生态与环境

气候变化下新疆乌伦古河上游蒙新河狸的潜在分布变化

  • 苏灿霞 ,
  • 初雯雯 ,
  • 撇力扎提·巴哈提别克 ,
  • 江晓珩 ,
  • 陈艳秋 ,
  • 黄文溥 ,
  • 马驰 ,
  • 初红军
展开
  • 1.新疆大学生命科学与技术学院,新疆 乌鲁木齐 830017
    2.新疆林科院森林生态研究所,新疆 乌鲁木齐 830002
    3.新疆博斯腾湖湿地生态系统国家定位观测研究站,新疆 乌鲁木齐 830002
    4.北京林业大学生态与自然保护学院,北京 100083
    5.新疆阿勒泰地区自然保护协会,新疆 阿勒泰 836500
    6.新疆大学生态与环境学院,新疆 乌鲁木齐 830017
苏灿霞(1998-),女,硕士研究生,主要从事动物生态学和濒危物种保护生物学研究. E-mail: 1770794804@qq.com
初红军. E-mail: hongjunchu@vip.163.com

收稿日期: 2023-06-30

  修回日期: 2023-08-24

  网络出版日期: 2024-04-01

基金资助

国家林业和草原局科学技术司林草科技创新发展研究项目(2022132017);科技部第三次新疆综合科学考察专项(2021xjkk1200);富蕴县2021年中央财政林业草原-极小种群野生动植物资源拯救项目;阿勒泰地区自然保护区协会蒙新河狸云守护者项目

Potential distribution changes of Castor fiber birulai under climate changes in the upper reaches of the Ulungur River,Xinjiang

  • SU Canxia ,
  • CHU Wenwen ,
  • Bahatibieke PIELIZHATI ,
  • JIANG Xiaoheng ,
  • CHEN Yanqiu ,
  • HUANG Wenpu ,
  • MA Chi ,
  • CHU Hongjun
Expand
  • 1. College of Life Science and Technology, Xinjiang University, Urumqi 830017, Xinjiang, China
    2. Institute of Forest Ecology, Xinjiang Academy of Forestry, Urumqi 830002, Xinjiang, China
    3. Xinjiang Bosten Lake Wetland Ecosystem National Positioning Observation and Research Station,Urumqi 830002, Xinjiang, China
    4. College of Ecology and Nature Conservation, Beijing Forestry University, Beijing 100083, China
    5. Nature Conservation Association of Altay Region, Altay 836500, Xinjiang, China
    6. College of Ecology and Environment, Xinjiang University, Urumqi 830017, Xinjiang, China

Received date: 2023-06-30

  Revised date: 2023-08-24

  Online published: 2024-04-01

摘要

蒙新河狸(Castor fiber birulai)在我国仅分布于新疆阿勒泰地区的乌伦古河流域,研究蒙新河狸潜在适生区的分布对该物种的保护具有重要意义。使用2021—2022年野外实地调查收集的97个蒙新河狸家族分布位点,结合28个环境因子,利用MaxEnt模型预测不同气候情景下新疆乌伦古河上游蒙新河狸适宜生境区的分布。结果表明:影响蒙新河狸适宜生境分布的主要环境因子是距道路距离(0.1~1 km)、距水渠距离(小于3 km)、土地覆盖类型(河流、湿地与林地)、海拔(1000 m左右)、最湿月雨量(22~25 mm)与温度季节性变动系数(1500以上)的影响。当前蒙新河狸适宜生境沿乌伦古河上游河流紧密分布、区域狭窄。在2050s(ssp585气候情景)与2070s(ssp126气候情景)期间高适生区分别与当前持平或增加,未来两种气候情景较当前蒙新河狸适宜生境面积均有所降低,适宜生境降低的区域基本相似。本研究结果为气候变化影响下的蒙新河狸的保护与管理提供参考依据。

本文引用格式

苏灿霞 , 初雯雯 , 撇力扎提·巴哈提别克 , 江晓珩 , 陈艳秋 , 黄文溥 , 马驰 , 初红军 . 气候变化下新疆乌伦古河上游蒙新河狸的潜在分布变化[J]. 干旱区研究, 2024 , 41(3) : 509 -520 . DOI: 10.13866/j.azr.2024.03.15

Abstract

Castor fiber birulai is primarily distributed in the Ulungu river basin in China. Therefore, investigating the potential distribution of suitable regions is crucial for the conservation of C. f. birulai. A total of 97 distribution sites of C. f. birulai and 28 environmental factors collected from 2021 to 2022 were used to predict the distribution of suitable habitat regions for this species under different climatic scenarios using the MaxEnt model. Results showed that the distribution of suitable habitats was mainly affected by the distance from major roads (0.1-1 km), distance from water channel (within 100 m), landcover type (river, wetland, and forest), altitude (approximately 1000 m), mean temperature of wettest quarter(22-25 mm), and the standard deviation factor of seasonal temperature change (above 1500). In the 2050s (2041-2060, ssp585 climate scenario) and 2070s (2061-2080, ssp126 climate scenario), the high suitability area was the same or slightly increased compared with the current situation, and the area of suitable habitat, which decreased in the two future climate scenarios, was the same. The results of this study can provide a reference point for the protection and management of C. f. birulai under climate changes.

参考文献

[1] Mclaughlin J F, Hellmann J J, Boggs C L, et al. Climate change hastens population extinctions[J]. Proceedings of the National Academy of Sciences of the United States of America, 2002, 99(9): 6070-6074.
[2] Chen I-C, Hill J K, Ohlemüller R, et al. Rapid range shifts of species associated with high levels of climate warming[J]. Science, 2011, 333(6045): 1024-1026.
[3] Tong S, Li X, Zhang J, et al. Spatial and temporal variability in extreme temperature and precipitation events in Inner Mongolia (China) during 1960-2017[J]. Science of the Total Environment, 2019, 649: 75-89.
[4] 卢浩泉. 河狸(Castor fiber L. )在中国的分布与生态特点[J]. 山东大学学报(自然科学版), 1981(4): 103-109.
  [Lu Haoquan. The distribution and ecological characteristics of the beaver (Castor fiber L.) in China[J]. Journal of Shandong University(Natural Science), 1981(4): 103-109.]
[5] 刘冬志, 黄效文, 初红军, 等. 基于红外相机陷阱技术的蒙新河狸(Caster fiber birulai)活动节律[J]. 干旱区研究, 2015, 32(1): 205-211.
  [Liu Dongzhi, Huang Xiaowen, Chu Hongjun, et al. Activity rhythms of Sino-Mongolia Beaver (Caster fiberr birulai) measured with infrared camera traps in Xinjiang, China[J]. Arid Zone Research, 2015, 32(1): 205-211.
[6] 国家林草局. “十四五”林业草原保护发展规划纲要[EB/OL]. (2021-08-19)[2023-09-22]. https://www.gov.cn/xinwen/2021-08/19/content_5632156.html.
  [National Forestry and Grassland Administration. Outline of the Plan for the Protection and Development of Forestry and Grassland of the Fourteenth Five-Year Plan[EB/OL]. (2021-08-19)[2023-09-22]. https://www.gov.cn/xinwen/2021-08/19/content_5632156.html.]
[7] Chu H J, Jiang Z G. Distribution and conservation of the Sino-Mongolian beaver Castor fiber birulai in China[J]. Oryx, 2009, 43(2): 192-202.
[8] 兰文旭. 蒙新河狸研究现状[J]. 新疆林业, 2018, 44(4): 42-44.
  [Lan Wenxu. Research status of Castor fiber birulai[J]. Forestry of Xinjiang, 2018, 44(4): 42-44.]
[9] Brazier R F, Alan P, Hugh G A, et al. Beaver: Nature’s ecosystem engineers[J]. Wiley Interdisciplinary Reviews: Water, 2020, 8(1): e1494.
[10] Bashinskiy I V. Beavers in lakes: A review of their ecosystem impact[J]. Aquatic Ecology, 2020, 54(4): 1097-1120.
[11] 陈道富, 全仁哲, 范喜顺, 等. 欧亚河狸的生物学特性及其保护与开发[J]. 石河子大学学报(自然科学版), 2003, 7(1): 84-86.
  [Chen Daofu, Quan Renzhe, Fan Xishun, et al. Approach to the bionomics and value of protection and exploitation of Castor fiber[J]. Journal of Shihezi University (Natural Science), 2003, 7(1): 84-86.]
[12] Naiman R J, Johnston C A, Kelley J C. Alteration of north American streams by beaver[J]. BioScience, 1988, 38(11): 753-762.
[13] Halley D J, Saveljev A P, Rosell F. Population and distribution of beavers Castor fiber and Castor canadensis in Eurasia[J]. Mammal Review, 2021, 51(1): 1-24.
[14] Soberon J, Peterson A T. Interpretation of models of fundamental ecological niches and species’ distributional areas[J]. Biodiversity Informatics, 2005, 2: 1-10.
[15] 王佩, 李英杰, 袁家根, 等. 基于优化MaxEnt模型的原麝生境适宜性评价[J]. 野生动物学报, 2023, 44(1): 38-45.
  [Wang Pei, Li Yingjie, Yuan Jiagen, et al. Habitat suitability assessment for Moschus moschiferus based on optimized MaxEnt Model[J]. Chinese Journal of Wildlife, 2023, 44(1): 38-45.]
[16] 李芳菲, 李丽, 吴巩胜, 等. 基于MAXENT模型的青海祁连山雪豹生境适宜性评价[J]. 生态学报, 2023, 43(6): 1-8.
  [Li Fangfei, Li Li, Wu Gongsheng, et al. Habitat suitability assessment of Panthera uncia in Qilian Mountains of Qinghai based on MAXENT modeling[J]. Acta Ecologica Sinica, 2023, 43(6): 1-8.]
[17] 钱天陆, 秦淑洁, 吴朝宁, 等. 基于MaxEnt模型的人类干扰对滇金丝猴潜在分布的影响[J]. 兽类学报, 2022, 42(4): 349-361.
  [Qian Tianlu, Qin Shujie, Wu Zhaoning, et al. Impacts of human interference on the potential distribution of Yunnan snub-nosed monkeys by MaxEnt model[J]. Acta Theriologica Sinica, 2022, 42(4): 349-361.]
[18] Anna T, Andrea T, Christof A, et al. Predicting habitat suitability for Castor fiber reintroduction: MaxEnt vs SWOT-Spatial multicriteria approach[J]. Ecological Informatics, 2022, 72: 101895.
[19] Alakoski R, Kauhala K, Tuominen S, et al. Environmental factors affecting the distributions of the native Eurasian beaver and the invasive North American beaver in Finland[J]. Biological Conservation, 2020, 248: 108680.
[20] Scherbinski J J, Bean W T. Point arena mountain beaver (Aplodontia rufa nigra) selects cool climates at fine spatial scales[J]. Northwestern Naturalist, 2019, 100(3): 165-175.
[21] 杜聪聪, 赵晶, 初红军, 等. 新疆河狸mtDNA D-loop HV-Ⅰ区的遗传多样性研究[J]. 山东大学学报(理学版), 2016, 51(3): 19-28.
  [Du Congcong, Zhao Jing, Chu Hongjun, et al. Research on genetic diversities of Asiatic beaver (Castor fiber birulai) on mtDNA D-loop HV-I in Xinjiang, China[J]. Journal of Shandong University(Natural Science), 2016, 51(3): 19-28.]
[22] 努尔兰·哈再孜. 乌伦古河流域水文特征[J]. 干旱区研究, 2014, 31(5): 798-802.
  [Nuerlan Hazaizi. Hydrological characteristics in the Ulungur River Basin[J]. Arid Zone Research, 2014, 31(5): 798-802.]
[23] 刘冬志, 蒋志刚, 初红军, 等. 蒙新河狸夏季夜间活动节律和时间分配[J]. 兽类学报, 2013, 33(4): 319-325.
  [Liu Dongzhi, Jiang Zhigang, Chu Hongjun, et al. Summer nocturnal activity rhythms and time budgets of the Sino-Mongo-lia beaver (Castor fiber birulai) in Xinjiang, China[J]. Acta Theriologica Sinica, 2013, 33(4): 319-325.]
[24] 姜敏, 马欢欢. 近30年阿勒泰地区气候特征分析[J]. 农家参谋, 2020(19): 160.
  [Jiang Min, Ma Huanhuan. Analysis of climatic characteristics in Altay Prefecture in recent 30 years[J]. The Farmers Consultant, 2020(19): 160.]
[25] 卢山, 黄艳, 兰文旭, 等. 蒙新河狸采食对策初步研究[J]. 防护林科技, 2011, 24(6): 28-30.
  [Lu Shan, Huang Yan, Lan Wenxu, et al. Feeding strategies of Castor fiber brirulai[J]. Protection Forest Science and Technology, 2011, 24(6): 28-30.]
[26] 甄荣, 初雯雯, 胡亮, 等. 春秋季蒙新河狸(Castor fiber birulai)制作气味堆的生境选择[J]. 生态学杂志, 2017, 36(5): 1330-1338.
  [Zhen Rong, Chu Wenwen, Hu Liang, et al. Habitat selection of scent mounts made by Castor fiber birulai in spring and autumn[J]. Chinese Journal of Ecology, 2017, 36(5): 1330-1338.]
[27] 杜聪聪, 初雯雯, 甄荣, 等. 新疆乌伦古河流域蒙新河狸巢穴特征和巢址生境选择[J]. 生态学报, 2017, 37(15): 5167-5178.
  [Du Congcong, Chu Wenwen, Zhen Rong, et al. Castor fiber birulai lodge site selection and characteristics in the Ulungur watershed of Xinjiang, China[J]. Acta Ecologica Sinica, 2017, 37(15): 5167-5178.]
[28] 吕环鑫, 夏少霞, 顾婧婧, 等. 基于MaxEnt模型的仙居县大型兽类和珍稀鸟类栖息地适宜性评价[J]. 生态学杂志, 2023, 42(11): 2797-2805.
  [Lv Huanxin, Xia Shaoxia, Gu Jingjing, et al. Habitat suitability assessment of large mammals and rare birds in Xianju County based on MaxEnt modelling[J]. Chinese Journal of Ecology, 2023, 42(11): 2797-2805.]
[29] 刘兴明, 常亚鹏, 赵传燕, 等. 气候变化下白水江国家级自然保护区大熊猫潜在分布模拟[J]. 青海师范大学学报(自然科学版), 2021, 37(3): 51-59.
  [Liu Xingming, Chang Yapeng, Zhao Chuanyan, et al. Simulation of potential distribution of giant panda in Baishuijiang National Nature Reserve under climate change[J]. Journal of Qinghai Normal University (Natural Science), 2021, 37(3): 51-59.]
[30] 孙雪. 气候变化下邛崃山大熊猫栖息地及种群连通性评估[D]. 哈尔滨: 东北林业大学, 2021.
  [Sun Xue. Assessment on Habitat Suitability and Population Connectivity in Qionglai Mountain under Climate Change Context[D]. Harbin: Northeast Forestry University, 2021.]
[31] 唐杨欣, 皮杰, 刘新华, 等. 基于最大熵模型预测气候变化下河蚬在中国的潜在分布[J]. 生态学报, 2023, 43(10): 4250-4259.
  [Tang Yangxin, Pi Jie, Liu Xinhua, et al. Predicting potential distribution of Corbicula fluminea under climate change scenarios using MaxEnt model[J]. Acta Ecologica Sinica, 2023, 43(10): 4250-4259.]
[32] 李柏. 新疆阿勒泰古新世植物群的古气候指示[C]// 中国古生物学会. 中国古生物学会第十三、十四届学术年会论文选集. 合肥: 安徽科学技术出版社, 1984: 256-266.
  [Li Bai. Paleoclimate indication of Paleocene phytocoenosis in Altay prefecture in Xinjiang[C]// Paper anthologies of the 13th and 14th Annual Conferences of the Paleontological Society of China. Hefei: Anhui Science & Technology Press, 1984: 256-266.]
[33] 李龙, 王亮, 温阿敏, 等. 基于MaxEnt模型的甘肃安西极旱荒漠国家级自然保护区北山羊生境评估[J]. 生态学报, 2021, 41(24): 9932-9940.
  [Li Long, Wang Liang, Wen Amin, et al. Assessment of habitat suitability of Asiatic ibex (Capra sibirica) in the Gansu Anxi Extreme-Arid Desert National Nature Reserve based on MaxEnt model[J]. Acta Ecologica Sinica, 2021, 41(24): 9932-9940.]
[34] 迟翔文, 江峰, 高红梅, 等. 三江源国家公园雪豹和岩羊生境适宜性分析[J]. 兽类学报, 2019, 39(4): 397-409.
  [Chi Xiangwen, Jiang Feng, Gao Hongmei, et al. Habitat suitability analysis of snow leopard (Panthera uncia) and bharal (Pseudois nayaur) in the Sanjiangyuan National Park[J]. Acta Theriologica Sinica, 2019, 39(4): 397-409.]
[35] 朱耿平, 乔慧捷. Maxent模型复杂度对物种潜在分布区预测的影响[J]. 生物多样性, 2016, 24(10): 1189-1196.
  [Zhu Gengping, Qiao Huijie. Effect of the Maxent model’s complexity on the prediction of species potential distributions[J]. Biodiversity Science, 2016, 24(10): 1189-1196.]
[36] 蒙秉顺, 黄小龙, 谢波, 等. 贵州梵净山国家级自然保护区有蹄类动物适宜栖息地分布[J]. 兽类学报, 2023, 43(6): 664-675.
  [Meng Bingshun, Huang Xiaolong, Xie Bo, et al. Distribution of suitable habitat for ungulates in Fanjingshan National Nature Reserve Reserve, Guizhou Province[J]. Acta Theriologica Sinica, 2023, 43(6): 664-675.]
[37] 申立泉, 吴佳忆, 周鑫, 等. 基于MaxEnt模型的北京周边山区野生狍(Capreolus pygargus)的生境适宜性评价[J]. 生态学杂志, 2023, 42(10): 2555-2560.
  [Shen Liquan, Wu Jiayi, Zhou Xin, et al. Assessment of habitat suitability for wild roe deer (Capreolus pygargus) in mountainous areas around Beijing with MaxEnt model[J]. Chinese Journal of Ecology, 2023, 42(10): 2555-2560.]
[38] 夏卓异, 苏杰, 尹海伟, 等. 气候变化背景下中国朱鹮适宜生境时空格局[J]. 应用生态学报, 2023, 34(6): 1467-1473.
  [Xia Zhuoyi, Su Jie, Yin Haiwei, et al. Temporal and spatial patterns of habitat of Nipponia nippon in China under the background of climate change[J]. Chinese Journal of Applied Ecology, 2023, 34(6): 1467-1473.]
[39] 张文学. 乌伦古河水系的河狸资源及其开发利用[J]. 新疆林业, 2002(6): 39-40.
  [Zhang Wenxue. Beaver resources and their exploitation and utilization in the Ulungur River Basin[J]. Forestry of Xinjiang, 2002(6): 39-40.]
[40] 葛炎, 侯金雷. 河狸秋季采食贮存和冬季食性的初步观察[J]. 干旱区研究, 2001, 18(1): 80.
  [Ge Yan, Hou Jinlei. Preliminary observation on food collection and storage in autumn and feeding habits in winter of beavers[J]. Arid Zone Research, 2001, 18(1): 80.]
[41] 袁国映. 河狸及生境[J]. 野生动物, 1982, 4(4): 34-35.
  [Yuan Guoying. Beavers and their habitats[J]. Chinese Journal of Wildlife, 1982, 4(4): 34-35.]
[42] 于长青, 邵闻, 葛炎, 等. 新疆河狸的栖居条件、家域及洞巢分布格局[J]. 林业科学研究, 1992, 5(5): 565-569.
  [Yu Changqing, Shao Wen, Ge Yan, et al. Habitat conditions, home range and nesting pattern of Xinjiang beavers[J]. Forest Research, 1992, 5(5): 565-569.]
[43] 杨霞. 基于SWAT模型的乌伦古河集水区水资源变化研究[D]. 乌鲁木齐: 新疆农业大学, 2014.
  [Yang Xia. Research of Water Resources Changes in Wulungur River Catchment Area Based on SWAT Model[D]. Urumqi: Xinjiang Agricultural University, 2014.]
[44] 孟古别克·俄布拉依汗, 贾尔恒·阿哈提, 程艳, 等. 乌伦古河断流的生态影响及成因分析[J]. 新疆环境保护, 2016, 38(2): 5-11.
  [Mengubieke Ebulayihan, Jiaerheng Ahati, Cheng Yan, et al. Influence of the Ulungur River blanking on the ecology and cause analysis[J]. Environmental Protection of Xinjiang, 2016, 38(2): 5-11.]
[45] 尹福国. 乌伦古河流域防洪目标及对策[J]. 中国水运, 2013, 13(8): 172-173.
  [Yin Fuguo. The objectives and countermeasures of flood control in the Ulungu River basin[J]. China Water Transport, 2013, 13(8): 172-173.]
[46] 李雪健, 贾佩尧, 牛诚祎, 等. 新疆阿勒泰地区额尔齐斯河和乌伦古河流域鱼类多样性演变和流域健康评价[J]. 生物多样性, 2020, 28(4): 422-434.
  [Li Xuejian, Jia Peiyao, Niu Chengyi, et al. Species diversity of freshwater fish and assessment on watershed health in the Irtysh River and Ulungur River basins in Xinjiang, China[J] Biodiversity Science, 2020, 28(4): 422-434.]
[47] 汪沐阳, 张楚婕, 宓春荣, 等. 气候变化对中国马可波罗盘羊适宜生境的潜在影响[J]. 应用生态学报, 2021, 32(9): 3127-3135.
  [Wang Muyang, Zhang Chujie, Mi Chunrong, et al. Potential impacts of climate change on suitable habitats of Marco Polo sheep in China[J]. Chinese Journal of Applied Ecology, 2021, 32(9): 3127-3135.]
[48] Jarema S I, Samson J, Mcgill B J, et al. Variation in abundance across a species’ range predicts climate change responses in the range interior will exceed those at the edge: A case study with North American beaver[J]. Global Change Biology, 2009, 15(2): 508-522.
[49] Persico L, Meyer G. Natural and historical variability in fluvial processes, beaver activity, and climate in the Greater Yellowstone Ecosystem[J]. Earth Surface Processes and Landforms, 2013, 38(7): 728-750.
[50] 郭正刚, 梁天刚, 刘兴元, 等. 新疆阿勒泰地区草地类型及植物多样性的研究[J]. 西北植物学报, 2003, 23(10): 1719-1724.
  [Guo Zhenggang, Liang Tiangang, Liu Xingyuan, et al. Species diversity of grassland communities in the Aletai region of the northern Xinjiang Province[J]. Acta Botanica Boreali-Occidentalia Sinica, 2003, 23(10): 1719-1724.]
[51] 古丽扎提·哈布肯, 赵景波. 近50年来新疆阿勒泰地区的气候变化[J]. 干旱区研究, 2011, 28(2): 268-274.
  [Gulizhati Habuken, Zhao Jingbo. Analysis on climate change in recent 50 years in Altay Prefecture, Xinjiang[J]. Arid Zone Research, 2011, 28(2): 268-274.]
文章导航

/