Mite composition in nests of the Japanese wood mouse, Apodemus speciosus (Rodentia: Muridae)
Acari is a diverse group of arthropods that include well-known parasites of animals. Rodents, particularly, serve as common hosts of mites and ticks, transmitting pathogens to domestic animals and humans. Understanding the ecological dynamics between parasites and rodent hosts is crucial for ecosyst...
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| Published in | Experimental & applied acarology Vol. 93; no. 4; pp. 761 - 786 |
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| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
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01.12.2024
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| Abstract | Acari is a diverse group of arthropods that include well-known parasites of animals. Rodents, particularly, serve as common hosts of mites and ticks, transmitting pathogens to domestic animals and humans. Understanding the ecological dynamics between parasites and rodent hosts is crucial for ecosystem management. Due to limited knowledge about the life history of ectoparasites in wild mouse nests, we collected four nests of
Apodemus speciosus
, the most common rodent species in the wild areas of Japan, along with soil samples near the nests to study arthropod communities. Mites overwhelmingly populated the mouse nests, comprising approximately 90% of all arthropods, while both mites and collembolans were prevalent in soil. Various species identified in our study, such as those from the families Laelapidae, Pygmephoridae, Cheyletidae, Trombiculidae, Glycyphagidae, and Thyrisomidae align with known ectoparasites or species found in the nests of other rodent species, but most parasitic species were never collected in the surrounding soil except for trombiculids. The dominance of mites in mouse nests suggests selective preference for inhabiting these host environments, although the exact reasons driving this dominance remain unclear. Further investigations into the food web within mouse nests will aid in characterising faunal composition and understanding the ecological interaction among rodents, mites, and other nest symbionts. |
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| AbstractList | Acari is a diverse group of arthropods that include well-known parasites of animals. Rodents, particularly, serve as common hosts of mites and ticks, transmitting pathogens to domestic animals and humans. Understanding the ecological dynamics between parasites and rodent hosts is crucial for ecosystem management. Due to limited knowledge about the life history of ectoparasites in wild mouse nests, we collected four nests of Apodemus speciosus, the most common rodent species in the wild areas of Japan, along with soil samples near the nests to study arthropod communities. Mites overwhelmingly populated the mouse nests, comprising approximately 90% of all arthropods, while both mites and collembolans were prevalent in soil. Various species identified in our study, such as those from the families Laelapidae, Pygmephoridae, Cheyletidae, Trombiculidae, Glycyphagidae, and Thyrisomidae align with known ectoparasites or species found in the nests of other rodent species, but most parasitic species were never collected in the surrounding soil except for trombiculids. The dominance of mites in mouse nests suggests selective preference for inhabiting these host environments, although the exact reasons driving this dominance remain unclear. Further investigations into the food web within mouse nests will aid in characterising faunal composition and understanding the ecological interaction among rodents, mites, and other nest symbionts. Acari is a diverse group of arthropods that include well-known parasites of animals. Rodents, particularly, serve as common hosts of mites and ticks, transmitting pathogens to domestic animals and humans. Understanding the ecological dynamics between parasites and rodent hosts is crucial for ecosystem management. Due to limited knowledge about the life history of ectoparasites in wild mouse nests, we collected four nests of Apodemus speciosus, the most common rodent species in the wild areas of Japan, along with soil samples near the nests to study arthropod communities. Mites overwhelmingly populated the mouse nests, comprising approximately 90% of all arthropods, while both mites and collembolans were prevalent in soil. Various species identified in our study, such as those from the families Laelapidae, Pygmephoridae, Cheyletidae, Trombiculidae, Glycyphagidae, and Thyrisomidae align with known ectoparasites or species found in the nests of other rodent species, but most parasitic species were never collected in the surrounding soil except for trombiculids. The dominance of mites in mouse nests suggests selective preference for inhabiting these host environments, although the exact reasons driving this dominance remain unclear. Further investigations into the food web within mouse nests will aid in characterising faunal composition and understanding the ecological interaction among rodents, mites, and other nest symbionts.Acari is a diverse group of arthropods that include well-known parasites of animals. Rodents, particularly, serve as common hosts of mites and ticks, transmitting pathogens to domestic animals and humans. Understanding the ecological dynamics between parasites and rodent hosts is crucial for ecosystem management. Due to limited knowledge about the life history of ectoparasites in wild mouse nests, we collected four nests of Apodemus speciosus, the most common rodent species in the wild areas of Japan, along with soil samples near the nests to study arthropod communities. Mites overwhelmingly populated the mouse nests, comprising approximately 90% of all arthropods, while both mites and collembolans were prevalent in soil. Various species identified in our study, such as those from the families Laelapidae, Pygmephoridae, Cheyletidae, Trombiculidae, Glycyphagidae, and Thyrisomidae align with known ectoparasites or species found in the nests of other rodent species, but most parasitic species were never collected in the surrounding soil except for trombiculids. The dominance of mites in mouse nests suggests selective preference for inhabiting these host environments, although the exact reasons driving this dominance remain unclear. Further investigations into the food web within mouse nests will aid in characterising faunal composition and understanding the ecological interaction among rodents, mites, and other nest symbionts. Acari is a diverse group of arthropods that include well-known parasites of animals. Rodents, particularly, serve as common hosts of mites and ticks, transmitting pathogens to domestic animals and humans. Understanding the ecological dynamics between parasites and rodent hosts is crucial for ecosystem management. Due to limited knowledge about the life history of ectoparasites in wild mouse nests, we collected four nests of Apodemus speciosus , the most common rodent species in the wild areas of Japan, along with soil samples near the nests to study arthropod communities. Mites overwhelmingly populated the mouse nests, comprising approximately 90% of all arthropods, while both mites and collembolans were prevalent in soil. Various species identified in our study, such as those from the families Laelapidae, Pygmephoridae, Cheyletidae, Trombiculidae, Glycyphagidae, and Thyrisomidae align with known ectoparasites or species found in the nests of other rodent species, but most parasitic species were never collected in the surrounding soil except for trombiculids. The dominance of mites in mouse nests suggests selective preference for inhabiting these host environments, although the exact reasons driving this dominance remain unclear. Further investigations into the food web within mouse nests will aid in characterising faunal composition and understanding the ecological interaction among rodents, mites, and other nest symbionts. |
| Author | Fujii, Saori Shimada, Takuya Nakamura, Shoko Makino, Shun’ichi Doi, Kandai Okabe, Kimiko Saitoh, Takashi |
| Author_xml | – sequence: 1 givenname: Kimiko orcidid: 0000-0002-6340-1106 surname: Okabe fullname: Okabe, Kimiko email: okabekimiko@gmail.com organization: Forestry and Forest Products Research Institute (FFPRI) – sequence: 2 givenname: Saori orcidid: 0000-0002-2501-5626 surname: Fujii fullname: Fujii, Saori organization: Forestry and Forest Products Research Institute (FFPRI) – sequence: 3 givenname: Shun’ichi orcidid: 0000-0001-6281-7911 surname: Makino fullname: Makino, Shun’ichi organization: Forestry and Forest Products Research Institute (FFPRI) – sequence: 4 givenname: Kandai orcidid: 0000-0001-9656-5900 surname: Doi fullname: Doi, Kandai organization: Forestry and Forest Products Research Institute (FFPRI) – sequence: 5 givenname: Shoko orcidid: 0000-0002-9424-8773 surname: Nakamura fullname: Nakamura, Shoko organization: Tama Science Garden, FFPRI – sequence: 6 givenname: Takashi orcidid: 0000-0003-4085-5014 surname: Saitoh fullname: Saitoh, Takashi organization: Field Science Center, Hokkaido University – sequence: 7 givenname: Takuya orcidid: 0000-0002-1685-6781 surname: Shimada fullname: Shimada, Takuya organization: Forestry and Forest Products Research Institute (FFPRI) |
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| Keywords | Symbiosis Wood mouse Parasite Soil mites Nidicolous arthropods |
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66 M Saito (959_CR69) 2011; 20 RS Sikes (959_CR78) 2016; 97 MAM Moustafa (959_CR48) 2016; 7 KR Taylor (959_CR83) 2013; 75 K Asanuma (959_CR4) 1949; 13 K Ishikawa (959_CR24) 1968; 3 GW Krantz (959_CR32) 2009 U Gerson (959_CR18) 1999; 69 Y Matsuyama (959_CR45) 1955; 6 BA Han (959_CR19) 2015; 112 K Okabe (959_CR57) 2020; 48 JJ Sato (959_CR75) 2019; 44 M Sasa (959_CR73) 1961; 31 959_CR90 FJ Radovsky (959_CR65) 1994 FJ Radovsky (959_CR64) 1985 GJ Moraes (959_CR47) 2022; 5184 M Nakao (959_CR51) 1995; 33 H Hayashi (959_CR23) 1951; 23 K Asanuma (959_CR6) 1952; 22 K Ishikawa (959_CR29) 1987; 12 J Laakso (959_CR36) 1998; 81 K Okabe (959_CR56) 2018; 27 Z Ono (959_CR59) 1968; 18 A Fain (959_CR13) 1969; 45 BM Oconnor (959_CR54) 1994 C Poteaux (959_CR63) 2008; 93 K Asanuma (959_CR3) 1949; 13 MH Hansell (959_CR20) 1993; 7 M Samish (959_CR72) 2004; 129 T Shimada (959_CR76) 2015; 29 EA Cross (959_CR11) 1965; 45 S Fujii (959_CR16) 2021; 30 A Brückner (959_CR9) 2016; 56 FS Lukoschus (959_CR41) 1977; 3 H Kruse (959_CR33) 2004; 10 J Aoki (959_CR2) 2011; 60 RT Larson (959_CR38) 2020; 57 SD Ohdachi (959_CR55) 2015 P Mašán (959_CR43) 2005; 50 GA Lozano (959_CR40) 1998; 27 K Uchikawa (959_CR86) 1984; 26 EJ Muturi (959_CR50) 2019; 56 MW Negm (959_CR53) 2018; 4429 RS Ostfeld (959_CR60) 2006; 56 DJ Marcogliese (959_CR42) 2004; 1 A Napierała (959_CR52) 2016; 68 BL Hart (959_CR21) 1994; 109 JH Oliver (959_CR58) 1989; 20 M Yasuda (959_CR89) 1991; 41 MS Mooring (959_CR46) 2004; 81 E Ozdenerol (959_CR61) 2015; 12 A Fain (959_CR14) 1974; 47 |
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| SubjectTerms | Animal Ecology Animal Genetics and Genomics Animal Systematics/Taxonomy/Biogeography Animals Apodemus speciosus Arthropoda Arthropods Biomedical and Life Sciences Cheyletidae Collembola Composition Domestic animals Dominance ecological competition Ecosystem management Ectoparasites Entomology fauna Food chains Food composition Food preferences Food selection Food webs Glycyphagidae Japan Laelapidae Life history Life Sciences Mice Mites Mites - physiology Murinae - parasitology Nests Parasites Pygmephoridae Rodent Diseases - epidemiology Rodent Diseases - parasitology Rodents Soil Species Symbionts Ticks Trombiculidae |
| Title | Mite composition in nests of the Japanese wood mouse, Apodemus speciosus (Rodentia: Muridae) |
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