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IEEE style
[1] B. Hoshino et al., “The impact of land cover change on patterns of zoogeomorphological influence: Case study of zoogeomorphic activity of Microtus brandti and its role in degradation of Mongolian steppe,” in International Geoscience and Remote Sensing Symposium (IGARSS), Nov. 2014, pp. 3518–3521, doi: 10.1109/IGARSS.2014.6947241.
[2] B. ( Buheaosier et al., “Preliminary results on surface and soil characteristics of Brandt’s vole (Microtus brandti) habitat in Central Mongolia using satellite data Characteristics of epidemic plague and cholera outbreaks in Kazakhstan View project International Observation of A,” 2012. Accessed: Dec. 19, 2020. [Online]. Available: https://www.researchgate.net/publication/303015096.
[3] B. HOSHINO et al., “Comparative Characteristics of the Home Ranges of Domestic and Wild Animals in Arid and Semi-Arid Afro-Eurasian Watering Places as Hot Spots for Pasture Degradation,” 沙漠研究 = J. Arid L. Stud. 日本沙漠学会誌, vol. 24, no. 1, pp. 51–56, 2014, Accessed: Dec. 19, 2020. [Online]. Available: https://ci.nii.ac.jp/naid/120005761978.
[4] B. Hoshino et al., “Comparative Characteristics of the Home Ranges of Domestic and Wild Animals in Arid and Semi-Arid Afro-Eurasian Watering Places as Hot Spots for Pasture Degradation.”
[5] M. SAWAMUKAI, B. HOSHINO, S. GANZORIG, T. PUREVSUREN, M. ASAKAWA, and K. KAWASHIMA, “Preliminary Results on Surface and Soil Characteristics of Brandt’s Vole (Microtus brandti) Habitat in Central Mongolia using Satellite Data (THE 1st INTERNATIONAL CONFERENCE ON ARID LAND (ICAL 1) ‘DESERT TECHNOLOGY Ⅹ (DT Ⅹ)’),” 沙漠研究 日本沙漠学会誌, vol. 22, no. 1, pp. 295–298, 2012, Accessed: Dec. 19, 2020. [Online]. Available: https://ci.nii.ac.jp/naid/10031045484.
[6] BATSAIKHAN and N., “Spatial and temporal pattern of Brandt’s vole (Microtus brandti : Radde, 1861) in the eastern steppe of Mongolia,” Ecosyst. East Mong., pp. 42–55, 2001, Accessed: Dec. 19, 2020. [Online]. Available: https://ci.nii.ac.jp/naid/10031045485.
[7] 一條将克, 星野仏方, ガンゾリグスミヤ, and 川島健二, “モンゴル国における家畜ウマの行動パターンと放牧地利用について,” 酪農学園大学紀要. 自然科学編, vol. 36, no. 2, pp. 363–375, 2012, Accessed: Dec. 19, 2020. [Online]. Available: https://ci.nii.ac.jp/naid/110008923166.
[8] 澤向麻里絵, 星野仏方, and S. Ganzorig, “モンゴルの山地ステップのブラントハタネズミ(Microtus brandti)の生息環境,” 酪農学園大学紀要 自然科学編, vol. 35, no. 1, pp. 65–72, 2010, Accessed: Dec. 19, 2020. [Online]. Available: https://ci.nii.ac.jp/naid/110007722016.
[9] 澤向麻里絵, 星野仏方, S. Ganzorig, and 浅川満彦, “リモートセンシング技術を用いたモンゴルの退化草原におけるブラントハタネズミ(Microtus brandti)の生息地評価,” 酪農学園大学紀要 自然科学編, vol. 35, no. 2, pp. 45–53, 2011, Accessed: Dec. 19, 2020. [Online]. Available: https://ci.nii.ac.jp/naid/110008427890.
[10] 川島健二, 星野仏方, ガンゾリグスミヤ, 澤向麻里絵, 浅川満彦, and N. BATSAIKHAN, “モンゴルの山地ステップにおける小型哺乳類の生息地の空間異質性と共同性ギルド,” 酪農学園大学紀要. 自然科学編, vol. 36, no. 2, pp. 357–362, 2012, Accessed: Dec. 19, 2020. [Online]. Available: https://ci.nii.ac.jp/naid/110008923165.
[11] 川島健二 et al., “モンゴル国過放牧地域における生態系エンジニアの働きによる草原の回復メカニズム(<特集>草地生態系のオーバーユースとアンダーユース),” 日本草地学会誌, vol. 59, no. 3, pp. 217–220, 2013, doi: 10.14941/GRASS.59.217.
[12] 澤向麻里絵, 星野仏方, and S. Ganzorig, “モンゴルの山地ステップのブラントハタネズミ(Microtus brandti)の生息環境,” 酪農学園大学紀要 自然科学編, vol. 35, no. 1, pp. 65–72, 2010, Accessed: Dec. 19, 2020. [Online]. Available: https://ci.nii.ac.jp/naid/110007722016.
[13] K. Kawashimai et al., “Ecosystern Engineering Role of Brand s Vole （ Microtus brandti ）in Overgrazing Steppe of Mongolia.” doi: https://www.jstage.jst.go.jp/article/grass/59/3/59_KJ00008918410/_article/-char/ja/.

Nature style
1. Hoshino, B. et al. The impact of land cover change on patterns of zoogeomorphological influence: Case study of zoogeomorphic activity of Microtus brandti and its role in degradation of Mongolian steppe. in International Geoscience and Remote Sensing Symposium (IGARSS) 3518–3521 (Institute of Electrical and Electronics Engineers Inc., 2014). doi:10.1109/IGARSS.2014.6947241.
2. Buheaosier, B. ( et al. Preliminary results on surface and soil characteristics of Brandt’s vole (Microtus brandti) habitat in Central Mongolia using satellite data Characteristics of epidemic plague and cholera outbreaks in Kazakhstan View project International Observation of A. https://www.researchgate.net/publication/303015096 (2012).
3. HOSHINO, B. et al. Comparative Characteristics of the Home Ranges of Domestic and Wild Animals in Arid and Semi-Arid Afro-Eurasian Watering Places as Hot Spots for Pasture Degradation. 沙漠研究 = J. Arid L. Stud. 日本沙漠学会誌 24, 51–56 (2014).
4. Hoshino, B. et al. Comparative Characteristics of the Home Ranges of Domestic and Wild Animals in Arid and Semi-Arid Afro-Eurasian Watering Places as Hot Spots for Pasture Degradation.
5. SAWAMUKAI, M. et al. Preliminary Results on Surface and Soil Characteristics of Brandt’s Vole (Microtus brandti) Habitat in Central Mongolia using Satellite Data (THE 1st INTERNATIONAL CONFERENCE ON ARID LAND (ICAL 1) ‘DESERT TECHNOLOGY Ⅹ (DT Ⅹ)’). 沙漠研究 日本沙漠学会誌 22, 295–298 (2012).
6. BATSAIKHAN & N. Spatial and temporal pattern of Brandt’s vole (Microtus brandti : Radde, 1861) in the eastern steppe of Mongolia. Ecosyst. East Mong. 42–55 (2001).
7. 一條将克, 星野仏方, ガンゾリグスミヤ & 川島健二. モンゴル国における家畜ウマの行動パターンと放牧地利用について. 酪農学園大学紀要. 自然科学編 36, 363–375 (2012).
8. 澤向麻里絵, 星野仏方 & Ganzorig, S. モンゴルの山地ステップのブラントハタネズミ(Microtus brandti)の生息環境. 酪農学園大学紀要 自然科学編 35, 65–72 (2010).
9. 澤向麻里絵, 星野仏方, Ganzorig, S. & 浅川満彦. リモートセンシング技術を用いたモンゴルの退化草原におけるブラントハタネズミ(Microtus brandti)の生息地評価. 酪農学園大学紀要 自然科学編 35, 45–53 (2011).
10. 川島健二 et al. モンゴルの山地ステップにおける小型哺乳類の生息地の空間異質性と共同性ギルド. 酪農学園大学紀要. 自然科学編 36, 357–362 (2012).
11. 川島健二 et al. モンゴル国過放牧地域における生態系エンジニアの働きによる草原の回復メカニズム(<特集>草地生態系のオーバーユースとアンダーユース). 日本草地学会誌 59, 217–220 (2013).
12. 澤向麻里絵, 星野仏方 & Ganzorig, S. モンゴルの山地ステップのブラントハタネズミ(Microtus brandti)の生息環境. 酪農学園大学紀要 自然科学編 35, 65–72 (2010).
13. Kawashimai, K. et al. Ecosystern Engineering Role of Brand s Vole （ Microtus brandti ）in Overgrazing Steppe of Mongolia. doi:https://www.jstage.jst.go.jp/article/grass/59/3/59_KJ00008918410/_article/-char/ja/.

 

SIST02 style
(1) Hoshino, Buho, Ganzorig, Sumiya, Sawamukai, Marie, Kawashima, Kenji, Baba, Kenji, Kai, Kenji, Nurtazin, Sabyr. “The impact of land cover change on patterns of zoogeomorphological influence: Case study of zoogeomorphic activity of Microtus brandti and its role in degradation of Mongolian steppe”. International Geoscience and Remote Sensing Symposium (IGARSS). Institute of Electrical and Electronics Engineers Inc., 2014, p. 3518–3521.
(2) Buheaosier, Buho (., Hoshino, ), Sawamukai, Marie, Hoshino, Buho, Ganzorig, Sumiya, Purevsuren, Tsedendamba, Asakawa, Mitsuhiko, Kawashima, Kenji. Preliminary results on surface and soil characteristics of Brandt’s vole (Microtus brandti) habitat in Central Mongolia using satellite data Characteristics of epidemic plague and cholera outbreaks in Kazakhstan View project International Observation of A. 2012. https://www.researchgate.net/publication/303015096, (参照 2020-12-19).
(3) HOSHINO, Buho, NAWATA, Hiroshi, KAI, Kenji, YASUDA, Hiroshi, BABA, Kenji, GANZORIG, Sumiya, SUR, IGA, KARINA, Manayeva, PUREVSUREN, Tsedendamba, HASHIMOTO, Miki, KAWASHIMA, Kenji, NODA, Jun, HAGIWARA, Katsuro, SHIBATA, Yuka. Comparative Characteristics of the Home Ranges of Domestic and Wild Animals in Arid and Semi-Arid Afro-Eurasian Watering Places as Hot Spots for Pasture Degradation. 沙漠研究 = Journal of arid land studies : 日本沙漠学会誌. 2014, vol. 24, no. 1, p. 51–56. https://ci.nii.ac.jp/naid/120005761978, (参照 2020-12-19).
(4) Hoshino, Buho, Nawata, Hiroshi, Kai, Kenji, Yasuda, Hiroshi, Baba, Kenji, Ganzorig, Sumiya, Karina, Manayeva, Purevsuren, Tsedendamba, Hashimoto, Miki, Kawashima, Kenji, Noda, Jun, Hagiwara, Katsuro, Shibata, Yuka. Comparative Characteristics of the Home Ranges of Domestic and Wild Animals in Arid and Semi-Arid Afro-Eurasian Watering Places as Hot Spots for Pasture Degradation.
(5) SAWAMUKAI, Marie, HOSHINO, Buho, GANZORIG, Sumiya, PUREVSUREN, Tsedendamba, ASAKAWA, Mitsuhiko, KAWASHIMA, Kenji. Preliminary Results on Surface and Soil Characteristics of Brandt’s Vole (Microtus brandti) Habitat in Central Mongolia using Satellite Data (THE 1st INTERNATIONAL CONFERENCE ON ARID LAND (ICAL 1) “DESERT TECHNOLOGY Ⅹ (DT Ⅹ)”). 沙漠研究 : 日本沙漠学会誌. 2012, vol. 22, no. 1, p. 295–298. https://ci.nii.ac.jp/naid/10031045484, (参照 2020-12-19).
(6) BATSAIKHAN, N. Spatial and temporal pattern of Brandt’s vole (Microtus brandti : Radde, 1861) in the eastern steppe of Mongolia. Ecosystems of East Mongolia. 2001, p. 42–55. https://ci.nii.ac.jp/naid/10031045485, (参照 2020-12-19).
(7) 一條将克, 星野仏方, ガンゾリグスミヤ, 川島健二. モンゴル国における家畜ウマの行動パターンと放牧地利用について. 酪農学園大学紀要. 自然科学編. 2012, vol. 36, no. 2, p. 363–375. https://ci.nii.ac.jp/naid/110008923166, (参照 2020-12-19).
(8) 澤向麻里絵, 星野仏方, Ganzorig, S. モンゴルの山地ステップのブラントハタネズミ(Microtus brandti)の生息環境. 酪農学園大学紀要 自然科学編. 2010, vol. 35, no. 1, p. 65–72. https://ci.nii.ac.jp/naid/110007722016, (参照 2020-12-19).
(9) 澤向麻里絵, 星野仏方, Ganzorig, Sumiya, 浅川満彦. リモートセンシング技術を用いたモンゴルの退化草原におけるブラントハタネズミ(Microtus brandti)の生息地評価. 酪農学園大学紀要 自然科学編. 2011, vol. 35, no. 2, p. 45–53. https://ci.nii.ac.jp/naid/110008427890, (参照 2020-12-19).
(10) 川島健二, 星野仏方, ガンゾリグスミヤ, 澤向麻里絵, 浅川満彦, BATSAIKHAN, Nyamsuren. モンゴルの山地ステップにおける小型哺乳類の生息地の空間異質性と共同性ギルド. 酪農学園大学紀要. 自然科学編. 2012, vol. 36, no. 2, p. 357–362. https://ci.nii.ac.jp/naid/110008923165, (参照 2020-12-19).
(11) 川島健二, 星野仏方, 澤向麻里絵, Ganzorig, Sumiya, 浅川満彦, Batsaikhan, Nyamsuren, Augugliaro, Claudio. モンゴル国過放牧地域における生態系エンジニアの働きによる草原の回復メカニズム(<特集>草地生態系のオーバーユースとアンダーユース). 日本草地学会誌. 2013, vol. 59, no. 3, p. 217–220. https://ci.nii.ac.jp/naid/110009661323, (参照 2020-12-19).
(12) 澤向麻里絵, 星野仏方, Ganzorig, S. モンゴルの山地ステップのブラントハタネズミ(Microtus brandti)の生息環境. 酪農学園大学紀要 自然科学編. 2010, vol. 35, no. 1, p. 65–72. https://ci.nii.ac.jp/naid/110007722016, (参照 2020-12-19).
(13) Kawashimai, Kenji, Buhe Hoshino2, ＊ ，, Sawamukais, Marie, Ganzorig, Sumiya, Asakawa4, Mitsuhiko, Nyamsuren Batsaikhan5, ，, Augugliarog, Claudio. Ecosystern Engineering Role of Brand s Vole （ Microtus brandti ）in Overgrazing Steppe of Mongolia.