
19–21
s4
22–27
25
18–21
s5
23–30
25
22–24
s6
19–22
18
28–29
S1
18–24
?
27–31
S2
17–23
18
29–32
S3
16–21
~ 16
26–30
S4
16–22
19
27–31
S5
16–21
17
28–31
r2
12–20
~ 16
19–20
r3
14–17
15
19–21
r4
18–20
21
20–21
r5
17–20
?
22–25
r6
19–20
~ 20
24–29
st1
16–21
18
16–20
st2
17–23
16
20–23
st3
17–22
18
18–21
st4
15–20
13
16–19
st5
18–24
14
18–19
JV1
25–32
25–27
19–23
JV2
26–34
28–30
22–25
JV3
16–22
17–18
16–19
JV4
13–17
13–14
20–21
JV5
14–18
14–15
18–19
ZV1
12–18
10–14
15–16
ZV2
11–17
12
18–21
ZV3
14–17
13–15
18–21
Para-anal setae (pa)
18–22
18
21–24
Post-anal seta (po)
17–23
16
20–22
? the seta was insufficiently clear to be measured.
Distances between pairs of some dorsal and ventral idiosomal setae of Zygoseiuspapaver sp. n. and Z.lindquisti sp. n.
Characters
Z.papaver
Z.lindquisti
Female
Male
Female
st1–st1
31–41
37
41–48
st2–st2
43–47
41
50–53
st3–st3
39–45
45
50–54
st4–st4
51–57
37
61–63
st5–st5
55–62
39
62–65
J1–J1
37–49
31
52–58
J4–J4
63–80
61
81–83
J4–J4/J1–J1
1.38–1.72
1.96
1.42–1.57
J2–J2
34–47
38
45–47
J1–J2
26–35
31
36–41
Ventral idiosoma (Figs 2, 29). Tritosternum with a trapezoidal base 22–27 long, 11–13 wide proximally, 4–6 wide apically, and a pair of laciniae, 76–83 long; laciniae with barbs relatively short and blunt (Fig. 4). Sternal shield 93–105 long, 55–65 wide (length/width ratio: 1.50–1.78), bearing two pairs of poroids (iv1–2), and three pairs of smooth, subequal setae st1–3 (Table 1); anterolateral arms of shield each insensibly fragmented apically into a platelet, itself abutting subtriangular exopodal plate between coxae I and II; shield anterior margin with a weak, wide median depression and two subtriangular projections; posterior margin narrow, truncate. Shield irregularly and sparsely micropuntate. A transverse, recurved linea posterad level of setae st1. Metasternal platelets fused to endopodal elements, arc-like in shape, punctate, bearing simple setae st4 and poroids iv3. Epigynal shield trapezoidal, 72–79 long, 22–27 long from st5 to posterior margin, 68–81 wide (length/width ratio: 0.91–1.03), with punctae most conspicuous in anterior and lateral portions; lineate posteriorly, three pairs of large subcircular sigillae centrally; anterior hyaline portion rounded, poorly sclerotized, indistinct; shield widest past level of st5, with posterior margin truncate; closely abutting ventrianal shield. Setae st5 smooth, inserted near shield lateral margins; poroids iv5 near posterolateral margins of shield. Ventrianal shield subpentagonal, expanded, wider than long, 113–121 long, 147–180 wide (length/width ratio: 0.70–0.80), straight anteriorly between setae ZV1. Shield distinctly lineate anteriorly, distinctly punctate posteriorly and medially, weakly lineate posterad JV2 level, with small punctae in lateral margins; shield with five pairs of pre-anal and three circum-anal setae, all smooth. Setae JV1–2 subequal, 1.5–2× as long as other setae (Table 1); para-anal setae inserted near level of anterior margin of anal opening; gland openings gv3 on posterolateral margins of shield near mid-level of anus; cribrum well-developed, with a few narrow transversal strips of spicules; anal opening 20–25 long, 18–22 wide, subtriangular to ovoid, located in posterior fourth or third of shield. Peritreme 175–198 long, densely covered by aciculae, extending anteriorly almost to level of seta z1, with one gland pore (gp) located at mid-level of coxa II. Peritrematal shield wide, essentially in ventral position; completely fused to exopodal, parapodal and metapodal elements, extending well behind posterior level of coxae IV. Shield essentially micropunctate throughout, with larger punctae in poststigmatic region, bearing four pore-like structures (id3, gd3, id7), including gv2. Exopodal element between coxae II–III insensibly separated from posterior portion of more posterior exopodal-peritrematal elements (Fig. 5). Soft lateral and opisthogastric integument finely plicate, bearing nine pairs of short smooth setae, 11–20 long, most of which slightly thickened basally; soft cuticle with five pairs of poroids (4 ivo, idR3), and one subcircular platelet bearing two pore-like structures (putatively a gland pore, and an associated poroid), near posterolateral margin of peritrematal-metapodal shield.
Gnathosoma. Epistome (Fig. 6) bifurcate, with two long (12–20) and relatively thick projections, forming a U-shape at their bases (separated by 4–7); distal halves of projections deeply serrated on both inner and outer margins, margins proximally smooth; basal margins coarsely serrated laterally. Posteromedian ridge with denticles in lateral portions; larger denticles or tubercles on posterolateral ridges. Corniculi (Fig. 7) 28–31 long, horn-like. Internal malae (Fig. 7) with a pair of smooth lobes, apically blunt, membranous, almost reaching apex of corniculi; labrum longer than internal malae, fimbriate distally. Hypostomal and capitular setae (Fig. 7) smooth, needle-like, h1 (39–45)>h3 (24–31)>pc (17–24)≈h2 (17–21). Deutosternum (Fig. 7) with seven transverse rows of denticles; rows broad, variable in width, 5th and 7th, or 5–7th rows usually broader, anteriormost (first) row with larger denticles; numbers of teeth in rows from anterior row (1st) to posterior row (7th), respectively: 7–9, 12, 10–12, 13–14, 14–15, 13–15, 13–15. Chelicera (Fig. 8) with movable digit with two subapical, inconspicuous teeth; fixed digit with two subapical teeth followed by a short, relatively thick pilus dentilis; dorsal cheliceral seta short, setiform; first cheliceral segment 34–55 long, second 103–110 (17–28 wide), fixed digit 29–33, movable digit 34–40. Palp (Fig. 9) 101–107 long, with dorsal surfaces of genu and especially femur with some sigillae; trochanter 11–14 long, femur 31–37, genu 27–30, tibia 19–22; apotele 3-tined. Palp chaetotaxy: from trochanter–tibia 2-5-6-14 setae; trochanter 0 0/1 0/1 0, femur 1 2/0 1/0 1, genu 2 2/0 1/0 1 and tibia as in Fig. 9; all palp setae smooth, tapered; av (v2, sensuEvans 1963b) on trochanter strongly bent inwards (Fig. 27); al on femur, al1–2 on genu and one of al setae on tibia short and spatulate; genu with stout spur dorsodistally (see arrow, Fig. 9).
Legs (Figs 10–13). Lengths of legs: I 265–305, II 253–279, III 234–250, IV 271–300. Lengths of femora: I 56–64, II 42–58, III 45–53, IV 58–68; genua: I 45–49, II 36–41, III 25–30, IV 27–32; tibiae: I 40–46, II 29–36, III 27–29, IV 30–36; tarsi: I 57–65, II 73–85, III 67–73, IV 82–95; ambulacra: I 20–23, II 20–24, III 19–22, IV 22–25. Chaetotaxy of leg segments I–IV normal for Zygoseius (sensuHalliday 1997) except for genu II and genu III: coxae 2-2-2-1, or I–III (0 0/1 0/1 0), IV (0 0/1 0/0 0); trochanters 6-5-5-5, or I (1 0/1 1/2 1), II (1 0/1 0/2 1), III–IV (1 1/1 0/2 0); femora 13-11-6-6, or I (2 3/1 2/3 2), II (2 3/1 2/2 1), III–IV (1 2/1 1/0 1); genua 13-10-8-9, or I (2 3/2 3/1 2), II (2 3/0 2/1 2), III (2 2/1 2/0 1), IV (2 2/1 3/0 1); tibiae 13-10-8-8, or I (2 3/2 3/1 2 in 10 females or 2 4/2 3/1 2 in one of the 11 females), II (2 2/1 2/1 2), III–IV (2 1/1 2/1 1); tarsi II–IV 18-18-18, all as 3 3/2 3/2 3 + md and mv. All setae on legs I–IV simple, relatively short and tapered, except: femur I with pd1–2 thickened (lengths: pd1 12–13, pd2 10–11); tarsi II–IV with apical setae al1, av1, pv1, pl1 and subapical setae av2, pv2, md and mv short, spur-like. Trochanter III with small cuticular spur posterolaterally, and trochanter IV with two cuticular spurs, posterolaterally and posterodorsally. Sigillae on ventral surfaces of coxae I–IV and trochanters I–II, and dorsal surfaces of femora, genua and tibiae I–IV, and basitarsi II–IV. All ambulacra with a pair of well-developed hooked claws. Pulvilli not discerned.
Zygoseiuspapaver sp. n., female, legs I–IV, dorsal view.
https://binary.pensoft.net/fig/109769
Spermathecal apparatus (Plate 1). Spermatheca (Plate 1C) globular, large (diameter 8–11), connected to a short, thick-walled duct (5–10 long), followed by a small ring-like sperm reservoir (diameter 5–6), and a narrow and long spermatic canal (16–24 long), sometimes widened basally (as in Plate 1B).
Zygoseiuspapaver sp. n., female, A, B spermathecal apparatus in two different females. Abbreviations: sp.c.= spermatic canal, sp.res.= sperm reservoir, spt.= spermatheca C spermatheca.
https://binary.pensoft.net/fig/109770
Male (n = 1). Dorsal idiosoma (Fig. 30). Dorsal shield oval, 338 long, 252 wide (length/width ratio: 1.34), completely covering idiosoma. Shield ornamentation and chaetotaxy similar to those of female, except reticulation in central region of idiosoma between setae j6–j6 to J2–J2 more distinct.
Ventral idiosoma (Fig. 31). Tritosternum as in female, 14 long, 11 wide proximally, 6 wide apically; laciniae 76 long. Gonopore diameter 20, discernible part of duct 50 long. Holoventral shield 271 long, 217 wide (length/width ratio: 1.25), reticulate nearly throughout except between setae st5–JV1, cells punctate inside and along margins; ventral region weakly lineate and punctate between setae JV1 and JV2, with more distinct punctae laterally and especially posteriorly. Holoventral shield fused laterally to peritrematal, metapodal and exopodal elements, bearing 12 pairs of simple and smooth setae (five and seven pairs on sternogenital and ventrianal regions, respectively) (Table 1), and three smooth circum-anal setae; shield with nine pairs of pore-like structures (iv1–3, iv5, gv2–3, three pairs of ivo), excluding those on peritrematal-exopodal shields. Setae JV1–2 longer than other ventral setae, including JV3–5, ZV1–3 (Table 1). Peritreme 178 long. Soft lateral and opisthogastric integument with 6–7 pairs of short setae, 7–15 long, slightly thickened basally, and two or three pairs of pore-like structures. Anal opening subtriangular, 22 long and 19 wide. Other features of ventral idiosoma as in female.
Gnathosoma. Epistome as in female, with two projections, 19 long, distance between bases of projections 5. Corniculi (26 long) and deutosternum as in female. Lengths of hypostomal setae: h1 39, h2 14, h3 24, pc 19. Chelicera and spermatodactyl not available for study (broken off specimen). Palp 98 long, similar to that of female; trochanter 13 long, femur 40, genu 22, tibia about 21; palp setae and chaetotaxy as in female.
Legs. Lengths of legs: I 288, II 239, III 231, IV 288. Lengths of femora: I 61, II 44, III 55, IV 60; genua: I 45, II 37, III 26, IV 30; tibiae: I 44, II 32, III 25, IV 31; tarsi: I 61, II 71, III 68, IV 87, ambulacra: I 18, II 20, III 19, IV 24. Chaetotaxy of legs I–IV similar to that of female, except that the femur II has one conical spine-like projection ventrodistally (Fig. 14). Setae pd1–2 on femur I thickened as in female, pd1 14–15, pd2 10–12. Sigillae locations similar to those of female.
Holotype: Female. Mexico, Chiapas State, Volcan Tzontehuitz, 9000 ft. (= 2743.2 m. a.s.l.), 12 miles NE of San Cristóbal de Las Casas, from moss on log, 19 May 1969, coll. J. M. Campbell. Paratypes: 15 females, 1 male, same data as holotype. The holotype and 12 paratypes (females and male) are deposited at the
Canadian National Collection of Insects, Arachnids and Nematodes
(CNC) at the Agriculture and Agri-Food Canada, Ottawa, Canada, and four female paratypes are deposited at the
Acarology Collection of the Department of Entomology
(ACDE), College of Agriculture and Natural Resources, Science and Research Branch, Islamic Azad University, Tehran, Iran.
Etymology.
The specific name refers to the shape of the spermatheca of the new species, which resembles the capsule of opium (Papaversomniferum L., 1753). It is considered as a noun in apposition.
Remarks.
The spermathecal apparatus of Z.papaver sp. n. is distinct from that of any other Zygoseius species for which it was described: the spermetheca is globular and larger than any other sclerotized part of the apparatus, and ends in a flower-like pattern. The new species can also be distinguished by its long J1–2 setae relative to the distance between J1 and J2 setae (ratio setal length/distance = 0.90 ± 0.06 st.dev., range 0.75–1.0). Based on their illustrations, a few species described from South America have long J1–2 setae relative to the distance between them, such as Z.alveolaris Karg, 1998 and Z.triramuli Karg & Schorlemmer, 2009 (Karg 1998, Karg and Schorlemmer 2009), but these have a different arrangement of setae of the j–J series, including the presence of J3.
The epistome of Zygoseiuspapaver sp. n. is unique among described species, with relatively short but thick projections that are conspicuously barbed apically. The epistome of Z.laticuspidis Karg, 1998 is similar; however, it is even more swollen apically, and is slightly denticulate on the basal margin in-between the projections. Zygoseiuslaticuspidis also has J5 setae inserted mesad of Z5 (note, however, that the relative position of J5 and Z5 can vary, depending on how flattened is the dorsal shield on the slide). The new species can further be distinguished from Z.laticuspidis by its shorter dorsal setae (all are <30 long; most are 30–60 long in Z.laticuspidis), J4 setae separated by 1.4–1.9× the distance between J1 setae (J4–J4 distance over twice that between J1–J1 in Z.laticuspidis), and by the presence of nine pairs of setae on the opisthogastric soft cuticle (six pairs in Z.laticuspidis). Other Zygoseius species can be distinguished from Z.papaver sp. n. by some of the same characters mentioned above, as well as by (1) its epistome; (2) the length and width (and their ratios) of the dorsal, sternal and ventrianal shields; (3) relative length of dorsal setae, especially Z5; (4) the ornamentation of the dorsal and sternal shields; and (5) long JV1–2 setae, 1.5–2× as long as other pre-anal setae on the ventrianal shield, and as long as about 2/3 of distance between JV1 and JV2. Zygoseiusampullus Halliday, 1997 and Z.foramenis Karg, 1998 also have longer JV1–2 setae but clearly differ by their epistomes, and by shorter J1–2 setae and a ventrianal shield as long as wide. In the key to species of Karg and Schorlemmer (2009), Z.papaver sp. n. would reach couplet 3 (12), and can be distinguished from species in (3) and (12) by the characters mentioned above.
Another distinguishing feature of Z.papaver sp. n. is the distinctly serrated lateral margins of the dorsal shield. This also characterizes Z.ovatus Karg, 1998. The margins of the dorsal shield of other species may appear somewhat serrated (e.g. Z.ampullus, Z.metoecus Halliday, 1997 and Z.separatoporus Karg, 1998), although the serration matches with the insertion of setae in marginal positions (mostly r and S setae), whereas in the new species and at least in Z.ovatus, most serration are independent of setal insertions. Such serrated margins of the dorsal shield are reminiscent of the dorsal shield of many Zerconidae (Ujvári 2010, 2011) and some species of Pachyseius Berlese (Pachylaelapidae) (Mašán 2007, Ahadiyat et al. 2016). Note that the serration of dorsal shields in zerconid and Pachyseius species is largely correlated, although not entirely, with the insertion of marginal setae.
Zygoseiuspapaver sp. n. also differs from other Zygoseius species by its reduced chaetotaxy on genu II, lacking seta av, and genu III, lacking seta pv, instead of the usual complement of two ventral setae, including both av and pv as noted in the genus diagnosis of Halliday (1997). His diagnosis was based on four species (Z.furciger, Z.ampullus, Z.metoecus, Z.sarcinulus), so we can predict that other described (with unstudied leg chaetotaxy) and undescribed species have such genual chaetotaxy. However, because at least another species of Zygoseius, newly described herein (see below), sometimes lacks pv on genu III, we can suspect that other species also lacks such seta. Members of other non-parasitic dermanyssine families lack both of these setae (e.g. Phytoseiidae; Evans 1963a), or lacks either av on genu II (some Pseudolaelaps species, Pseudolaelapidae; Mašán 2014) or more commonly pv on genu III (e.g. some Eviphididae, Pachylaelapidae, Macrochelidae, Ascoidea, Blattisociidae; Evans 1963a, Lindquist and Evans 1965, Moraza and Johnston 1990, Mašán 2007, Mašán and Halliday 2010), showing plasticity of the development of those setae. Based on the studied chaetotaxy of Z.furciger and of other dermanyssines (Evans and Till 1965, Lindquist and Evans 1965, Halliday 1997), when present in the adults, ventral setae of genua II–III appear at the deutonymphal stage. Therefore, they are theoretically not as stable as (i.e. less likely to be retained in the adult stage than) setae appearing at an earlier developmental stage (Evans 1963a, Lindquist and Evans 1965, Rowell et al. 1978).
Dorsal shield oval, densely micropunctate, with relatively distinct reticulation and lineation, except more weakly reticulated medially between setae j4–6. Edges of lateral parts of dorsum smooth. Dorsal setae smooth, except J4 and J5 with a few barbs basally; all setae less than 35 long; setae z6, s6, and all opisthonotal setae (except J5 and Z5) 1.5–2× as long as other setae. Sternal shield densely micropunctate, except in the regions of setal insertions. Epigynal shield conspicuously punctate in anterior 2/3, punctae lighter posteriorly. Ventrianal shield distinctly lineate in anterior half, reticulate laterally and posteriorly; setae JV2 slightly longer than other setae on shield. Peritrematal shield micropunctate throughout, punctae larger in poststigmatic region. Soft lateral and opisthogastric cuticle with nine pairs of setae. Epistome bifurcate, thin projections slightly converging, about twice as long as distance between their bases, sparsely serrated in apical half. Hypostomal setae h1 about twice as long as h2, and subequal to h3. Femur I with seta pd2 thickened. Spermathecal apparatus with a small, kidney-shaped spermatheca directly connected to a globular, large sperm reservoir, followed by a long spermatic canal with diverging walls.
Description
Female (n = 2). Dorsal idiosoma (Figs 15, 32). Dorsal shield oval, 396–413 long, 278–283 wide (length/width ratio: 1.40–1.48), completely covering idiosoma; edges of lateral parts of dorsum smooth, with no marginal serration; shield densely micropunctate throughout, distinctly reticulate-lineate, more weakly reticulate medially, especially between setae j4–j6 and posterad setae Z3–4 and around and posterad J5. Dorsal shield with 37 pairs of setae, 23 and 14 pairs on podonotal and opisthonotal regions, respectively; lacking setae J3. Dorsal setae less than 35 long, all smooth, acuminate, slightly swollen basally, except J4–5 finely pilose basally (Fig. 17A, B). Opisthonotal setae about twice as long as podonotal setae (Table 1). Dorsal idiosoma with 23 pairs of pore-like structures, including seven gland openings and 16 poroids.
Ventral idiosoma (Figs 16, 33). Tritosternum with a trapezoidal base, 23–28 long, 12–14 wide proximally, 4–6 wide apically, and a pair of laciniae (61–64 long). Laciniae with barbs relatively short and blunt (Fig. 18). Sternal shield 98–102 long, 66–71 wide (length/width ratio: 1.44–1.48), bearing two pairs of poroids and three pairs of smooth, subequal setae st1–3 (Table 1); shield anterolateral arms long, contiguous to subtriangular exopodal plate between coxae I and II; anterior margin with distinct median notch and two subtriangular projections; posterior margin truncate; shield densely micropunctate throughout, except smooth around sternal setae. Complex of metasternal and endopodal elements arc-shaped, mostly smooth, punctate in restricted areas, bearing simple setae st4 and poroids iv3. Epigynal shield trapezoidal, 85–87 long, 22–24 long from st5 to posterior margin, 81–84 wide (length/width ratio: 1.03–1.07), conspicuously punctate in anterior 2/3, punctae lighter posteriorly; shield with transverse convex line passing behind setae st5; anterior hyaline portion rounded, indistinct; shield closely abutting ventrianal shield; three pairs of suboval to subcircular sigillae medially, posterior ones larger, oval. Setae st5 smooth, inserted near shield lateral margins. Poroids iv5 near posterolateral margins of epigynal shield. Ventrianal shield subpentagonal, broad, 153–154 long, 189–196 wide (length/width ratio: 0.79–0.81), with straight anterior margin; distinctly lineate in anterior half, reticulate laterally and posteriorly; cells micropunctate inside and along cell margins; shield bearing five pairs of pre-anal and three circum-anal setae, all smooth; setae JV2 slightly longer than other setae; other setae subequal, except ZV1 shorter (Table 1); para-anal setae inserted at level of anterior margin of anal opening; gland openings gv3 on posterolateral margins of shield at level of posterior margin of anus; cribrum well-developed, 2–3 rows of spicules, extending along posterior shield margin between gv3 openings; anal opening 25–26 long, 21–22 wide, subtriangular to subcircular, located in posterior fifth or fourth of shield. Peritreme 191–198 long, densely covered with aciculae, extending anteriorly near seta z1, with one gland pore (gp) at mid-level of coxa II. Peritrematal shield wide, fused to exopodal, parapodal and metapodal elements, extending well behind posterior level of coxae IV; shield micropunctate, with larger punctae in poststigmatic region, with four pore-like structures (id3, gd3, id7, gv2). Exopodal element between coxae II–III fused with other exopodal-peritrematal elements (Fig. 19). Soft lateral and opisthogastric integument plicate, bearing nine pairs of setae, 15–30 long, slightly thickened basally, marginal setae as the longest. Soft cuticle with five pairs of poroids, including four ivo, idR3, and an oval platelet bearing two pore-like structures, at level of posterior margin of peritrematal shield.
Gnathosoma. Epistome (Fig. 20) bifurcate, with two slender projections (16–20 long), forming a U shape at their bases (separated by 8–10), slightly converging; distal halves of projections sparsely serrated on inner margin (in one specimen) or both inner and outer margins (in other specimen), margins proximally smooth; basal margin finely serrated laterally; a transverse series of blunt to sharp tubercles posteromedially, and fewer series laterally. Corniculi (Fig. 21) short, 24–26, horn-like. Internal malae (Fig. 21) finely developed, reaching slightly beyond corniculi; anterolateral margins fimbriate, inner margins smooth; labrum fine, shorter than internal malae, finely fimbriate distally. Hypostomal and capitular setae (Fig. 21) smooth, needle-like, h3 (21–about 28) and h1 (21–25)>pc (about 13–17)>h2 (8–9). Deutosternum (Fig. 21) with 6–7 transverse rows of denticles, followed posteriorly by a smooth ridge; posteriormost row of denticles widest; two anteriormost (1st and 2nd) and posterior-most (5th and/or 6th) rows with larger denticles; numbers of denticles from anterior to posterior rows: 8–10, ~ 9, 10–11, ~ 10–11, 12–14, 15–18. Cheliceral teeth not clearly discernable (digits oriented dorsoventrally); first cheliceral segment 35–44 long, second segment and fixed digit unclear; movable digit 27–29; width of second segment 17–21. Palp (Fig. 22) 105–113 long, dorsal surfaces of femur and genu with some sigillae; trochanter 13–18 long, femur 34–36, genu 27–29, tibia 23–26; apotele 3-tined. Palp chaetotaxy: from trochanter–tibia 2-5-6-14 setae; trochanter 0 0/1 0/1 0, femur 1 2/0 1/0 1, genu 2 2/0 1/0 1; tibia as in Fig. 22. All palpal setae smooth, tapered; av (v2, sensuEvans 1963b) on trochanter strongly bent inwards (Fig. 27); al on femur, al1–2 on genu and one of al setae on tibia short and spatulate; genu with stout spur dorsodistally (see arrow, Fig. 22).
Legs (Figs 23–26). Lengths of legs: I 295–307, II 257–261, III 233–241, IV 307–309. Lengths of femora: I 60–63, II 49–52, III 48–53, IV 64–66; genua: I 44–45, II 42–44, III 24–27, IV 31–34; tibiae: I 42–45, II 33–36, III 28–29, IV 36–38; tarsi: I 66–72, II 68–73, III 63–65, IV 88–91; ambulacra: I 21–25, II 21–22, III 19–20, IV 20–22. Chaetotaxy of leg segments I–IV normal for Zygoseius (sensuHalliday 1997): coxae 2-2-2-1, or I–III (0 0/1 0/1 0), IV (0 0/1 0/0 0); trochanters 6-5-5-5, or I (1 0/1 1/2 1); II (1 0/1 0/2 1), III–IV (1 1/1 0/2 0); femora 13-11-6-6, or I (2 3/1 2/3 2), II (2 3/1 2/2 1), III–IV (1 2/1 1/0 1); genua 13-11-8 or 9-9, or I (2 3/2 3/1 2), II (2 3/1 2/1 2), III (2 2/1 2/0 1 in one specimen, or 2 2/1 2/1 1 in another specimen), IV (2 2/1 3/0 1); tibiae 13-10-8-8, or I (2 3/2 3/1 2), II (2 2/1 2/1 2), III–IV (2 1/1 2/1 1); tarsi II–IV 18-18-18, all as 3 3/2 3/2 3 + md and mv. All setae on legs I–IV simple, relatively short and tapered, except: femur I with pd1–2 thickened, pd2 thicker (lengths: pd1 10–12, pd2 11–12); tarsi II–III with apical setae al1, av1, pv1, pl1 and subapical setae av2, pv2 and md short, spur-like; tarsus IV with setae al1, av1, pv1, pl1 and md short, spur-like; tarsi II–IV with mv longer and slightly slender. Trochanter III with small cuticular spur posterolaterally, and trochanter IV with two cuticular spur posterolaterally. Ventral surfaces of coxae II–IV and trochanters I–II, anterolateral surface of trochanter IV, and dorsal surfaces of femora and tibiae I–IV, genua and basitarsi II–IV with some sigillae. All ambulacra with a pair of well-developed hooked claws. Pulvilli not discerned.
Zygoseiuslindquisti sp. n., female, legs I–IV, dorsal view.
https://binary.pensoft.net/fig/109780
Spermathecal apparatus (Plate 2). Spermatheca small, 6–8 wide, somewhat kidney-shaped, with no stalk, directly connected to a globular, large sperm reservoir (diameter 17–21), followed by a long spermatic canal (27–34 long). Sperm reservoir presenting a narrow central duct; spermatic canal with distinct walls, diverging basally.
Zygoseiuslindquisti sp. n., female, A, B spermathecal apparatus in two different females (Abbreviations as mentioned in Plate 1).
https://binary.pensoft.net/fig/109781Male and immature stages.
Unknown.
Material examined.
Holotype: Female. Mexico, Chiapas State, 6 miles NE of San Cristóbal de Las Casas, from flood debris in creek, 15 May 1969, coll. Evert E. Lindquist. Paratype: Female, same data as holotype. The holotype and paratype are deposited at the
Canadian National Collection of Insects, Arachnids and Nematodes
(CNC), Agriculture and Agri-Food Canada, Ottawa, Canada.
Etymology.
The species is named in honor of Evert E. Lindquist, for his invaluable endeavors on the systematics of Mesostigmata over the years. The specimens of this new species were collected by him.
Remarks.
The dorsal seta of trochanter I in Z.papaver and Z.lindquisti is inserted in a posterior position. We herein call this seta d (Figs 10, 23), although in the chaetotactic formula, we indicated it as posterodorsal, given its clear posterior position, as in Halliday (1997). Evans (1963a, fig. 1i) indicated ‘ad’ for this dorsal seta, as illustrated for Pergamasus (Parasitidae). In the text, however, he called it ‘d’, for Pergamasus and for other gamasines. We have examined adult specimens of other Zygoseius spp., as well as of Pachylaelaps (Pachylaelapidae), Gaeolaelaps (Laelapidae), Asca (Ascidae), Proctolaelaps (Melicharidae), Parasitus and Pergamasus (Parasitidae), and the dorsal seta of trochanter I was usually inserted in a slightly to moderately posterior position, and rarely on the mediodorsal line or in a (slightly) anterior position.
In his diagnosis of the genus Zygoseius, Halliday (1997) indicated one pv and one pl setae on trochanter IV, whereas Evans (1963a) indicated two pv and no pl (as we did, herein). Indeed, pv1 is inserted much more posteriorly than pv2 (although not necessarily posterolaterally), and this situation is similar to that of pv1–2 of trochanters II–III (Evans 1963a; Figs 11–13, 24–26).
In addition to poroid idR3, between setae R3 and R4, the soft opisthogastric cuticle has a sclerotized complex of two pore-like structures, posterolaterad the peritrematal-metapodal shield. These structures may be two openings of the same underlying gland complex; alternatively, they may be a gland opening and an associated poroid (note that both of these structures are sometimes visible in lateral view when the soft cuticle is folded, instead of the normal ventral view). It is unclear whether this gland opening is homologous to the one (gp) typically found in the poststigmatic region of peritrematal shields in many Mesostigmata (e.g. Lindquist and Moraza 2016). This double pore-like structure also occurs in Z.papaver sp. n., as well as in Z.ampullus and Z.metoecus (Halliday 1997), and Z.sarcinulus (AA, personal observations).
Zygoseiuslindquisti sp. n. shares certain morphological features with Z.incisus Karg, 1998 and Z.margaritatus Karg & Schorlemmer, 2009, including: (1) an epistome with two thin projections, about twice as long as distance between their bases, sparsely serrated, mostly in apical half; (2) the ratio J4 setae inserted well farther apart from each other than J1 setae (ratio of distance J4–J4/J1–J1= 1.42–1.57 in Z.lindquisti sp. n.); (3) J1–2 setae slightly shorter than distance between insertions of J1 and J2 (length J1–2 setae/J1–2 distance= 0.8–0.9 in Z.lindquisti sp. n.); (4) ventrianal shield with short setae, including JV1–2; (5) the length of seta Z5 (20–26 in Z.lindquisti sp. n.). It also has a spermathecal apparatus similar to Z.margaritatus, although the latter has a more elongate, egg-shaped spermatic reservoir followed by a spermatic canal more constricted distally. The spermathecal apparatus of Z.incisus is distinct, with a narrow elongate spermatic canal. The species Zygoseiuslindquisti sp. n. can further be distinguished from the two species by (1) the dense micropunctation on its dorsal, sternal and genital shields, and its ventrianal shield lineate anteriorly and reticulate laterally and posteriorly; (2) its relatively broad dorsal shield (396–413 long, 278–283 wide; vs 430 long, 260 wide in Z.incisus, 336–392 long, 231–256 wide in Z.margaritatus); (3) its relatively wide ventrianal shield (153–154 long, 189–196 wide; vs. 160 long, 170 wide in Z.incisus, 140 long, 182 wide in Z.margaritatus); (4) many longer setae in the opisthonotal region (e.g. J1, J4, S5).
The new species also has a spermathecal apparatus similar to Z.furciger. Based on the two females examined, however, Z.lindquisti sp. n. has a sperm reservoir globular with enlarged spermatic canal throughout, whereas the sperm reservoir of Z.furciger ranges from globular to oval with spermatic canal constricted distally (in proximity to sperm reservoir). The detailed description of Halliday (1997) allows to easily distinguish the new species from Z.furciger, by (1) its sternal shield faintly lineate and densely micropunctate (reticulate and with punctae along cell margins in Z.furciger); (2) smaller dorsal shield (396–413 long; vs 418–518 in Z.furciger); (3) some setae in opisthonotal region slightly longer (e.g. J1, J4); (4) hypostomal setae h1 and h3 subequal in length (h3 about 1.5× as long as h1 in Halliday, 1997); (5) deutosternum with 6–7 rows of denticles (eight rows in Z.furciger).
Discussion
The record of a “Zygoseius sp.” by Palacios-Vargas (1983) probably represents from the first mention of the genus in Mexico. Among the now 15 described species, 12 are found in South America, including one (Z.furciger) that is also found elsewhere (USA, Africa, Israel); two (described herein) occur in Mexico, and one (Z.sarcinulus) is widespread in Australia.
Some morphological characters are of particular interest for the diagnosis of Zygoseius species and possibly also for classifying them into species groups. Perhaps the most useful character to distinguish Zygoseius species is the spermatheca itself varying in size relative to the rest of the apparatus, and the sperm reservoir varying in shape, ranging from oval to globular (Halliday 1997, Karg 1998). More detailed studies of the spermathecal apparatus will probably help further the systematics of Zygoseius, analogously as to its use for other Mesostigmata, such as the Phytoseiidae (Chant and McMurtry 1994, Beard 2001) and Pachylaelapidae (Mašán 2007).
The dorsal idiosomal chaetotaxy is moderately useful, with some setae varying markedly in position between species, such as J5 relative to Z5, and with the atypical presence of seta J3 in some species (in Z.triramuli and Z.alveolaris; Karg 1998). Although Halliday (1997) stressed the difficulty in using shield ornamentation (e.g. sternal shield) for species discrimination because of intraspecific variation, it is useful in some cases, including for the dorsal, sternal and ventrianal shields (compare Z.papaver and Z.lindquisti, Figs 1–2, 28–29, 15–16, 32–33; Halliday 1997).
The epistome and the male chelicerae appear as the most studied (or most often illustrated) gnathosomal characters in Zygoseius. There is some interspecific variation in the epistome, including the number (usually 2, rarely 3 or 4) and length of projections, and the extent of barbs on the margins. These variations are overall only moderate, although overall represent useful diagnostic features. Male chelicerae may be useful, with some apparent variation in dentition and in the lengths of spermatodactyls (e.g. Z.furciger has a longer spermatodactyl relative to cheliceral digits; Halliday 1997, Karg 1998, Karg and Schorlemmer 2009). The dentition of the female chelicerae has been illustrated for a few species only (Z.incisus, Z.alveolaris, Z.furciger (in Halliday 1997), Z.papaver sp. n.), and may differ in some species (e.g. Z.incisus has stronger teeth). The deutosternum has a variable numbers of transversal rows of denticles; e.g. that of Z.papaver, Z.lindquisti and Z.furciger have 7, 6–7 and 8 rows of denticles, respectively. The relative lengths of hypostomal setae (h1–h3, pc) also vary significantly, with some species having a particularly long h1 seta (e.g. in Z.papaver sp. n.), whereas in other species (e.g. Z.lindquisti sp. n., Z.furciger), h3 tends to be the longest.
This study was supported by a sabbatical grant to the senior author (AA) (No. 9/S/70/98512) for visiting the Canadian National Collection (CNC) of Insects, Arachnids and Nematodes, Agriculture and Agri-Food Canada in Ottawa, from the Central Organization of the Islamic Azad University and the Science and Research Branch of the Islamic Azad University, Tehran, Iran, which was highly appreciated. We thank Evert Lindquist for constructive comments on certain aspects of the manuscript, as well as Omid Joharchi (Department of Plant Protection, Yazd Branch, Islamic Azad University, Yazd), Vahid Reza Farmahiny Farahani, and especially Sahebeh Ghasemi Moghadam (Department of Entomology, Science and Research Branch, Islamic Azad University, Tehran) for their kind help during the manuscript preparation.
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