内蒙古大兴安岭南麓东北马鹿种群现状调查
作者:
作者单位:

1.① 北京林业大学生物科学与技术学院;2.② 赤峰市森林草原保护发展中心;3.③ 赤峰市野生动植物保护协会

基金项目:

赤峰市林业科技振兴计划项目(No. LK2019003)


The Status of Red Deer Population in the Southern Part of the Greater Khingan Mountains in Inner Mongolia
Author:
Affiliation:

1.① College of Biological Sciences and Technology,Beijing Forestry University;2.② Chifeng Wildlife and Wetland Protection and Management Center;3.③ Chifeng Wildlife Conservation Association

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    摘要:

    我国东北地区的马鹿(Cervus elaphus)在内蒙古大兴安岭南麓的生态系统中占有重要位置,栖息地环境恶化以及人类活动干扰等因素严重影响了马鹿种群的生存状态。本文于2019至2020年采用样线法和粪堆计数法对内蒙古大兴安岭南麓野生马鹿种群恢复现状开展调查,估算其种群密度及数量。结果显示,与10年前相比,黄岗梁、白音敖包、大冷山、赛罕乌拉、乌兰坝和高格斯台的马鹿种群密度均有显著增长(P < 0.05),研究区域现有马鹿总数量约为(9 644.2 ± 1 378.6)头,种群密度(2.5 ± 0.9)头/km2。本次调查从种群密度、数量及增长率等方面探讨了进一步促进马鹿种群恢复的措施,为改进大兴安岭南麓马鹿保护工作提供科学指导。

    Abstract:

    The Red Deer (Cervus elaphus) plays an important role in ecosystem function in northeast China, but their populations had seriously suffered from habitat degradation and human disturbance. In this study, we investigated the population recovery and habitat status of red deer by means of line transects and pellet group counting methods in southern part of the Greater Khingan Mountains, Inner Mongolia. The results showed that after 10 years’ development, the population density increased significantly in Huanggangliang, Baiyin’aobao, Dalengshan, Saihanwula, Wulanba and Gaogesitai areas (P < 0.05). The total number of red deer in the study region was about 9 644.2 ± 1 378.6 ind, and the population density was 2.5 ± 0.9 ind/km2. This study provided solid baseline data for red deer conservation in the southern part of the Greater Khingan Mountains, and we further discussed the measures to promote a steady recovery of the red deer population according to habitat restoration and population management.

    参考文献
    Alves J, Silva A, Soares A, et al. 2013. Pellet group count methods to estimate red deer densities: precision, potential accuracy and efficiency. Mammalian Biology, 78(2): 134–141. Arash G, Mahmood S, Amirhossein K H, et al. 2017. The decline of ungulate populations in Iranian protected areas calls for urgent action against poaching. Oryx, 53(1): 151–158 Bahram H K, Ramezan A G, Mehran J, et al. 2004. Population status, biology and ecology of the Maral, Cervus elaphusmaral, in Golestan National Park, Iran. Zoology in the Middle East, 33(1): 125–138. Coppes J, Ehrlacher J, Thiel D, et al. 2017. Outdoor recreation causes effective habitat reduction in capercaillie Tetrao urogallus: a major threat for geographically restricted populations. Journal of Avian Biology, 48(12): 1583–1594. Ebert C, Sandrini J, Welter B, et al. 2021. Estimating red deer (Cervus elaphus) population size based on non-invasive genetic sampling. European Journal of Wildlife Research, 67(2): 1–13. Haanes H, Knut H, Silvia P E, et al. 2011. Low genetic variation support bottlenecks in Scandinavian red deer. European Journal of Wildlife Research, 57(2): 1137–1150. Haanes H, Roed K H, Flagstad O, et al. 2010. Genetic structure in an expanding cervid population after population reduction. Conservation Genetics, 11(1): 11–20. Kangbéni D, Dethardt G, Amadé O, et al. 2017. Spatio-temporal dynamics in land use and habitat fragmentation within a protected area dedicated to tourism in a Sudanian Savanna of West Africa. Journal of Landscape Ecology, 10(1): 75–95. Lina B, Sandor C. 2010. Red deer population and harvest changes in Europe. Acta Zoologica Lituanica, 20(4): 1648–1919. Ludt C, Schroeder W, Rottmanm O, et al. 2004. Mitochondrial DNA phylogeography of red deer. Molecular Phylogenetics and Evolution, 31(3): 1064–1083. Mansson J, Nilsson L, Felton A M, et al. 2021. Habitat and crop selection by red deer in two different landscape types. Agriculture, Ecosystems and Environment, 318: 1–10. Milner J, Bonenfant C, Mysterud A, et al. 2006. Temporal and spatial development of red deer harvesting in Europe: Biological and Cultural factors. Journal of Applied Ecology, 43(4): 721–734. Nielsen E, Olesen C, Pertoldi C, et al. 2008. Genetic structure of Danish red deer Cervus elaphus. Biological Journal of the Linnean Society, 95(2): 688–701. Rayl N D, Merkle J A, Proffitt K M, et al. 2021. Elk migration influences the risk of disease spillover in the Greater Yellowstone Ecosystem. Journal of Animal Ecology, 90(5): 1264–1275. Sevvandi J, Angela M S, Robert W M, et al. 2011. Effects of human disturbance on the diet composition of wild red deer (Cervus elaphus). European Journal of Wildlife Research, 57(1): 939– 948. Vistnes I, Nellemann C, Jordhoy P, et al. 2001. Wild reindeer: impacts of progressive infrastructure development on distribution and range use. Polar Biology, 24(7): 531–537. Wells H B M, Kimuyu D M, Odadi W O, et al. 2021. Wild and domestic savanna herbivores increase smaller vertebrate diversity, but less than additively. Journal of Applied Ecology, 58(5): 953– 963. Zhang L, Eric I A J, Jiang Z G. 2018. Viability analysis of the wild sika deer (Cervus nippon) population in China: Threats of habitat loss and effectiveness of management interventions. Journal for Nature Conservation, 43: 117–125. 房瑞新, 田雪琪, 邹晨, 等. 2021. 马鹿的起源进化与遗传多样性研究进展. 中国畜牧兽医, 48(12): 4575–4587. 国家林业局. 2008. 中国重点陆生野生动物资源调查. 北京: 中国林业出版社, 291–292. 李刚,王玉梅. 2011. 甘肃东大山自然保护区岩羊、甘肃马鹿的分布及数量初步调查. 甘肃科技, 27(23): 166–168. 李鑫泽, 冯佳楠, 支晓亮, 等. 2021. 东北地区三种鹿科动物潜在栖息地预测与保护空缺分析. 野生动物学报, 42(2): 318–328. 李月辉. 2021. 大中型兽类种群数量估算的研究进展. 生物多样性, 29(12): 1700–1717. 刘群秀, 马建章, 谢绪昌, 等. 2007. 黑龙江完达山东部林区偷猎对野生马鹿种群的影响. 野生动物, 29(2): 7–10. 刘少英, 吴毅, 李晟. 2019. 中国兽类图鉴第2版. 福州: 海峡书局, 321–323. 马合木提?哈力克, 吾玛尔?阿布力孜, 艾尼瓦尔?吐米尔, 等. 2004. 新疆马鹿塔里木亚种的现状与保护. 兽类学报, 26(4): 329– 332. 彭宝明. 2007. 赛罕乌拉自然保护区珍稀鸟兽多样性监测初步研究. 北京: 北京林业大学硕士学位论文. 孙萍, 黄师梅, 苏云, 等. 2021. 内蒙古贺兰山马鹿的种群数量及种群结构. 野生动物学报, 42(2): 341–347. 滕扬, 张沼, 张书理, 等. 2022. 大兴安岭南段马鹿生境适宜性与生态廊道构建. 生态学报, 42(14): 1–11. 王静, 孙军平, 徐涛, 等. 2020. 甘肃兴隆山保护区野生马麝分布、数量特征及影响因素. 生态学报, 40(21): 7997–8004. 先木西努?莫合德,夏米西丁?阿不都热依木,塔吉古丽?吐热甫,等. 2016. 艾比湖湿地国家级自然保护区马鹿种群资源调查. 野生动物学报, 37(4): 287–292. 许庆翔, 张明海, 路秉信. 2000. 黑龙江省野生马鹿种群资源现状研究. 经济动物学报, 22(1): 57–62. 张立博. 2016. 内蒙古高格斯台地区东北马鹿冬季生境空间结构分析与评价. 哈尔滨: 东北林业大学硕士学位论文. 张明春, 李志刚, 胡天华, 等. 2012. 宁夏贺兰山国家级自然保护区马鹿分布及集群特征的初步研究. 兽类学报, 32(4): 318–324. 张书理, 王志玲, 张鹏, 等. 2009. 内蒙古赤峰市野生马鹿种群资源现状研究. 四川动物, 28(5): 772–784. 张显理, 李志刚, 李正, 等. 2006. 宁夏贺兰山马鹿春季种群数量与种群动态研究. 宁夏大学学报: 自然科学版, 27(3): 263– 265. 张沼. 2021. 赤峰市马鹿(Cervus canadensis)种群恢复和栖息地保护研究. 北京: 北京林业大学硕士学位论文. 周璨林, 日沙来提?吐尔地, 艾斯卡尔?买买提, 等. 2013. 三种方法对天山马鹿喀拉乌成山种群数量的比较. 四川动物, 32(4): 487–491.
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于思玉,张沼,贺伟,杨永昕,张正一,王娜,王晓丹,李英爽,鲍伟东.2022.内蒙古大兴安岭南麓东北马鹿种群现状调查.动物学杂志,57(5):759-765.

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  • 收稿日期:2022-01-20
  • 最后修改日期:2022-09-01
  • 录用日期:2022-08-26
  • 在线发布日期: 2022-10-22
  • 出版日期: 2022-10-20