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Behavioral Aspects of Captive Alpine Musk Deer during Non-mating Season: Gender Differences and Monthly Patterns
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 Title & Authors
Behavioral Aspects of Captive Alpine Musk Deer during Non-mating Season: Gender Differences and Monthly Patterns
Meng, Xiuxiang; Zhao, Changjie; Hui, Cenyi; Luan, Xiaofeng;
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 Abstract
The objective of the present study was to determine gender-related and month-related behavioral differences in captive alpine musk deer. The study was conducted at Xinglongshan Musk Deer Farm (XMDF) of Xinglongshan National Nature Reserve in Gansu Province of western China. The integrated method of focal sampling and all occurrence recording was utilized to quantify the behavioural patterns of 45 captive alpine musk deer (Moschus sifanicus) during non-mating season (from August to October ), and the behavioural durations of 12 behavioural patterns such as standing-gazing were recorded. The behavioural modes were compared to explore the potential differences between females and males, and the monthly behavioural modes for males and females were analyzed. Our results showed that the captive female deer in XMDF could compensate the energy lost in pregnancy, parturition and lactation through improving its ingestive efficiency. In order to be more sensitive to the changing environment, females expressed more standing-gazing (SG: ) and moving (MO; ), but less bedding (BE: ) than male deer (SG: ; MO: ; BE: ). Furthermore, females perform more affinitive interaction (AI: ) but less ano-genital sniffing (AS: ) and agonistic behaviour (CI: ) than males (AI: ; AS: ; CI: ). The females expressed ingestion more in October () than in August () and September (), and the males performed Ano-genital sniffing (AS: ) and self-directed behaviour (SD: ) significantly more in October than in August (AS: 0 s; SD: ) and September (AS: ; SD: ). Moreover, male musk deer increased the intension of ano-genital sniffing, agonistic behaviour and tail rubbing behaviour, which were related to sexual activities.
 Keywords
In Captivity;Alpine musk deer (Moschus sifanicus);Non-mating Season;Behavioural Characteristics;
 Language
English
 Cited by
1.
Quantified Analyses of Aggression Pattern in a Captive Population of Musk Deer (Moschus Sifanicus), Annals of Animal Science, 2012, 12, 3  crossref(new windwow)
2.
Behavioral and physiological responses of forest musk deer (Moschus berezovskii) to experimental fawn manipulation, acta ethologica, 2016, 19, 2, 133  crossref(new windwow)
 References
1.
Berger, J. 1992. Facilitation of reproductive synchrony by gestation adjustment in gregarious mammals: a new hypothesis. Ecol. 13(1):323-329.

2.
Bowyer, R. T. 1981. Activity movement and distribution of Roosevelt elk during rut. J. Mamm. 62:574-582. crossref(new window)

3.
Castle, D. L., A. Whitens and F. Aurell. 1999. Social anxiety, relationships and self-directed behaviour among wild female olive baboons. Anim. Behav. 58:1207-1215. crossref(new window)

4.
Du, W. and H. Sheng. 1998. Time budget and behaviour of forest musk deer during lactation. Acta Theriol. Sinica. 15(2):98-105 (in Chinese, with English abstract).

5.
Green, M. J. B. 1987a. Diet composition and quality in Himalayan musk deer based on faecal analysis. J. Wildl. Mgmt. 51:880-892. crossref(new window)

6.
Green, M. J. B. 1987b. Scent-marking in the Himalayan musk deer. J. Zool. (Lond.) 1:721-737. crossref(new window)

7.
Homes, V. 1999. On the scent: Conserving musk deer - the uses of musk and Europe's role in its trade. TRAFFIC Europe.

8.
Hunter, L. T. B. and J. D. Skinner. 1998. Vigilance behaviour in African ungulates: the role of predation pressure. Behav. 135:195-211. crossref(new window)

9.
Jiang, Y. 1998. The reproduction of the captive alpine musk deer. Chin. J. Zool. 21(4):23-25 (in Chinese, with English abstract).

10.
Komers, P. E. 1999. Timing of estrus in fallow deer is adjusted to the age of available mates. Am. Nat. 153:431-436. crossref(new window)

11.
Meng, X., Q. Yang, Z. Feng and L. Xia. 2002. Seasonal active patterns of captive alpine musk deer. Acta Theriol. Sinica. 22(2):87-97 (in Chinese, with English abstract).

12.
Meng, X., Q. Yang, L. Xia, Z. Feng, Y. Jiang and P. Wang. 2003a. The temporal estrous patterns of female alpine musk deer in captivity. Appl. Anim. Behav. Sci. 82:75-85. crossref(new window)

13.
Meng, X., Q. Yang, Z. Feng, L. Xia, Y. Jiang and P. Wang. 2003b. Timing and synchrony of parturition in Alpine musk deer. Folia Zool. 52(1):39-50.

14.
Meng, X., C. Zhou, J. Hu and C. Li. 2006. The musk deer farming in China. Anim. Sci. 82:1-6.

15.
Parry-Jones, R. and J. Y. Wu. 2001. Musk deer farming as a conservation tool in China. TRAFFIC, East Asia, Hong Kong.

16.
Price, E. O. 1984. Behavioural aspects of animal domestication. Q. Rev. Biol. 59:1-32. crossref(new window)

17.
Sheng, H. and N. Ohtaishi. 1993. The status of deer in China. In: Deer of China: Biology and Managementm (Ed. N. Ohtaishi and H. Sheng), Elsevier Science Publishers, Amsterdam, The Netherlands, pp. 14-29.

18.
Sullivan, K. A. 1988. Ontogeny of time budgets in yellow-eyed juncos: adaptation to ecological constraints. Ecol. 69:118-124. crossref(new window)

19.
Xu, Z. and H. Xu. 2003. Population characteristics and fawn survival in musk deer (Moshus moschiferus). Acta Theriol. Sinica, 23(1):17-20 (in Chinese, with English abstract).

20.
Yang, Q., X. Meng, Z. Feng and L. Xia. 2003. Conservation status and causes of decline on musk deer in China. Biol. Conser. 109:333-342. crossref(new window)

21.
Zhou, Y., X. Meng, J. Feng, Q. Yang, Z. Feng and B. Ludek. 2004. Review of the distribution, status and conservation of musk deer in china. Folia Zool. 53(2):129-140.

22.
Zhang, B. 1979. The farming and raising of musk deer. Agriculture Press, Beijing (in Chines).

23.
Zhang, B. 1983. Musk deer: Their capture, domestication and care according to Chinese experience and methods. Unasylva. 35:16-24.