ISSN 1003-8280 CN 10-1522/R 中国疾病预防控制中心 主办
Chinese Journal of Vector Biology and Control >
Field evaluation of three types of radio transmitters in ecological study on plateau zokor Myospalax baileyi
Received date: 2013-07-16
Online published: 2013-12-20
Supported by
Supported by the Special Fund for Agro-scientific Research in the Public Interest(No. 201203041), Fund for Graduate Supervisor of Gansu Provincial Colleges (No. 1102-02)
Objective Plateau zokor Myospalax baileyi is one of the dominant pests in the alpine meadow of Qinghai-Tibet Plateau. M. baileyi dwells underground, therefore it is difficult to conduct ecological studies on this species due to limited access to their habitats. Radio tracking is a new technique for the ecological study on small rodents, but is rarely utilized in the studies on M. baileyi populations. The performance of three types of radio transmitters are evaluated in the field and reported in this paper. Methods The radio transmitters manufactured by three companies, Biotrack (Great Britain), Sirtrack (New Zealand) and Telenax (Mexico), were tested for the transmitting depth, transmitting distance, and frequency range of the signals, as well as the adaptability of M. baileyi to the attachment of radio transmitters. Results The radio transmitter manufactured by Biotrack outperformed the other two counterparts. It was attached to M. baileyi for more than 3 months; the radio signals were able to be tracked at a horizontal distance of 50 m, with a signal intensity of 25.00; the transmitter signals were detectable at an underground depth of 2.5 m, with a signal attenuation of 76.74%. The other two types of radio transmitters had no detectable signals at this depth. Conclusion Selecting and properly attaching high-performance radio transmitter enables radio-tracking technique to be used for the ecological studies on M. baileyi, which can be adapted for the similar studies on other subterranean rodents.
ZHOU Jian-wei, HUA Li-min, ZUO Song-tao, JI Wei-hong . Field evaluation of three types of radio transmitters in ecological study on plateau zokor Myospalax baileyi[J]. Chinese Journal of Vector Biology and Control, 2013 , 24(6) : 486 -490 . DOI: 10.11853/j.issn.1003.4692.2013.06.003
[1] 江小蕾,张卫国. 试论草原鼠类之定位
[J]. 草业科学,1997,14(3):34-35.
[2] 钟文勤,樊乃昌. 我国草地鼠害的发生原因及其生态治理对策
[J]. 生物学通报,2002,37(7):1-4.
[3] ZhangY, ZhangZ, Liu J. Burrowingrodentsas ecosystem engineers: the ecology and management of plateau zokors(Myospalax fontanierii) in alpine meadow ecosystems on the Tibetan Plateau
[J].Mammal Review,2003,33(3/4):284-294.
[4] 王太春. 高寒草甸鼢鼠土丘的植被恢复与边缘效应动态的研究
[D]. 兰州:兰州大学生命科技学院,2007.
[5] 刘锦上. 高原鼢鼠的洞道空间对高寒草甸植被性状的影响
[D].兰州:兰州大学草地农业科技学院,2009.
[6] 张知彬.我国草原鼠害的严重性及防治对策
[J]. 中国科学院院刊,2003(5):343-347.
[7] 孙飞达,龙瑞军,郭正刚. 鼠类活动对高寒草甸植物群落及土壤环境的影响
[J]. 草业科学,2011,28(1):146-151.
[8] 郑卫青,柳小青,郭学俭,等. 南昌市鼠类种群结构和季节动态变化研究
[J]. 中国媒介生物学及控制杂志,2011,22(5):446-448.
[9] 王治宇,史献明,高文林,等. 长爪沙鼠鼠疫自然疫源地磷化铝灭鼠及其寄生蚤的试验研究
[J]. 中国媒介生物学及控制杂志,2012,23(6):583-584.
[10] 杜国义,杨建明,王海峰,等. 中国鼠疫自然疫源地宿主多样性研究进展
[J]. 中国媒介生物学及控制杂志,2012,23(3):273-274.
[11] 海荣. 中国鼠疫自然疫源地研究进展
[J]. 中国媒介生物学及控制杂志,2011,22(4):301-303.
[12] 于晓涛,魏柏青,赵小龙,等. 青海省果洛州久治县鼠疫自然疫源地调查
[J]. 中国媒介生物学及控制杂志,2013,24(1):78.
[13] Strathearn SM, Lotimer JS, Kolenosky GB,etal. Anexpanding break-away radio collar for black bear
[J]. Wildlife Management,1984,48(3):939-942.
[14] JacksonDH,JacksonLS,SeitzWK. Anexpandabledrop-off transmitter harness for young bobcats
[J]. Wildlife Mangement,1985,49(1):46-49.
[15] GirouxJF, BellDV,PercivalS, et al.Tail-mounted radio transmitters for waterfowl
[J]. Field Ornith,1990,61(3):303-309.
[16] 雍严格,王宽武,汪铁军. 佛平大熊猫的移动习性
[J]. 兽类学报,1994,14(1):9-14.
[17] Adams LG, Singer FJ, Dale BW.Caribou calfmortalityin Denali National Park,Alaska
[J]. Wildlife Management,1995,59(3):584-594.
[18] Singer FJ, Hartaing A, Symonds KK, et al.Coughenour.Density, dependence, compensation, and environmental effects on elk calf mortality in Yellowstone National Park
[J]. Wildlife Management, 1997,61(1):12-25.
[19] 马志军,丁长青,李欣海. 朱鹮冬季觅食地的选择
[J]. 动物学研究,2001,22(1):46-50.
[20] 张知彬. 林姬鼠移位后在农田生态景观中的扩散
[J]. 动物学报,1993,39(3):338-340.
[21] Harris S,Cresswell WJ,Forde PG,etal. Home-rangeanalysis using radio-tracking data-a review ofproblems and techniques particularly as applied to the study of mammals
[J]. Mammal Review,1990,20(2/3):97-123.
[22] Otis DL, White GC.Autocorrelation oflocationestimatesand the analysis of radiotracking data
[J]. Wildlife Management,1999,63(3):1039-1044.
[23] Atkinson IAE, Towns DR.Advances in New Zealand mammalogy 1990-2000:Pacific rat
[J]. J Royal Soc New Zealand,2001,31(1): 99-109.
[24] InnesJ. Advancesin New Zealand mammalogy1990-2000: European rats
[J]. J Royal Soc New Zealand,2001,31(1):111-125.
[25] DesrochersA,Hanski IK,Selonen V. Siberianflyingsquirrel responses to high and low contrast forest edges
[J]. Landscape Ecology,2003,18(5):543.
[26] Goheen JR, Swihart RK,GehringTM,etal. Forcesstructuring tree squirrel communities in landscapes fragmented by agriculture: species differences in perceptions of forest connectivity and carrying capacity
[J].Oikos,2003,102(1):95-103.
[27] RussellJC,Towns DR,Anderson SH,etal.Intercepting the first rat ashore
[J].Nature,2005,437:1107.
[28] Jörn Theuerkauf, Sophie Rouys, Clémence Chatreau. Mortalityof radio-trackedwildratsinrelationtotransmitter weight and resilience of transmitters in relation to their design
[J]. J Royal Soc New Zealand,2007,37(3):85-90.
[29] 周文扬,窦丰满. 高原鼢鼠活动与巢区的初步研究
[J]. 兽类学报,1990,10(1):31-39.
[30] Diego U, Eileen A, Wiezorek JR.Dailyactivitypatternsoffree-living cururos (Spalacopus cyanus)
[J].J Mammalogy,2005,96(2):302.
[31] Tassino B, Estevan I, Garbero RP, et al.Space use byRioNegro tuco-tucosss(Ctenomys rionegrensis):Excursions and spatial overlap
[J]. Mammalian Biol,2011,76(2):143-147.
[32] 张申. 隧道无线电射线传输规律的研究
[J]. 电波科学学报, 2002,17(2):114-124.
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