DOI QR코드

DOI QR Code

Three feather mites(Acari: Sarcoptiformes: Astigmata) isolated from Tringa glareola in South Korea

  • Han, Yeong-Deok (Department of Biological Sciences, Inha University) ;
  • Min, Gi-Sik (Department of Biological Sciences, Inha University)
  • Received : 2018.10.11
  • Accepted : 2018.11.02
  • Published : 2019.05.31

Abstract

We describe three feather mites recovered from a wood sandpiper Tringa glareola that was stored in a $-20^{\circ}C$ freezer at the Chungnam Wild Animal Rescue Center. These feather mites are reported for the first time in South Korea: Avenzoaria totani (Canestrini, 1978), Ingrassia veligera Oudemans, 1904 and Montchadskiana glareolae Dabert and Ehrnsberger, 1999. In this study, we provide morphological diagnoses and illustrations. Additionally, we provide partial sequences of the mitochondrial cytochrome c oxidase subunit I(COI) gene as molecular characteristics of three species.

Keywords

IntroductIon

The wood sandpiper Tringa glareola (Linnaeus, 1758) inhabits swamp and marshes (wet heathland, spruce or birch forest) in the northern Eurasian continent (Pulliainen and Saari, 1991; del Hoyo et al., 1996; Snow and Perrins, 1998; Remisiewicz et al., 2010). This species mostly uses freshwater inland habitats during migration and non-breeding season, and migrates to Africa, Southern Asia, India and Australia (Remisiewicz et al., 2010; Lee et al., 2014; Park, 2014). In South Korea, it is recorded as a passage migrant bird (Lee et al., 2014).

Until now, 41 species of feather mites have been recorded in Korea, but none from the wood sandpiper (Atyeo and Gaud, 1971; McClure et al., 1973; Atyeo and Peterson, 1976; Cho, 1980; Lee and Choi, 1980; Hwang et al., 1986; Noh and Sohn, 1992; Sohn and Noh, 1994a; 1994b; Sohn, 1995; KSSZ, 1997; Han et al., 2016; Han and Min, 2017; Han et al., 2017).

The genus Avenzoaria belonging to the family Avenzoariidae Oudemans, 1905 that is comprises of 14 valid species and two of unclear taxonomic identities status(A. grallatois, A. limicolae) generally associated with birds in the orders Charadriiformes(Badek and Dabert, 2005). The genus Avenazaria has the following diagnostic characteristics: (1) epimerites I are free and almost straight; (2) terminal membrane consist of rounded and acute teeth, or only acute teeth in males; and (3) paragenital apodeme is absent in males(Vasjukova and Mironov, 1991).

The genus Montchadskiana is one of five genera that belong to the subfamily Magimeliinae Gaud, 1972 and contains 17 species (Gaud and Atyeo, 1996; Dabert and Ehrnsberger, 1999). This genus was found on flight feathers on the birds of order Charadriiformes. The genus Montchadskiana has the following diagnostic characteristics: (1) setae h2 and ps2 are leaf-shaped in males; (2) adanal discs are circular-shaped with radial striated corollae in males; and (3) length of lateral setae e2 are usually shorter than idiosoma width in females (Dabert and Ehrnsberger, 1999).

The genus Ingrassia is one of 25 genera that belong to the family Ingrassiinae Gaud and Atyeo, 1981 that comprise 28 species associated with aquatic birds of six orders: Anseriformes, Charadriiformes, Pelecaniformes, Podicipediformes, Procellariiformes and Sphenisciformes (Gaud and Atyeo, 1996; Stefan et al., 2013; Hernandes and Pedroso, 2017). The genus Ingrassia has the following diagnostic characteristics in males: (1) prodorsal shield is narrow longitudinal plate with posterior part rounded or pointed protrusion; (2) setae se are situated outside prodorsal shield or on small sclerites; (3) setae c1 and h1 are absent; and (4) epimerites I are fused into a Y(Vasjukova and Mironov, 1991).

Here, we recovered A. totani, M. glareolae and I. veligera from the wood sandpiper and provided descriptions and illustrations of these three feathers mites based on morphology. Additionally, we provide partial sequences of the mitochondrial cytochrome c oxidase subunit I (COI) as DNA barcodes.

Materials and Methods

A wood sandpiper (CWARC no. CN16-278) rescued from Hongseong-gun by the Chungnam Wild Animal Rescue Center(CWARC) passed away and was stored in a -20°C freezer at the center. Specimens of Avenzoaria totani, Montchadskiana glareolae and Ingrassia veligera were collected from wing and tail feathers using a vacuum machine. The collected mites were preserved directly in 95% ethyl alcohol. The mite specimens were cleared by lactic acid for 24 hours and then mounted on micro slides using PVA(PVA stock solution 56%, lactic acid 22% and phenol 22%) as the mounting medium (Downs, 1943). The specimens were photographed using a microscopic digital camera (Leica, Wetzlar, Germany) and a scanning electron microscope (SEM) (Model Hitachi S-4300SE; Japan). Prior to SEM imaging, we used a TWEEN 20 (Model 036K00963; Sigma, USA) to remove debris on the specimens. The specimens were dehydrated using an ascending alcohol series (70%, 80%, 90%, 95%; and 100% ethyl alcohol; 30min each), and followed by using hexamethyldisilazane (Sigma, St. Louis, USA) for one hour. The specimens were then dried in a sealed box with silica gel for 24 hours. The morphological terms and measurements follow Gaud and Atyeo (1996) and Norton (1998). All measurements are given in μm. All examined specimens were deposited in the National Institute of Biological Resources (NIBR) and at Inha University in Korea.

DNA sequencing

DNA was extracted from a leg of each specimen using a Tissue DNA Purification Kit(Cosmogenetech Inc., Seoul, Korea) according to the manufacturer’s instructions. PCR amplification, purification and sequencing were performed according to the methods described by Han et al.(2016).

Results and discussion

Order Sarcoptiformes Canestrini, 1891 옴진드기목

Family Avenzoariidae Oudemans, 1905

날개깃진드기과

Genus Avenzoaria Oudemans, 1905

날개깃진드기속(신칭)

1. Avenzoaria totani(Canestrini, 1878)

붉은발도요날개깃진드기(신칭)(Figs. 1, 2)

JOSRB5_2019_v8n2_215_f0001.png 이미지

Fig. 1. Avenzoaria totani, male. A, dorsal view; B, dorsal view of idiosoma; C, vetral view of idiosoma; D, dorsal view of opisthosoma. gp - genital papillae, pm - postlobar membranes. Scale bars: A, 0.25 mm; B-D, 0.1 mm.

JOSRB5_2019_v8n2_215_f0002.png 이미지

Fig. 2. Avenzoaria totani, female. A, dorsal view; B, dorsal view of idiosoma; C, ventral view of idiosoma; D, ventral veiew of opisthosoma. gp - genital papillae. Scale bars: A, 0.2 mm; B-D, 0.1 mm.

Synonyms.Dermaleichus totani: Canestrini, 1878, p. 60; Pterolichus totani: Canestrini, 1879, p. 36, pl. I-III, fig. 10; Mégnin and Trouessart, 1884, p. 338; Avenzoaria totani: Dubinin, 1951, p. 186-191, fig. 44; Dubinin, 1956, p. 335-340, figs. 156-157; Gaud and Mouchet, 1959, p. 499; Gaud, 1972, p. 38, figs. 16c, 17c, 18e; Vasjukova and Mironov, 1991, p. 30-31, figs. 5, 13a; Dabert, 1992, p. 1-11; Dabert, 2000, p. 305; Badek and Dabert, 2005, 119-130.

Material examined. Korea: 2♂♂, 3♀♀, Gyeolseong-myeon, Hongseong-gun, Chungcheongnam-do, 36°31ʹ36ʺN, 126°33ʹ41ʺE, May 11, 2016, collected using vacuum machine from flight feathers on the wings of wood sandpiper Tringa glareola by Han Y.-D.

Diagnosis. Male: Length 475 of idiosoma from anterior end to bases of setae h3, width 215-225 at level of humeral shields (Fig. 1A). Prodorsal shield (Fig. 1B, 1D): Triangular shaped, posterior margin with medial projection, posterior angles extending laterally the bases of setae se, length 115-125 along midline, width 115-120 at posterior part. Hysteronotal shield (Fig. 1B): Anterior part straight, lateral parts with small rounded extensions at level of setae cp, length 325-335 from anterior margin to bases of setae h3, width 130-135 at level of setae d1. Interlobar cleft transverse ovoid, with anterior margin concave. Interlobar membrane expanded at the distal ends of the lobes. Incision in interlobar membrane elongated ovalshaped, anterior margin round-shaped lateral margins with shallow incisions in midlength. Postlobar membranes with one rectangular and two acute teeth. Sternum (Fig. 1C): Epimerites I not fused, with distal edges curved outwards. Genital apparatus located between levels of trochanters III and IV. Genital papillae situated on anterior to base of genital apparatus. Adanal shields absent.

Female: Idiosoma length 430-450, width 215-225 (Fig. 2A). Prodorsal shield (Fig. 2B): Mostly shaped as in male, length along middle line 120, width 125 at posterior part. Hysteronotal shield (Fig. 2B): Shaped as in male, posterior part with stronger sclerotization, length 310-320, width 145-155. Opisthosoma terminus rounded. Terminal cleft semicircular. Sternum (Fig. 2C): epimerites I shaped as in male. Epigynum arch-shaped, length 38-43, width 63-68.

Remarks. Avenzoaria totani was originally described by Canestrini (1878) based on specimens collected from Tringa totanus(=Totanus totanus). Thereafter, this species was reported by several mite taxonomists from birds of families Anatidae and Scolopacidae (Mégnin and Trouessart, 1884; Dubinin, 1951; 1956; Gaud and Mouchet, 1959; Gaud, 1972; Vasjukova and Mironov, 1991; Dabert, 1992; 2000; Badek and Dabert, 2005).

Avenzoaria totani is distinguishable from other species in the genus Avenzoaria by several characteristics in males: (1) posterior angles of prodorsal shield are extend-ed laterally at the base of setae se; (2) postlobar membranes are comprised of one rectangular and two acute teeth; and (3) genital papillae are situated on anterior to base of genital apparatus(Vasjukova and Mironov, 1991; Badek and Dabert, 2003). The Korean specimens were morphologically consistent with the descriptions and illustrations provided by Vasjukova and Mironov (1991) and had partial CO1 sequences (565 bp) identical with those of Avenzoaria totani (GenBank no. GQ864348.1) registered in GenBank.

Host. This species was found on wings feathers in the wood sandpiper Tringa glareola.

Distribution. Cameroon, Congo(Gaud and Mouchet, 1959; Gaud, 1972), Italy(Canestrini, 1878; Dubinin, 1956), Russia(Dubinin, 1951; 1956; Vasjukova and Mironov, 1991), Poland(Dabert, 2000; Badek and Dabert, 2006), Korea(this study).

Deposition. NIBR No. NIBRIV0000812908, NIBRIV0000820666-0000820669.

Molecular characteristics. The COI sequences were obtained from two individuals and deposited in GenBank with accession numbers of MK031702 and MK031703.

Family Pterolichidae Trouessart and Mégnin, 1884

깃사이진드기과

Genus Montchadskiana Dubinin, 1951

도요깃사이진드기속(신칭)

2. Montchadskiana glareolae Dabert and Ehrnsberger, 1999

알락도요깃사이진드기(신칭)(Figs. 3, 4)

JOSRB5_2019_v8n2_215_f0003.png 이미지

Fig. 3. Montchadskiana glareolae, male. A, dorsal view; B, dorsal view of prodorsal shield; C, dorsal view of hysterosoma; D, ventral viewe of hysterosoma; E, ventral view of opisthosoma. ad - adanal shield, gap - gentital apparatus, gp - genital papillae, gs - genital sclerites. Scale bars: A, 0.2 mm; B-D, 0.1 mm; E, 0.05 mm.

JOSRB5_2019_v8n2_215_f0004.png 이미지

Fig. 4. Montchadskiana glareolae, female. A, dorsal view; B, dorsal view of prodorsal shield; C, dorsal view of hysterosoma; D, ventral viewe of hysterosoma. gp - genital papillae, sc - supranal concavity. Scale bars: A, 0.2 mm; B-D, 0.1 mm.

Synonyms.Montchadskiana glareolae Dabert and Eh-rnsberger, 1999, p. 228-233, figs. 10, 14.

Material examined. Korea: 3♂♂, 3♀♀, Gyeolseong-myeon, Hongseong-gun, Chungcheongnam-do, 36°31ʹ36ʺN, 126°33ʹ41ʺE, May 11, 2016, collected using vacuum machine from flight feathers on the wings of wood sandpiper Tringa glareola by Han Y.-D.

Diagnosis. Male: Length 550-560 of idiosoma from anterior end to ends of terminal membranes, width 210-230 at level of humeral shields, length to width ratio 2.4-2.5 (Fig. 3A). Prodorsal shield (Fig. 3B): Triangle-shaped, covers the entire pronotum, posterior part with transversal striation, length 145-150 along midline, width 155- 160, with two internal vertical seta (vi). Hysteronotal shield (Fig. 3C): Anterior part concave, with transversal striation excluding lobar part, length 355-365 from anterior margin to base of setae h3, width 175-185 at level of setae c2. Opisthosomal lobes rounded lateroposterior ends with narrow terminal membranes. Setae ps2 and h3 leaf-like (Fig. 3E). Sternum (Fig. 3B, D): Epimerites I fused. Genital apparatus long and massive, located between trochanters IV. Genital papillae situated on anterior to genital apparatus between bases of legs IV. One to two pair of small irregular genital sclerites located laterally to the base of genital apparatus. Adanal shield shaped inverted as V, fused with medial irregular sclerite, with medial sclerite two times longer than its width.

Female: Length 550-570 of idiosoma from anterior end to bases of setae h3, width 200-230 at level of setae c2, length to width ratio 2.4-2.7 (Fig. 4A). Prodorsal shield (Fig. 4B): Shaped as in male. Length 155-165 at based of setae vi, width 160-170 at posterior part. Hysteronotal shield (Fig. 4C): Anterior part concave, with transversal striation excluding the area between setae d2 and Opisthosoma part, length 395-405, width 190-210 at based of setae c2. Setae h1 divided into two branches at the base, the longest branch twice as longer than the shorter branch. Terminus rounded with shallow medial incision. Sternum (Fig. 4D): Epigynum absent. Supranal concavity circular-shaped and separated from terminal terminus. Small ventroterminal shield located behind the posterior opisthosoma.

Remarks. Montchadskiana glareolae was separated from M. ulitae Dubinin, 1951 by Dabert and Ehrnsberger (1999) and was described based on specimens collected from T. glareola in Poland. Montchadskiana glareolae is very similar to M. ulitae with regard to external traits. However, M. glareolae can be clearly distinguished from M. ulitae by the following characteristics: (1) genitoanal region has small irregular genital sclerites in male; (2) length of adanal shield is two times longer than the width of this shield; and (3) setae h1 are divided into two branches at the base in the female (Dabert and Ehrnsberger, 1999). Korean specimens were morphologically consistent with the original description and illustrations(Dabert and Ehrnsberger, 1999). However, the idiosoma width of Korean males were slightly wider than the original description. We consider this to be intraspecific variation.

Host. Specimens were collected from the surface of flight feathers on the wings of wood sandpiper Tringa glareola.

Distribution. India, Poland, Russia, Thailand(Dabert and Ehrnsberger, 1999), Korea(this study).

Deposition. NIBR No. NIBRIV0000812906, NIBRIV0000820670-820674.

Molecular characteristics. The COI sequences were obtained from two individuals and deposited in GenBank with accession numbers of MK031704 and MK031705.

Family Xolalgidae Dubinin, 1953

알통다리깃털진드기과(신칭)

Genus Ingrassia Oudemans, 1905

민머리솜털진드기속(신칭)

3. Ingrassia veligera(Oudemans, 1904)

군함민머리솜털진드기(신칭)(Figs. 5, 6)

JOSRB5_2019_v8n2_215_f0005.png 이미지

Fig. 5. Ingrassia veligera, male. A, dorsal veiw; B, dorsal view of prodorsal shield; C, dorsal view of hysterosoma; D, ventral viewe of hysterosoma. Scale bars: A, 0.2 mm; B-D, 0.1 mm.

JOSRB5_2019_v8n2_215_f0006.png 이미지

Fig. 6. Ingrassia veligera, female. A, dorsal veiw; B, dorsal view of idiosoma; C, ventral view of idiosoma; D, ventral viewe of opisthosoma. gp - genital papillae. Scale bars: A, 0.2 mm; B-D, 0.1 mm.

Synonyms.Megninia veligera: Oudemans, 1904, p. 194; Ingrassia veligera: Vasjukova and Mironov, 1991, p. 69-72, fig. 49; Dabert, 2000, p. 310, fig. 3.

Material examined. Korea: 3♂♂, 2♀♀, Gyeolseong-myeon, Hongseong-gun, Chungcheongnam-do, 36°31ʹ36ʺN, 126°33ʹ41ʺE, May 11, 2016, collected using vacuum machine from tail feathers of wood sandpiper Trin­ga glareola by Han Y.-D.

Diagnosis. Male: Length 380-395 of idiosoma from anterior end to ends of terminal membranes, width 150-155 at level of humeral shields (Fig. 5A). Prodorsal shield (Fig. 5B): Narrow longitudinal plate with rounded posterior margin, posterior part extending beyond the level of setae si, length 85-92 along midline, width 17-23. Setae se situated on small sclerites. Scapular shield narrow with broad and blunt posterior part. Hysteronotal shield (Fig. 5C): Anterior margin sinuous, with incisions of long and soft tegument at level of setae d2, length 212-220 from anterior part to base of setae h3. Sternum (Fig. 5D): Epimerites I fused. Inner ends of epimerites IIIa sparated from each other. Genital papillae located in front of the pregential apodeme. Pregential apodeme bow-shaped, width 20-25. Adanal shields small L-shaped, between levels of setae g and ps3.

Female: Length 340-350 of idiosoma from anterior end to bases of setae h3, width 120-135 at level of setae c2 (Fig. 6A). Prodorsal shield (Fig. 6B): Shaped as in male, Length 77-80, width 22. Hysteronotal shield (Fig. 6B, 6D): Anterior margin rounded, lateral margins slightly sinuous, posterior margin slightly concave, extending beyond the level of setae e2, length 122-125, width 42-45. Setae d1 and e1 located on the hysteronotal shield, and setae d2 on lateral margins. Epigynum shaped as transverse sclerite, almost straight and thin, width 20 (Fig. 6C). Posterior ends of oviporus apodemes not extending to the level of setae 4a.

Remarks. Ingrassia veligera was originally described without illustration by Oudemans(1904) based on specimens collected from the lesser yellowlegs (Tringa flavipes) in Guyana, then was redescribed by Vasjukova and Mironov (1991) with partial illustrations from several sandpipers of the genus Tringa (T. glareola, T. nebularia and T. ochropus). Thereafter, the dorsum part of this species was re-illustrated by Dabert(2000) from T. stagnatilis in Poland.

Ingrassia veligera can be clearly distinguished from I. slonskiana by the following characteristics: (1) posterior margins of scapular shields are widened and blunted; (2) hysteronotal shield has long desclerotized incisions from anterior margin to level of setae d2 in males; (3) lengths of setae d2 and e2 are similar in females(Dabert, 2000). The Korean specimens were consistent with the descriptions and illustrations provided by previous mite taxonomists (Oudemans, 1904; Vasjukova and Mironov, 1991; Dabert, 2000).

Host. Specimens were collected from down feathers of wood sandpiper Tringa glareola.

Distribution. Guyana (Oudemans, 1904), Russia (Vasjukova and Mironov, 1991), Poland (Dabert, 2000), Korea (this study).

Deposition. NIBR No. NIBRIV0000820675-820679.

Molecular characteristics. The COI sequence was obtained from single individual and deposited in GenBank with accession number of MK031706.

AcknowledgeMents

The authors wish to thank Jin-Ho Jang (Chungnam Wild Animal Rescue Center, Korea), Prof. Keeseon S. Eom and Dr. Seongjun Choe (Chungbuk National University School of Medicine, Korea) for sample collection, and Dr. Sergey Mironov (Zoological Institute, Russian Academy of Sciences, Russia) for advice and help in identifying the species.

This work was supported by a grant from the National Institute of Biological Resources(NIBR), funded by the Ministry of Environment(MOE) of the Republic of Korea(NIBR201701201, 201801202).

References

  1. Atyeo, W.T. and J. Gaud. 1971. A new genus of feather mites near Proctophyllodes Robin, 1877 (Analgoidea: Proctophyllodidae). Journal of the Georgia Entomological Society 6:43-50.
  2. Atyeo, W.T. and P.C. Peterson. 1976. The species of the feather mite family Rectijanuidae (Acarina: Analgoidea) [Duck parasites]. Journal Georgia Entomological Society 2:349-366.
  3. Badek, A. and J. Dabert. 2005. A new species of the genus Avenzoaria Oudemans, 1905 (Acari: Avenzoariidae) from the red knot, Calidris canutus (L.) (Aves, Charadriiformes). Entomologische Mitteilungen aus dem Zoologischen Museum Hamburg 14(171):237-243.
  4. Canestrini, G. 1878. Nouve specie del genre Dermalelichus. Atti Istituto Veneto di Scienze, Letter ed Arti 5:43-70.
  5. Canestrini, G. 1879. Intorno ad alcuni Acari parassiti. Atti della Società Veneto-Trentina de Scienze naturali 6:32-42.
  6. Cho, B.K. 1980. Studies on house dust mite in Korea-Part I. Taxonomy. The Journal of Catholic Medical College 33: 407-421.
  7. Dabert, J. 1992. Feather mites of the Common Sandpiper Actitis hypoleucos (Charadriiformes, Scolopaci) - an attempt at a reconstruction of acarofauna origin. Genus 3(1):1-11.
  8. Dabert, J. 2000. Feather mites (Acari, Astigmata) of water birds of the Slonsk nature reserve with the description of a new species. Biological Bulletin of Poznan 37(2):303- 316.
  9. Dabert, J. and R. Ehrnsberger. 1999. Systematics of the feather mite genus Montchadskiana Dubinin, 1951 (Pterolichoidea, Pterolichidae, Magimeliinae) with description of five new species. Acta Zoologica Cracoviensia 42(2): 219-249.
  10. del Hoyo, J., A. Elliott and J. Sargatal. 1996. Handbook of the Birds of the World. Vol. 3: Hoatzin to Auks. Lynx Edicions, Barcelona.
  11. Downs, W.G. 1943. Polyvinyl alcohol: A medium for mounting and clearing biological specimens. Science 97:2528. https://doi.org/10.1126/science.97.2528.539
  12. Dubinin, V.B. 1951. Feather mites of birds of the Baraba Steppe. Report I. Feather mites of waterfowl and wading birds of the orders of rails, grebes, palmipedes, anserines, herons, gulls, and limicoles. Parazitologicheskii Sbomik 13:120-256. (In Russian)
  13. Dubinin, V.B. 1956. Feather mites (Analgesoidea). Part III. Family Pterolichidae. Fauna SSSR, Paukoobraznye. (In Russian)
  14. Gaud, J. 1972. Acariens sarcoptiformes plumicoles (Analgoidea): parasites sur les oiseaux charadriiformes d'Afrique. Musee royal de l'Afrique centrale.
  15. Gaud, J. and W.T. Atyeo. 1996. Feather mites of the World (Acarina, Astigmata): the supraspecific taxa. Annales du Musee Royale de l'Afrique centrale Sciences Zoologiques. Part I (text), Part II (illustrations).
  16. Gaud, J. and J. Mouchet. 1959. Acariens plumicoles (Analgesoidea) des oiseaux du Cameroun. Annales de Parasitologie Humaine et Comparee 34(4):452-545. https://doi.org/10.1051/parasite/1959344452
  17. Han, Y.-D. and G.-S. Min. 2017. New record of four Korean feather mites (Acari: Sarcoptiformes: Pterolichidae) isolated from the birds in the family Rallidae. Journal of Species Research 6(Special Edition):152-163. https://doi.org/10.12651/JSR.2017.6(S).152
  18. Han, Y.-D., J.-H. Song and G.-S. Min. 2016. New record of two feather mites (Acari: Saroptiforems: Astigmata) from Korea. Journal of Species Research 5(3):324-332. https://doi.org/10.12651/JSR.2016.5.3.324
  19. Han, Y.-D., S. Choe, K.S. Eom and G.-S. Min. 2017. New record of two Korean feather mites (Acari: Sarcoptiformes: Astigmata) isolated from water birds. Journal of Species Research 6(Special Edition):177-184.
  20. Hernandes, F.A. and L.G.A. Pedroso. 2017. Two new feather mites of the genus Protonyssus Trouessart, 1916 (Acariformes: Xolalgidae) from Brazilian parakeets (Psittacidae), with a key to species. International Journal of Acarology 43(3): 204-211. https://doi.org/10.1080/01647954.2016.1250815
  21. Hwang, I.D., P.C. Jong and K.S. Choi. 1986. A study on the feather mites (Analgesidae) in Korea. The Chonbuk University Medical Journal 10:11-21.
  22. KSSZ. 1997. List of Animals in Korea (excluding insects). Academy Press, Seoul, Korea, pp. 158-159.
  23. Lee, W.K. and W.Y. Choi. 1980. Studies on the mites (Order Acarina) in Korea I. Suborder Sarcoptiformes. The Korean Journal of Pasasitology 18(2):119-144. https://doi.org/10.3347/kjp.1980.18.2.119
  24. Lee, W.-S., T.-H. Koo and J.-Y. Park. 2014. A Field Guide to the birds of Korea. LG Evergreen Foundation.
  25. Megnin, P. and E.L. Trouessart. 1884. Les Sarcoptides plumicoles. The Journal of Micrographics 8:429-430.
  26. McClure, H.E., N. Ratanaworabhan, P. Kwanyuen, L. Wayupong and H. Hoogstraal. 1973. Some ectoparasites of the birds of Asia. Applied Scientific Research Corporation of Thailand.
  27. Noh, Y.T. and B.O. Sohn. 1992. Two newly recorded species of Pyroglyphidae acari from Korea. Korean Arachnology 7:187-194.
  28. Norton, R. 1998. Morphological evidence for the evolutionary origin of Astigmata (Acari: Acariformes). Experimental and Applied Acarology 22:559-594. https://doi.org/10.1023/A:1006135509248
  29. Oudemans, A.C. 1904. Acarologische Aanteekeningen XIV. Entomologische Berichten 1:190-195.
  30. Park, J.-G. 2014. Identification Guide to Birds of Korea. Nature & Ecolgoy.
  31. Pulliainen, E. and L. Saari. 1991. Breeding biology of the Wood Sandpiper Tringa glareola in eastern Finnish Lapland. Ornis Fennica 68(3):127-128.
  32. Remisiewicz, M., A.J. Tree, L.G. Underhill and P.B. Taylor. 2010. Rapid or slow moult? The choice of a primary moult strategy by immature wood sandpipers Tringa glareola in southern Africa. Journal of Ornithology 151(2): 429-441. https://doi.org/10.1007/s10336-009-0473-4
  33. Stefan, L.M., E. Gomez-Diaz and S.V. Mironov. 2013. Three new species of the feather mite subfamily Ingrassiinae (Acariformes: Xolalgidae) from shearwaters and petrels (Procellariiformes: Procellariidae). Zootaxa 3682(1):105-120. https://doi.org/10.11646/zootaxa.3682.1.4
  34. Snow, D.W. and C.M. Perrins. 1998. The Birds of the Western Palearctic, Volume 1: Non-Passerines. Oxford University Press, Oxford.
  35. Sohn, B.O. 1995. Three new species of the feather mite genus Analges (Analgoidea: Analgidae) from passeriform birds from Korea. International Journal of Acarology 21:27-32. https://doi.org/10.1080/01647959508684040
  36. Sohn, B.O. and Y.T. Noh. 1994a. Feather mites of Kramerellidae and Pterolichidae in Korea (Acari, Pterolichoidea). The Korean Journal of Parasitology 32:75-83. https://doi.org/10.3347/kjp.1994.32.2.75
  37. Sohn, B.O. and Y.T. Noh. 1994b. Systematic studies of feather mites in Korea. Family Analgidae (Acari, Analgoidea). Korean Journal of Entomology 24:81-91.
  38. Vasyukova, T.T. and S.V. Mironov. 1991. Feather mites of Anseriformes and Charadriiformes of Yakutia. Systematics. Novosibirsk, Nauka.