生物多样性 ›› 2017, Vol. 25 ›› Issue (3): 246-254.doi: 10.17520/biods.2016137

• • 上一篇    下一篇

中国关键地区两栖爬行动物多样性监测与研究

李成1, 谢锋1, 车静2, 江建平1, *()   

  1. 1 .中国科学院成都生物研究所, 成都 610041
    2 .中国科学院昆明动物研究所, 昆明 650223
  • 收稿日期:2016-05-16 接受日期:2016-09-02 出版日期:2017-03-20
  • 通讯作者: 江建平 E-mail:jiangjp@cib.ac.cn
  • 基金项目:
    中国生物多样性监测与研究网络项目(Sino BON)和国家自然科学基金(31471964)

Monitoring and research of amphibians and reptiles diversity in key areas of China

Cheng Li1, Feng Xie1, Jing Che2, Jianping Jiang1, *()   

  1. 1 Chengdu Institute of Biology, Chinese Academy of Sciences, Chengdu 610041
    2 Kunming Institute of Zoology, Chinese Academy of Sciences, Kunming 650223
  • Received:2016-05-16 Accepted:2016-09-02 Online:2017-03-20
  • Contact: Jiang Jianping E-mail:jiangjp@cib.ac.cn

两栖爬行动物是良好的环境指示物种, 是环境变化的早期预警系统之一, 目前正经历着全球范围的种群快速下降和物种灭绝。为了观测和研究物种及种群下降或灭绝的态势和机制, 亟需对我国两栖爬行动物多样性开展长期监测和研究。在中国, 对两栖爬行动物的监测研究始于1997年对若尔盖湿地两栖动物的监测。此后, 两栖爬行动物监测率先在西南山地、台湾等生物多样性丰富地区开展起来。2011年, 在借鉴美国和英国的两栖爬行动物监测计划的基础上, 环境保护部启动了“两栖类示范观测项目”, 初步实现了由点到面、由定性到定量、由静态向动态的突破。因为单一类群的监测仅代表生态系统的基本组成, 而从生态系统角度考量, 必须深入研究生态系统的结构(食物网中各类群的捕食、竞争、共生等种间关系)和动态(各类群的生长、繁殖、种群波动和致危因素等)。因此, 作为中国生物多样性监测与研究网络(Sino BON)的重要组成部分, “中国关键地区两栖爬行动物监测与研究专项网”项目将在22个生物多样性关键地区对典型生态系统中的两栖爬行动物组成、种群动态和结构进行长期监测与研究, 构建生态模型, 探讨两栖爬行动物的种群现状、群落结构及其动态趋势和相关机制, 制定和不断完善我国两栖爬行动物应对未来环境变化的保护和管理对策。

关键词: 监测网络, 两栖动物, 爬行动物, 监测指标, 监测方法, 中国

Amphibians and reptiles are important indicator species of ecosystem health, and they are sensitive to environmental changes and are often regarded as critical “early warning systems”. Many of their populations are undergoing rapid decline and therefore a long-term monitoring system is imperative to identify immediate threats to the animals. Monitoring program on Chinese amphibians began in the Zoige wetlands in 1997. Since 2000, a great number of monitoring studies of amphibians and reptiles have been carried out in mountains of Southwest China, Taiwan, and other regions with rich biodiversity. In 2011, the Ministry of Environmental Protection officially launched the “Amphibian Observation Initiative of China” program, which expanded regional programs to country-wide using both qualitative and quantitative methods to collect amphibian biodiversity data across long-term temporal scales. From an ecosystem viewpoint, long-term monitoring studies should include not only species distribution, richness, and population structure, but also population growth, key life-history traits, species interactions (e.g., predation, competition, and mutualism), community structure, and other dynamic factors. The program “Monitoring and Research of Amphibians and Reptiles in Key Areas of China” will cover 22 key areas with rich biodiversity and high habitat heterogeneity across China. As part of the Chinese Biodiversity Monitoring and Research Network (Sino BON), this program aims to combine intensive field surveys and ecological modeling techniques to evaluate population dynamics and community structures of amphibian and reptile species in the study areas.

Key words: monitoring networks, amphibians, reptiles, monitoring variables, monitoring methods, China

表1

中国两栖动物和爬行动物监测与研究的关键样区"

省份 Province 所在县/市 County/City 关键样区 Key area 经度 Longitude 纬度 Latitude
1 黑龙江 Heilongjiang 呼玛县 Huma County 呼中 Huzhong 123.25° E 51.78° N
2 新疆 Xinjiang 阜康市 Fukang City 天山 Tianshan Mountains 88.16° E 43.85° N
3 内蒙古 Inner Mongolia 锡林浩特市 Xilinhaote City 锡林郭勒 Xilingol 116.43° E 44.18° N
4 吉林 Jilin 抚松县 Fusong County 长白山 Changbai Mountains 128.08° E 42.38° N
5 北京 Beijing 北京市 Beijing City 东灵山 Dongling Mountain 115.43° E 39.96° N
6 新疆 Xinjiang 若羌县 Ruoqiang County 阿尔金山 Altun Mountains 88.69° E 36.42° N
7 宁夏 Ningxia 中卫市 Zhongwei City 沙坡头 Shapotou 104.97° E 37.50° N
8 山东 Shandong 东营市 Dongying City 黄河三角洲 Yellow River delta 119.05° E 37.82° N
9 陕西 Shaanxi 佛坪县 Foping County 佛坪 Foping 107.68° E 33.55° N
10 河南 Henan 内乡县 Neixiang County 宝天曼 Baotianman 111.94° E 33.49° N
11 四川 Sichuan 九寨沟县 Jiuzhaigou County 九寨沟 Jiuzhaigou 103.89° E 33.12° N
12 四川 Sichuan 都江堰市 Dujiangyan City 龙溪-虹口 Longxi-Hongkou 103.57° E 31.13° N
13 湖南 Hunan 桑植县 Sangzhi County 八大公山 Badagong Mountains 110.09° E 29.77° N
14 西藏 Xizang 拉萨市 Lasa City 雅鲁藏布江中游 Middle reach valley of the Yarlung Zangbo River 89.66° E 29.20° N
15 湖南 Hunan 岳阳市 Yueyang City 洞庭湖 Dongting Lake 112.80° E 29.50° N
16 浙江 Zhejiang 开化县 Kaihua County 古田山 Gutian Mountain 118.12° E 29.25° N
17 四川 Sichuan 石棉县 Shimian County 栗子坪 Liziping 102.35° E 28.89° N
18 云南 Yunnan 丽江市 Lijiang City 玉龙雪山 Yulong Snow Mountain 100.22° E 27.14° N
19 广东 Guangdong 肇庆市 Zhaoqing City 鼎湖山 Dinghu Mountain 112.32° E 23.10° N
20 广西 Guangxi 龙州县 Longzhou County 弄岗 Nonggang 106.95° E 22.43° N
21 云南 Yunnan 勐腊县 Mengla County 西双版纳 Xishuangbanna 101.57° E 21.61° N
22 海南 Hainan 乐东县 Ledong County 尖峰岭 Jianfengling 108.80° E 18.60° N
1 Boughton RG, Staiger J, Franz R (2000) Use of PVC pipe refugia as a sampling technique for hylid treefrogs. The American Midland Naturalist, 144, 168-177.
2 Buckley J, Beebee T (2004) Monitoring the conservation status of an endangered amphibian: the Natterjack toad Bufo calamita in Britain. Animal Conservation, 7, 221-228.
3 Cai B, Li JT, Chen YY, Wang YZ (2016) Exploring the status and causes of China’s threatened reptiles through the red list assessment. Biodiversity Science, 24, 578-587.
(in Chinese with English abstract) [蔡波, 李家堂, 陈跃英, 王跃招 (2016) 通过红色名录评估探讨中国爬行动物受威胁现状及原因. 生物多样性 24, 578-587.]
4 Che J, Chen HM, Yang JX, Jin JQ, Jiang K, Yuan ZY, Murphy RW, Zhang YP (2012) Universal COI primers for DNA barcoding amphibians. Molecular Ecology Resources, 12, 247-258.
5 Chou WH, Lee MC, Yu HT (2002) Community structure of ground-dwelling vertebrates sampled with drift-fence pitfall traps in a subtropical montane forest in Central Taiwan. Endemic Species Research, 4(1), 1-11.(in Chinese with English abstract)
[周文豪, 李敏嘉, 于宏灿 (2002) 台湾中部亚热带山地森林地栖脊椎动物的群落结构——兼论拦截篱掉落桶研究法的应用. 特有生物研究 4(1), 1-11.]
6 Corn PS, Muths E, Adams MJ, Dodd CK Jr (2005) The United States Geological Survey’s Amphibian Research and Monitoring Initiative. Alytes, 22(3-4), 65-71.
7 Dai Q, Dai JH, Li C, Liu ZJ, Wang YZ (2006) Discussion on relative fatness. Chinese Journal of Applied & Environmental Biology, 12, 715-718.(in Chinese with English abstract)
[戴强, 戴建洪, 李成, 刘志君, 王跃招 (2006) 关于肥满度指数的讨论. 应用与环境生物学报 12, 715-718.]
8 Fei L, Hu SQ, Ye CY, Huang YZ (2006) Fauna Sinica, Amphibia, Vol. 1, General Accounts of Amphibia, Gymnophiona and Urodela. Science Press, Beijing.(in Chinese)
[费梁, 胡淑琴, 叶昌媛, 黄永昭 (2006) 中国动物志·两栖纲·第一卷, 总论、蚓螈目、有尾目. 科学出版社, 北京.]
9 Fei L, Hu SQ, Ye CY, Huang YZ (2009a) Fauna Sinica, Amphibia, Vol. 2, Anura. Science Press, Beijing.(in Chinese)
[费梁, 胡淑琴, 叶昌媛, 黄永昭 (2009a) 中国动物志·两栖纲·第二卷, 无尾目. 科学出版社, 北京.]
10 Fei L, Hu SQ, Ye CY, Huang YZ (2009b) Fauna Sinica, Amphibia, Vol. 3, Anura, Ranidae. Science Press, Beijing.(in Chinese)
[费梁, 胡淑琴, 叶昌媛, 黄永昭 (2009b) 中国动物志·两栖纲·第三卷, 无尾目, 蛙科. 科学出版社, 北京.]
11 Fei L, Ye CY, Jiang JP (2012) Colored Atlas of Chinese Amphibians and Their Distributions. Sichuan Publishing House of Science and Technology, Chengdu.(in Chinese)
[费梁, 叶昌媛, 江建平 (2012) 中国两栖动物及其分布彩色图鉴. 四川科学技术出版社, 成都.]
12 Fellers GM, Wang YZ, Liu SY (2003) Status of amphibians at the Zoige wetlands, Sichuan Province, China. Froglog, 58, 1.
13 Gu XD, Liang CP, Dai Q, Li C (2009) A Simple and Convenient Method for Measuring and Monitoring Small Terrestrial Vertebrates: Drift Fences and Pitfall Traps. Sichuan Journal of Zoology, 28, 273-275.(in Chinese with English abstract)
[古晓东, 梁春平, 戴强, 李成 (2009) 一种简便实用的小型陆栖脊椎动物监测方法——围栏陷阱法. 四川动物 28, 273-275.]
14 Heyer WR, Donnelly MA, McDiarmid RW, Hayek LAC, Foster MS (1994) Measuring and Monitoring Biological Diversity: Standard Methods for Amphibians. Smithsonian Institution Press,Washington, DC.
15 Hoffmann M, Hilton-Taylor C, Angulo A, Böhm M, Brooks TM, Butchart SH, Carpenter KE, Chanson J, Collen B, Cox NA, Darwall WR, Dulvy NK, Harrison LR, Katariya V, Pollock CM, Quader S, Richman NI, Rodrigues AS, Tognelli MF, Vié JC, Aguiar JM, Allen DJ, Allen GR, Amori G, Ananjeva NB, Andreone F, Andrew P, Aquino Ortiz AL, Baillie JE, Baldi R, Bell BD, Biju SD, Bird JP, Black-Decima P, Blanc JJ, Bolaños F, Bolivar-G W, Burfield IJ, Burton JA, Capper DR, Castro F, Catullo G, Cavanagh RD, Channing A, Chao NL, Chenery AM, Chiozza F, Clausnitzer V, Collar NJ, Collett LC, Collette BB, Cortez Fernandez CF, Craig MT, Crosby MJ, Cumberlidge N, Cuttelod A, Derocher AE, Diesmos AC, Donaldson JS, Duckworth JW, Dutson G, Dutta SK, Emslie RH, Farjon A, Fowler S, Freyhof J, Garshelis DL, Gerlach J, Gower DJ, Grant TD, Hammerson GA, Harris RB, Heaney LR, Blair Hedges S, Hero JM, Hughes B, Ainul Hussain S, Javier Icochea M, Inger RF, Ishii N, Iskandar DT, Jenkins RKB, Kaneko Y, Kottelat M, Kovacs KM, Kuzmin SL, La Marca E, Lamoreux JF, Lau MWN, Lavilla EO, Leus K, Lewison RL, Lichtenstein G, Livingstone SR, Lukoschek V, Mallon DP, McGowan PJK, McIvor A, Moehlman PD, Molur S, Muñoz Alonso A, Musick JA, Nowell K, Nussbaum RA, Olech W, Orlov NL, Papenfuss TJ, Parra-Olea G, Perrin WF, Polidoro BA, Pourkazemi M, Racey PA, Ragle JS, Ram M, Rathbun G, Reynolds RP, Rhodin AGJ, Richards SJ, Rodríguez LO, Ron SR, Rondinini C, Rylands AB, Rondinini C, Rylands AB, Sadovy de Mitcheson Y, Sanciangco JC, Sanders KL, Santos-Barrera G, Schipper J, Self-Sullivan C, Shi Y, Shoemaker A, Short FT, Sillero-Zubiri C, Silvano DL, Smith KG, Smith AT, Snoeks J, Stattersfield AJ, Symes AJ, Taber AB, Talukdar BK, Temple HJ, Timmins R, Tobias JA, Tsytsulina K, Tweddle D, Ubeda C, Valenti SV, van Dijk PP, Veiga LM, Veloso A, Wege DC, Wilkinson M, Williamson EA, Xie F, Young BE, Akçakaya HR, Bennun L, Blackburn TM, Boitani L, Dublin HT, da Fonseca GAB, Gascon C, Lacher TE Jr, Mace GM, Mainka SA, McNeely JA, Mittermeier RA, Reid GM, Rodriguez JP, Rosenberg AA, Samways MJ, Smart J, Stein BA, Stuart SN (2010) The impact of conservation on the status of the world’s vertebrates. Science, 330, 1503-1509.
16 IUCN (2016) IUCN Red List of Threatened Species. Version2016-3. . (accessed on 2016- 12-07)
17 Jiang JP, Xie F, Zang CX, Cai L, Li C, Wang B, Li JT, Wang J, Hu JH, Wang Y, Liu JY (2016) Assessing the threat status of amphibians in China. Biodiversity Science, 24, 588-597.(in Chinese with English abstract)
[江建平, 谢锋, 臧春鑫, 蔡蕾, 李成, 王斌, 李家堂, 王杰, 胡军华, 王燕, 刘炯宇 (2016) 中国两栖动物受威胁现状评估. 生物多样性 24, 588-597.]
18 Koo MS, Vredenburg VT, Gross J, Spencer CL, Tunstall T, Wake DB (2013) Visualizing AmphibiaWeb Data with Continuous Cartograms. AmphibiaWeb: Information on Amphibian Biology and Conservation. Berkeley, California: AmphibiaWeb./. (accessed on 2016-12-07)
19 Li C, Gu HJ, Dai Q, Liu ZJ, Wang YZ (2008) Impacts on anurans in Caopohe River impounded by a small-sized dam. Resources and Environmental in the Yangtze Basin, 17(Z1),114-118.(in Chinese with English abstract)
[李成, 顾海军, 戴强, 刘志君, 王跃招 (2008) 草坡河流域小水电开发对无尾两栖动物的影响. 长江流域资源与环境 17(Z1), 114-118.]
20 Li YM, Wu ZJ, Duncan RP (2006) Why islands are easier to invade: human influences on bullfrog invasion in the Zhoushan archipelago and neighboring mainland China. Oecologia, 148, 129-136.
21 Li YM, Xu F, Guo ZW, Liu X, Jin CN, Wang YP, Wang SP (2011) Reduced predator species richness drives the body gigantism of a frog species on the Zhoushan Archipelago in China. Journal of Animal Ecology, 80, 171-182.
22 Liu X, Li YM (2009) Aquaculture enclosures relate to the establishment of feral populations of introduced species. PLoS ONE, 4, e6199. doi:10.1371/ journal.pone.0006199.
23 Liu X, Luo Y, Chen JX, Guo YS, Bai CM, Li YM (2015) Diet and prey selection of the invasive American bullfrog (Lithobates catesbeianus) in Southwestern China. Asian Herpetological Research, 6, 34-44.
24 Ma KP (2011) Assessing progress of biodiversity conservation with monitoring approach. Biodiversity Science, 19, 125-126.
(in Chinese) [马克平 (2011) 监测是评估生物多样性保护进展的有效途径. 生物多样性 19, 125-126.]
25 McDiarmid RW, Foster MS, Guyer C, Gibbons JW, Chernoff N(2012) Reptile Biodiversity: Standard Methods for Inventory and Monitoring. University of California Press, Los Angeles.
26 Muths E, Jung RE, Bailey LL, Adams MJ, Corn PS, Dodd CK, Fellers GM, Sadinski WJ, Schwalbe CR, Walls SC, Fisher RN, Gallant AL, Battaglin WA, Green DE (2005) Amphibian Research and Monitoring Initiative (ARMI): a successful start to a national program in the United States. Applied Herpetology, 2, 355-372.
27 Myers N, Mittermeier RA, Mittermeier CG, da Fonseca GAB, Kent J (2000) Biodiversity hotspots for conservation priorities. Nature, 403, 853-858.
28 Pounds JA, Bustamante MR, Coloma LA, Consuegra JA, Fogden MPL, Foster PN, La Marca E, Masters KL, Merino-Viteri A, Puschendorf R, Ron SR, Sánchez-Azofeifa G A, Still CJ, Young BE (2006) Widespread amphibian extinctions from epidemic disease driven by global warming. Nature, 439, 161-167.
29 Sparreboom M, Xie F, Fei L (2001) Reproductive behavior of the Chinhai salamander (Echinotriton chinhaiensis) (Caudata: Salamandridae). Amphibia-Reptilia, 22, 309-320.
30 Stewart MM, Pough FH (1983) Population density of tropical forest frogs: relation to retreat sites. Science, 221, 570-572.
31 Stuart SN, Chanson JS, Cox NA, Young BE, Rodrigues AS, Fischman DL, Waller RW (2004) Status and Trends of Amphibian Declines and Extinctions Worldwide. Science, 306, 1783-1786.
32 Urban MC (2015) Accelerating extinction risk from climate change. Science, 348, 571-573.
33 Wake DB (1990) Declining amphibian populations. Science, 253, 860.
34 Wake DB (1998) Action on amphibians. Trends in Ecology & Evolution, 13, 379-380.
35 Wake DB (2007) Climate change implicated in amphibian and lizard declines. Proceedings of the National Academy of Sciences,USA, 104, 8201-8202.
36 Wang G, Li C, Xie F, Jiang JP (2012) Application of providing artificial cover method in monitoring amphibian population. Chinese Journal of Zoology, 47(3), 53-58.(in Chinese with English abstract)
[王刚, 李成, 谢锋, 江建平 (2012) 应用人工掩蔽物法监测两栖动物种群动态. 动物学杂志 47(3), 53-58.]
37 Wang J (2015) Current status of Japanese giant salamander and the enlightenment on the conservation of Chinese giant salamander. Chinese Journal of Applied & Environmental Biology, 21, 683-688.(in Chinese with English abstract)
[王杰 (2015) 日本大鲵的现状及对中国大鲵保护的启示. 应用与环境生物学报 21, 683-688.]
38 Xie F, Fei L, Ye CY, Cai CM, Wang ZW, Sparreboom M (2000) Breeding migration and oviposition of the Chinhai salamander, Echinotriton chinhaiensis (Caudata: Salamandridae). The Herpetological Journal, 10, 111-118.
39 Xie F, Jiang JP, Zheng ZH (2002) Survey on amphibians and reptiles. Herpetologica Sinica, 9, 218-223.(in Chinese with English abstract)
[谢锋, 江建平, 郑中华 (2002) 两栖爬行动物野外调查方法. 两栖爬行动物学研究 9, 218-223.]
40 Xie F, Lau MW, Stuart SN, Chanson JS, Cox NA, Fischman DL (2007) Conservation needs of amphibians in China: a review. Sciences in China C: Life Sciences, 50, 265-276.
41 Zhang MW, Zong Y, Ma JF (1998) Fauna Sinica, Reptilia, Vol. 1, General Accounts of Reptilia, Testudoformes and Crocodiliformes. Science Press, Beijing.
(in Chinese) [张孟闻, 宗愉, 马积藩 (1998) 中国动物志·爬行纲·第一卷, 总论、龟鳖目、鳄目). 科学出版社, 北京. ]
42 Zhao EM, Huang MH, Zong Y (1998) Fauna Sinica, Reptilia Vol. 3, Squamata (Serpentes). Science Press, Beijing.
(in Chinese) [赵尔宓, 黄美华, 宗愉 (1998) 中国动物志·爬行纲·第三卷, 有鳞目: 蛇亚目. 科学出版社, 北京.]
43 Zhao EM, Zhao KT, Zhou KY (1999) Fauna Sinica, Reptilia Vol. 2, Squamata (Lacertilia). Science Press, Beijing.
(in Chinese) [赵尔宓, 赵肯堂, 周开亚 (1999) 中国动物志·爬行纲·第二卷, 有鳞目: 蜥蜴亚目. 科学出版社, 北京.]
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