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Andrey B. Shatrov
ResearcherID: https://publons.com/researcher/R-7021-2017
Scopus Author ID: https://www.scopus.com/authid/detail.uri?authorId=7006135839
RSCI: https://www.elibrary.ru/author_profile.asp?authorid=676
ORCID ID: https://orcid.org/0000-0001-9710-2078
Google Scholar: https://scholar.google.ru/citations?user=OOIMPDUAAAAJ
Academic degree: Doctor of Biological Sciences
Academic title: Associate Professor
Position: Leading Researcher
E-mail: Andrei.Shatrov@zin.ru
Contact phone: +7 (812) 714-01-51
Educational background: Leningrad State University, Faculty of Biology and Soil Sciences, Chair of Cytology and Histology, 1978.
Dissertations:
  • “Morpho-functional adaptations of trombiculid mite larvae (Trombiculidae) to parasitism” (PhD)
  • “Postembryonic development, morphology and parasitic features of trombiculid mites (Acariformes, Trombiculidae).” (PhD habilitation)
Research interests: Acarology, parasitology, evolutionary, comparative and functional morphology of arthropods, electron microscopy, individual development.
Field studies: Leningrad, Pskov, Smolensk and Tyumen provinces, Karelia, Near-Baikal region, Khabarov and Primorskiy areas, Tuva, Moldavia, Kazakhstan, Kirgisia, Tajikistan, Turkmenia, Uzbekistan.
Professional membership: Russian Entomological Society, http://www.zin.ru/societies/res/
Editorial activity:
Pedagogical activity: member of dissertation council D 002.223.01 of ZIN RAS — Zoological Institute of Russian Academy of Sciences
Scientific projects and grants:
  • RFBR № 06-04-48538-а: “Functional and morphological principles of behavior and feeding of the parasitic arthropods (on an example of parasitiform and acariform mites and god flies)”, 2006-2009;
  • RFBR № 09-04-00390-а: “Morphological and functional aspects in relationships within host-parasite systems as leading factors of adaptatiogenesis and evolution in parasitic mites and ticks”, 2009-2011;
  • RFBR № 12-04-00354-а: “Taxonomical analysis and the main ways of morphological specialization in acariform mites (Acariformes) on the example of the cohorts (infraorders) Parasitengona and Eleuterengona”, 2012-2014;
  • RFBR № 15-04-01203-а: “Morpho-functional and ecologo-physiological peculiarities of life cycle, host-parasite relationships and evolutionary trends of parasitic mites and ticks (on the example of Parasitiformes: Ixodina, Acariformes: Parasitengona)”, 2015-2017;
  • RFBR № 18-04-00075-a: “The leading tendencies of morpho-ecological specialization in mites and ticks (Acariformes, Parasitiformes) in the light of elaboration of their host-parasite relationships”, 2018-2019.
Selected Publications:
  • Shatrov A.B. 1997. The ultrastructure of haemocytes in trombiculid mites (Acariformes: Trombiculidae. Experimental and Applied Acarology. Vol. 21, N 1. P. 49-64;
  • Shatrov A.B. 1997. Vitellogenesis and egg-shell formation in ovipositing females of the trombiculid mite Hirsutiella zachvatkini (Schluger) (Acariformes: Trombiculidae). Acarologia. T. 38, fasc. 2. P. 51-61;
  • Shatrov A.B. The ultrastructure and possible functions of nephrocytes in the trombiculid mite Hirsutiella zachvatkini (Acariformes: Trombiculidae) // Experimental and Applied Acarology. 1998. Vol. 22, N 1. P. 1-16;
  • Шатров А.Б. Эколого-физиологический анализ онтогенеза у клещей-паразитенгон (Acariformes, Parasitengona). Паразитология. 1998. Т. 32, вып. 5. С. 385-395;
  • Шатров А.Б. Предличинки клещей надсемейства Trombidioidea (Acariformes). Энтомологическое обозрение. 1998. Т. 77, вып. 4. С. 923-936;
  • Shatrov A.B. Ultrastructure of testes and spermatogenesis in the trombiculid mite, Hirsutiella zachvatkini (Shluger) // Invertebrate Reproduction and Development. 1998. Vol. 34, Nos. 2-3. P. 233-245;
  • Shatrov A.B. The phenomenon of embryonization and the pattern of ontogenesis in Parasitengona mites (Acariformes: Actinedida: Parasitengona). Proceedings of Zoological Institute RAS. 1998. Vol. 276. P. 169-174;
  • Shatrov A.B. External morphology of the quiescent instars of trombiculid mites (Acariformes: Trombiculidae) with notes on their moulting processes. Acta Zoologica (Stockholm). 1999. Vol. 80, N1. P. 85-95;
  • Shatrov A.B. The pattern of early postembryonic development of Parasitengona mites (Acariformes: Parasitengona) and its causative analysis. Acarina. 1999. Vol. 7, N 1. P. 23-28;
  • Шатров А.Б. Зачем клещам пластрон? Природа. 1999. N 10. С. 92-97;
  • Шатров А.Б. Покоящиеся нимфальные стадии и характер индивидуального развития краснотелковых клещей (Acariformes: Trombiculidae). Паразитология. 2000. Т. 34, вып. 2. С. 93-100;
  • Шатров А.Б. Ультраструктурная организация покровов и формирование кутикулы у фаратных личинок Leptotrombidium orientale (Acariformes: Trombiculidae). Цитология. 2000. Т. 42, N 3. С. 219-227;
  • Shatrov A.B. Contribution to the prelarva status: the moulting cycle of the calyptostasic prelarva of the trombiculid mite Leptotrombidium orientale (Acariformes: Trombiculidae). Acarologia. 2000. Vol. 40, fasc. 3. P. 265-274;
  • Шатров А.Б. Краснотелковые клещи и их паразитизм на позвоночных животных. Труды Зоологического института РАН. Т. 285. Изд-во СПбГУ. С.-Петербург, 2000. 278 с.;
  • Shatrov A.B. Metamorphosis: criteria and evaluations. Trudy Zool. Inst. Ross. Akad. Nauk. 2000. T. 286. P. 141-146;
  • Shatrov A.B. On the origin of parasitism in trombiculid mites (Acariformes: Trombiculidae). Acarologia. 2001. Vol. 41, fasc. 1-2. P. 205-214;
  • Shatrov A.B. Ultrastructure of the integument during moulting of the quiescent tritonymphal instar of trombiculid mite Hirsutiella zachvatkini (Acariformes: Trombiculidae). Experimental and Applied Acarology. 2001. Vol. 25, N 2. P. 127-142;
  • Shatrov A.B. The first attempt of comparative characteristics of the tissue organization of mites of the families Trombiculidae and Microtrombidiidae (Acariformes: Actinedida). Proceedings of Zoological Institute RAS. 2002. Vol. 296. P. 117-124;
  • Shatrov A.B. Oogenesis in ovipositing females of the microtrombidiid mite Platytrombidium fasciatum (C.L. Koch) (Acariformes: Microtrombidiidae). Invertebrate Reproduction and Development. 2002. Vol. 42, N 1. P. 1-15;
  • Шатров А.Б. 2003. К вопросу об основах онтогенеза членистоногих (Arthropoda) и его морфологическом выражении. Энтомологическое обозрение. Т. 82, вып. 2. С. 511-525.
  • Shatrov A.B. Further observations on the life cycle and life strategy of a trombiculid mite Hirsutiella zachvatkini (Schluger, 1948) (Acariformes, Trombiculidae) in the laboratory. Acarina. Russian Journal of Acarology. 2003. 11 (1): 73-90;
  • Шатров А.Б. Тридцать лет электронно-микроскопических исследований в зоологии и паразитологии в Зоологическом институте РАН. Паразитология. 2003. 37 (6): 537-547;
  • Shatrov A.B. Comparative midgut ultrastructure of unfed larvae and adult mites of Platytrombidium fasciatum (C.L. Koch, 1836) and Camerotrombidium pexatum (C.L. Koch, 1837) (Acariformes: Microtrombidiidae). Arthropod Structure and Development. 2003. 32: 227-239;
  • Shatrov A.B. Ultrastructure of the salivary gland complex in unfed larvae of Platytrombidium fasciatum (C.L. Koch, 1836) and Camerotrombidium pexatum (C.L. Koch, 1837) (Acariformes: Microtrombidiidae). Acarologia. 2004. 44 (3-4): 219-229;
  • Shatrov A.B. 2004. Ultrastructure and probable functions of urstigma (Claparède organ) in mites of the families Trombiculidae and Microtrombidiidae (Acariformes: Parasitengona). Belgian Journal of Entomology. Vol. 6: 43-56;
  • Шатров А.Б. 2005. Внекишечное пищеварение и проблема паразитизма у клещей-паразитенгон (Acariformes: Parasitengona). Паразитология. Т. 39, вып. 3. С. 177-185;
  • Shatrov A.B. Ultrastructural investigations of the salivary glands in adults of the microtrombidiid mite Platytrombidium fasciatum (C.L. Koch, 1836) (Acariformes: Microtrombidiidae). Arthropod Structure & Development. 2005. Vol. 34. P. 49-61;
  • Shatrov A.B. Comparative organization of the salivary gland complex in unfed larvae and adult mites of Platytrombidium fasciatum (C.L. Koch, 1836) and Camerotrombidium pexatum (C.L. Koch, 1837) (Acariformes: Microtrombidiidae). Phytophaga. 2004. Vol. 14. P. 83-89;
  • Shatrov A.B. Description of mouthparts in adult mites of Platytrombidium fasciatum (C.L. Koch, 1836) (Acariformes: Microtrombidiidae) with a comparison of those of the larvae. Acarina. Russian Journal of Acarology. 2005. Vol. 13, N 1. P. 47-74;
  • Shatrov A.B. 2006. Ultrastructure of coxal glands in the unfed microtrombidiid larvae, Platytrombidium fasciatum (C.L. Koch, 1836) and Camerotrombidium pexatum (C.L. Koch, 1837) (Acariformes: Microtrombidiidae). Abhandlungen und Berichte des Naturkundemuseums Görlitz. Bd 78, Hf. 1. S. 57-78;
  • Шатров А.Б. 2006. Морфология клещей-паразитенгон (Acariformes: Parasitengona) и их возможный эволюционный сценарий. Паразитология. Т. 40, вып. 6. С. 489-511;
  • Shatrov A.B. 2007. Ultrastructure of coxal glands in the adult microtrombidiid mite Platytrombidium fasciatum (C.L. Koch, 1836) (Acariformes: Microtrombidiidae). Acarologia. T. 47, fasc. 1-2. P. 63-78;
  • Шатров А.Б. 2007. Электронно-микроскопическая организация средней кишки и экскреторного органа у взрослых фаз водяного клеща Teutonia cometes (Koch, 1837) (Parasitengona: Hydrachnidia: Teutoniidae) и ее эволюционная оценка. Зоология беспозвоночных. Т. 4, № 2. С. 1-17;
  • Shatrov A.B. and Kudryashova N.I. 2008. Taxonomic ranking of major trombiculid subtaxa with remarks on the evolution of host-parasite relationships (Acariformes: Parasitengona: Trombiculidae). Annales Zoologici (Warszawa). T. 58, N 2. P. 279-287;
  • Shatrov A.B. 2008. Organization of unusual idiosomal glands in a water mite, Teutonia cometes (Teutoniidae). Experimental and Applied Acarology. T. 44, N5. P. 249-263;
  • A.B. Shatrov. 2008. Anatomy and ultrastructure of genital papillae in the Parasitengona (Acariformes). International Journal of Acarology. T. 34, N 4. P. 347-358;
  • Шатров А.Б. 2008. Морфология и эволюция высших акариформных клещей (Acariformes). В кн.: Эволюционная морфология животных. Часть 1. (Под ред. Ю.В. Мамкаева). СПб.: Изд-во СПбГУ. (Труды С.-Петерб. о-ва естествоиспытателей. Сер. 1. Том 97.). С. 58-68;
  • Shatrov A.B. 2009. Stylostome formation in trombiculid mites (Acariformes: Trombiculidae). Experimental and Applied Acarology. Volume 49, Issue 4. Page 261-280;
  • Shatrov A.B. 2010. Ultrastructure and functional features of midgut of an adult water mite Teutonia cometes (Koch, 1837) (Hydrachnidia: Teutoniidae). Acta Zoologica (Stockholm). Vol. 91. P. 222-232;
  • Shatrov A.B. 2010. Comparative morphology, ultrastructure and functions of the excretory organ (postventricular midgut) in the Parasitengona (Acariformes). Acarologia. Vol. 50, N 1. P. 93-112;
  • Шатров А.Б. 2010. Возможные эволюционные сценарии у клещей-паразитенгон (Acariformes: Parasitengona) на основе анатомических особенностей их пищеварительной системы. Паразитология. Т. 44, вып. 6. С. 557-571;
  • Shatrov A.B. 2011. Comparative morphology and ultrastructure of the mouthparts in unfed larvae of Platytrombidium fasciatum and Camerotrombidium pexatum (Acariformes: Microtrombidiidae). Experimental and Applied Acarology. Vol. 53, N 3. P. 263-285;
  • Shatrov A.B. 2011. Comparative and functional morphology of the mouthparts in larvae of Parasitengona (Acariformes). In: Moraes, G.J. de & Proctor, H. (eds) Acarology XIII: Proceedings of the International Congress. Zoosymposia, 6, 1–280 (Magnolia Press). P. 14-23;
  • Shatrov A.B., Stekolnikov A.A. 2011. Redescription of a human-infesting European trombiculid mite Kepkatrombicula desaleri (Acari: Trombiculidae) with data on its mouthparts and stylostome. International Journal of Acarology. Vol. 37, Suppl. 1. P. 176-193;
  • Shatrov A.B. 2012. Functional morphology and ultrastructure of mouthparts in unfed water mite larvae Piona carnea (Koch, 1836) (Acariformes: Pionidae). Zool. Anz. Bd 251, Hf. 1, S. 85-100;
  • Shatrov A.B. 2012. Anatomy and ultrastructure of the salivary (prosomal) glands in unfed water mite larvae Piona carnea (C.L. Koch, 1836) (Acariformes: Pionidae). Zool. Anz. Bd 251, Hf. 4, S. 279-287;
  • Shatrov A.B. 2012. Ultrastructural evidences of the plastron organization and skin respiration in the soil inhabiting trombiculid mites (Acariformes: Trombiculidae). In: Current Microscopy Contributions to Advances in Science and Technology. A. Méndez-Vilas (Ed.). Badajoz, Formatex. P. 394-400;
  • Shatrov A.B. 2013. Anatomy and ultrastructure of dermal glands in an adult water mite, Teutonia cometes (Koch, 1837) (Acariformes: Hydrachnidia: Teutoniidae). Arthropod Structure and Development. Vol. 42. N 2. P. 115-125;
  • Шатров А.Б. 2013. Дермальные железы водяных клещей (Acariformes: Parasitengona: Hydrachnidia) и их возможное эколого-физиологическое значеие. Паразитология. 47 (3): 235-244;
  • Шатров А.Б. 2013. Морфология и развитие высших акариформных клещей (ISBN 978-3-659-98430-3). Palmarium Academic Publishing. 175 c.;
  • Shatrov A.B., Takahashi M., Noda S., Misumi H. 2014. Stylostome organization in feeding Leptotrombidium larvae (Acariformes: Trombiculidae). Experimental and Applied Acarology. Volume 64, Issue 1, Page 33-47;
  • Shatrov A.B. 2014. Phenomenon of silk production in water mites (Acariformes, Hydrachnidia). In: “Microscopy: advances in scientific research and education” (ed. A. Méndez-Vilas). Vol.1. Badajoz, Formatex Research Center. P. 538-544;
  • Shatrov A.B., Soldatenko E.V., Gavrilova O.V. 2014. Observation on silk production and morphology of silk in water mites (Acariformes: Hydrachnidia). Acarina. Vol. 22, No 2. P. 133-148;
  • Shatrov A.B. 2015. Comparative morphology and ultrastructure of the prosomal salivary glands in the unfed larvae Leptotrombidium orientale (Acariformes, Trombiculidae), a possible vector of tsutsugamushi disease agent. Experimental and Applied Acarology: Volume 66, Issue 3, Page 347-367;
  • Shatrov A.B., Mirolubov A.A. 2015. Stylostome and feeding of the trombiculid larva Neotrombicula tianshana Shao et Wen, 1984 (Acariformes: Parasitengona) from the Baikal region. International Journal of Acarology. Vol. 41, No 7. P. 537-550;
  • Shatrov A.B., Soldatenko E.V. 2015. Median eye in larvae of Hydryphantes ruber (De Geer, 1778) (Acariformes: Hydryphantidae). 2015. Acarina. Vol. 23, No 2. P. 101-109;
  • Shatrov A.B., Takahashi M., Misumi H. and Takahashi Yu. 2016. Mouthparts in Leptotrombidium larvae (Acariformes: Trombiculidae). Journal of Morphology. Vol. 277, N 4. P. 424-444;
  • Shatrov A.B., Soldatenko E.V. 2016. Dermal glands in freshwater mites Limnesia undulata (O.F. Müller, 1776) and L. fulgida (C.L. Koch, 1836) (Acariformes, Limnesiidae). Arthropod Structure and Development. Vol. 45, N 4. P. 341-355;
  • Shatrov A.B., Soldatenko E.V. & Gavrilova O.V. 2016. Morphology of tube-like threads related to Limnochares aquatica (L., 1758) (Acariformes: Hydrachnidia:Limnocharidae) in the laboratory. Journal of Natural History. Vol. 50, Nos. 35-36. P. 2199-2214;
  • Shatrov A.B. 2017. Comparative ultrastructure of coxal glands in unfed larvae of Leptotrombidium orientale (Schluger, 1948) (Trombiculidae) and Hydryphantes ruber (de Geer, 1778) (Hydryphantidae). Journal of Morphology. Vol. 278, N 7: 1551-1569;
  • Shatrov A. B, Felska M. 2017. Comparative stylostome ultrastructure of Hirsutiella zachvatkini (Trombiculidae) and Trombidium holosericeum (Trombidiidae) larvae. Experimental and Applied Acarology. 72 (4): 339-365;
  • Moniuszko H., Shatrov A.B., Makol J. 2017. Description of active post-larval forms of Neotrombicula vulgaris (Schluger, 1955) (Prostigmata: Trombiculidae), with notes on biology and ecology of the species. Annales Zoologici (Warszawa). 67 (2): 243-251;
  • Shatrov A.B. 2018. On the life cycle and parasitism of the trombiculid mite Hirsutiella hexasternalis (Kudryashova, 1998) (Acariformes, Trombiculidae). Soil Organisms, Vol. 90, N 3. P. 157-170;
  • Shatrov A.B.,;Soldatenko E.V.,;Stolbov V.A.,;Smirnov P.A.,;Petukhova O.A. 2019. Ultrastructure and functional morphology of dermal glands in the freshwater mite Limnochares aquatica (L., 1758) (Acariformes, Limnocharidae). Arthropod Structure and Development. Vol. 49: 85-102;
  • Shatrov A.B., Soldatenko E.V. 2019. Ultrastructure of the genital papillae in the fresh-water mite Limnochares aquatica (L., 1758) (Acariformes, Limnocharidae). Zoomorphology. Vol. 139. P. 1-9.

 

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