A study on the burrow features and functions of plateau pika

doi:10.11686/cyxb20130625

Abstract

Abstract: A field investigation used 900 holes of pika burrows in alpine meadow grassland in Gannan Maqu county to study the burrow features of plateau pika, including hole number, location, orientation, pattern, burrow structure. The dark side, semidark side, sunny side of hole orientation of plateau pika showed extremely significant differences. There was no correlation between diameter and orientation of the holes. Holes with less than a 55° angle were mainly concentrated in the SW, SE and S directions and accounted for 48.6% of the total number of holes. Holes with a greater angle than 55° were mainly focused in NW, NE and N directions and accounted for 52.1% of the holes. The hole temperature in the south and partial south was higher than that in north and partial north with a 13.2℃ difference. The hole temperature in the west and partial west was higher than that in the east and partial east with about a 6.0℃ difference. The tunnel structure features of plateau pika were consequences of adaptive selection to the plateau circumstances. Considering the advantages and disadvantages of the temperatures inside holes, air convection and cold wave resistance, habitat exclusion and risk avoidance are fundamental functions of burrow orientation.

CLC Number:

WEI Wan-rong, ZHANG Ling-fei, YANG Guo-rong, XU Ji-wei, FAN Xu-dong, ZHANG Wei-guo. A study on the burrow features and functions of plateau pika[J]. Acta Prataculturae Sinica, 2013, 22(6): 198-204.

References

Smith A T, Foggin J M. The plateau pika is a keystone species for biodiversity on the Tibetan Plateau. Animal Conservation, 1999, 2: 235-240.
Begall S, Gallardo M H. Spalacopus cyanus (Rodentia: Octodontidae): an extremist in tunnel constructing and food storing among subterranean mammals. Journal of Zoology, 2000, 251: 53-60.
Vleck D. Burrow structure and foraging costs in the fossorial rodent,Thomomys bottae. Oecologia, 1981, 49: 391-396.
Saundersa G, Cooke B, McColl K, et al. Modern approaches for the biological control of vertebrate pests: An Australian perspective. Biological Control, 2010, 52(3): 288-295.
Lai C H, Smith A T. Keystone status of plateau pikas (Ochotona curzoniae): effect of control on biodiversity of native birds. Biodiversity and Conservation, 2003, 12: 1901-1912.
施大钊, 钟文勤. 2000年我国草原鼠害发生状况及防治对策. 草地学报, 2001, 9(4): 248-252.
王兴堂, 花立民, 苏军虎, 等. 高原鼠兔的经济损害水平及防治指标研究.草业学报, 2009, 18(6): 198-203.
施银柱. 草场植被影响高原鼠兔密度的探讨.兽类学报, 1983, 3(2): 181-187.
张卫国, 丁连生, 韩天虎. 降水对高原鼠兔种群消长的影响.草业科学, 1999, 16(6): 20-22.
张卫国, 刘蓉, 江小雷. 风险性声讯信号对高原鼠兔行为模式的影响. 草地学报, 2010, (1): 115-120.
边疆辉, 刘季科. 相关风险因子对高原鼠兔摄食行为的影响. 兽类学报, 2001, 21(3): 41-52.
张永超, 牛得草, 韩潼, 等. 补播对高寒草甸生产力和植物多样性的影响. 草业学报, 2012, 21(2): 305-309.
文淑均, 张世挺, 李伟, 等. 青藏高原东缘典型草甸与沼泽化草甸中种子雨的差异.草业学报, 2012, 21(2): 256-263.
Luna F C, Antinuchi C D. Effect of tunnel inclination on digging energetics in the tuco-tuco, Ctenomys talarum (Rodentia: Ctenomyidae). Naturwissenschaften, 2007, 94: 100-106.
Lovegrove B G. The cost of burrowing by the social mole rats (Bathyergidae) Cryptomys damarensis and Heterocephalus glaber: The role of soil moisture. Physiological Zoology, 1989, 62(2): 449-469.
Vibe-Petersen S, Leirs H, de Bruyn L. Effects of predation and dispersal on Mastomys natalensis population dynamics in Tanzanian maize fields. Journal of Animal Ecology, 2006, 75: 213-220.
Le Comber S C, Eabloom E W, Romanach S S. Burrow fractal dimension and foraging success in subterranean rodents: a simulation. Behavioral Ecology, 2005, 11: 188-194.
Wang J M, Zhang Y M, Wang D H. Seasonal thermogenesis and body mass regulation in plateau pikas (Ochotona curzoniae). Oecologia, 2006, 149: 373-382.
Roci’O Torres M, Borghi C E, Giannonii S M. et al. Portal orientation and architecture of burrows in tympanoctomys barrerae (Rodentia, Octodontidae). Journal of Mammalogy, 2003, 84(2): 541-546.
umbera R, Mazoch V, Patzenhauerová H, et al. Burrow architecture, family composition and habitat characteristics of the largest social African mole-rat: the giant mole-rat constructs really giant burrow systems. Acta Theriologica, 2012, 57(2): 121-130.
Thomas H G, Bateman P W, Scantlebury M, et al. Season but not sex influences burrow length and complexity in the non-sexually dimorphic solitary Cape mole-rat (Rodentia: Bathyergidae).Journal of Zoology, 2012, 288(3): 1-8.
Rosi M I, Cona M I, Videla F, et al. Architecture of Ctenomys mendocinus (Rodentia) burrows from two habitats differing in abundance and complexity of vegetation. Acta Theriologica, 2000, 45(4): 491-505.
Edelman A J. Kangaroo rats remodel burrows in response to seasonal changes in environmental conditions. Ethology, 2011, 117(5): 430-439.

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