海岛生态系统承载力空间分异性评估——以庙岛群岛南部岛群为例

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Abstract

An evaluation model of island ecosystem carrying capacity which can reflect the dual characteristics of land and surrounding waters and their spatial heterogeneities was established, and southern Miaodao Archipelago was used as the study area. The island ecosystem was in status of mild overloading as a whole, with land sub-ecosystem in status of mild overloading, and surrounding waters sub-ecosystem in status of critical overloading. In island scale, Nanchangshan Island, Beichangshan Island and Miao Island were in status of mild overloading, Xiaoheishan Island and Daheishan Island were in status of critical overloading, and other 5islands were in status of no overloading. In grid scale, the island ecosystem carrying capacity had a significant spatial heterogeneity, and the different carrying capacity degree zones were critical overloading zones, mild overloading zones, no overloading zones, moderate overloading zones and severe overloading zones in descending order of areas. Control of exploitation scale, optimization of development allocation, improvement of exploitation methods, and reasonable ecological construction were the important measures to enhance the island ecosystem carrying capacity.

Key words： island ecosystem carrying capacity spatial heterogeneity characteristics of land and surrounding waters different scales southern Miaodao Archipelago

Received: 26 June 2016

PACS:

X171

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	Articles by authors
	CHI Yuan
	SHI Hong-hua
	WANG Yuan-yuan
	GUO Zhen
	MA De-ming

Cite this article:

CHI Yuan,SHI Hong-hua,WANG Yuan-yuan等. Evaluation on spatial heterogeneity of island ecosystem carrying capacity—A case study of southern Miaodao Archipelago[J]. CHINA ENVIRONMENTAL SCIENCECE, 2017, 37(3): 1188-1200.

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http://manu36.magtech.com.cn/Jweb_zghjkx/EN/ OR http://manu36.magtech.com.cn/Jweb_zghjkx/EN/Y2017/V37/I3/1188

[1]	徐琳瑜,杨志峰,李巍.城市生态系统承载力理论与评价方法 [J]. 生态学报, 2005,25(4):771-777.
[2]	齐连明,张祥国,李晓东.国内外海岛保护与利用政策比较研究 [M]. 北京:海洋出版社, 2013.
[3]	Jupiter S, Mangubhai S, Kingsford R T. Conservation of biodiversity in the Pacific islands of Oceania: Challenges and Opportunities Pacific [J]. Pacific Conservation Biology, 2014, 20(2):206-220.
[4]	池源,石洪华,郭振,等.海岛生态脆弱性的内涵、特征及成因探析 [J]. 海洋学报, 2015,37(12):93-105.
[5]	Qie L, Lee T M, Sodhi N S, et al. Dung beetle assemblages on tropical land-bridge islands: small island effect and vulnerable species [J]. Journal of Biogeography, 2011,38(4):792-804.
[6]	Katovai E, Burley A L, Mayfield M M. Understory plant species and functional diversity in the degraded wet tropical forests of Kolombangara Island, Solomon Islands [J]. Biological Conservation, 2012,145(1):214-224.
[7]	王晓丽,王嫒,石洪华,等.海岛陆地生态系统固碳估算方法 [J]. 生态学报, 2014,34(1):88-96.
[8]	池源,石洪华,王晓丽,等.庙岛群岛南五岛生态系统净初级生产力空间分布及其影响因子 [J]. 生态学报, 2015,35(24): 8094-8106.
[9]	Chi Y, Shi H H, Wang X L, et al. Impact factors identification of spatial heterogeneity of herbaceous plant diversity on five southern islands of Miaodao Archipelago in North China [J]. Chinese Journal of Oceanology and Limnology, 2016,34(5):937-951.
[10]	索安宁,孙永光,李滨勇,等.长山群岛植被景观健康评价 [J]. 应用生态学报, 2015,26(4):1034-1040.
[11]	Lagerström A, Nilsson M C, Wardle D A. Decoupled responses of tree and shrub leaf and litter trait values to ecosystem retrogression across an island area gradient [J]. Plant and Soil, 2013,367(1/2):183-197.
[12]	Nogué S, Nascimento D L, Fernández-Palacios J M, et al. The ancient forests of La Gomera, Canary Islands, and their sensitivity to environmental change [J]. Journal of Ecology, 2013,101(2): 368-377.
[13]	Vogiatzakis I N, Pungetti G, Mannion A M. Mediterranean Island Landscapes: Natural and Cultural Approaches [M]. New York City: Springer Publishing, 2008.
[14]	Arrow K, Bolin B, Costanza, R, et al. Economic growth, carrying capacity, and the environment [J]. Ecological Economics, 1995, 15(2):89-90.
[15]	高吉喜.可持续发展理论探索——生态承载力理论、方法与应用 [M]. 北京:中国环境科学出版社, 2001.
[16]	韦静,曾维华.生态承载力约束下的区域可持续发展的动态模拟——以博鳌特别规划区为例 [J]. 中国环境科学, 2009,29(3): 330-336.
[17]	张志卫,丰爱平,李培英,等.基于能值分析的无居民海岛承载力:以青岛市大岛为例 [J]. 海洋环境科学, 2012,31(4):572-575.
[18]	Shi H H, Shen C C, Zheng W, et al. A model to assess fundamental and realized carrying capacities of island ecosystem: A case study in the southern Miaodao Archipelago of China [J]. Acta Oceanologica Sinica, 2016,35:56-67.
[19]	石洪华,王晓丽,王嫒,等.北长山岛森林乔木层碳储量及其影响因子 [J]. 生态学报, 2013,33(19):6363-6372.
[20]	池源,石洪华,王恩康,等.庙岛群岛北五岛景观格局特征及其生态效应 [J]. 生态学报, 2017,37(4),DOI:10.5846/stxb201604130672.
[21]	尤民生,刘雨芳,侯有明.农田生物多样性与害虫综合治理 [J]. 生态学报, 2004,24(1):117-122.
[22]	Rosoman G. The Plantation Effect [M]. Auckland: Greenpeace New Zealand, 1994.
[23]	Michelsen O, McDevitt J E, Coelho C R V. A comparison of three methods to assess land use impacts on biodiversity in a case study of forestry plantations in New Zealand [J]. The International Journal of Life Cycle Assessment, 2014,19(6):1214-1225.
[24]	Lee H J, Sang O R. Changes in topography and surface sediments by the Saemangeum dyke in an estuarine complex, west coast of Korea [J]. Continental Shelf Research, 2008,28(9):1177-1189.
[25]	林磊,刘东艳,刘哲,等.围填海对海洋水动力与生态环境的影响 [J]. 海洋学报, 2016,38(8):1-11.
[26]	Tovar A, Moreno C, Mánuel-Vez M P, et al. Environmental impacts of intensive aquaculture in marine waters [J]. Water Research, 2000,34(1):334-342.
[27]	Páez-Osuna F. The environmental impact of shrimp aquaculture: a global perspective [J]. Environmental Pollution, 2001,112(2): 229-31.
[28]	舒廷飞,罗琳,温琰茂.海水养殖对近岸生态环境的影响 [J]. 海洋环境科学, 2002,21(2):74-79.
[29]	饶欢欢,彭本荣,刘岩,等.海洋工程生态损害评估与补偿——以厦门杏林跨海大桥为例 [J]. 生态学报, 2015,35(16):5467-5476.
[30]	韩海骞,熊绍隆,朱军政,等.杭州湾跨海大桥对钱塘江河口水流的影响 [J]. 东海海洋, 2002,20(4):57-63.
[31]	庞启秀,庄小将,黄哲浩,等.跨海大桥桥墩对周围海区水动力环境影响数值模拟 [J]. 水道港口, 2008,29(1):16-20.
[32]	田振环,王琳,曹艳玲,等.庙岛南部海域海砂开采对海底地形的影响 [J]. 海洋地质前沿, 2015(1):52-58.
[33]	金永福,郑锡建,李金铎.崎头洋海砂开采对朱家尖沿岸沙滩的影响 [J]. 海洋环境科学, 2006,25(3):46-49.
[34]	王佩儿.海洋功能区划的基本理论、方法和案例研究 [D]. 厦门:厦门大学, 2005.
[35]	聂源,羊天柱,许雪峰.基岩海岸围填海工程后的流场变化 [J] 海洋学研究, 2009,27(4):45-54.
[36]	马克平,刘玉明.生物群落多样性的测度方法:Ⅰα多样性的测度方法(下) [J]. 生物多样性, 1994,2(4):231-239.
[37]	Cadée G C, Hegeman J. Primary production of phytoplankton in the Dutch Wadden Sea [J]. Netherlands Journal of Sea Research, 1974,8(s2-3):240-259.
[38]	国家海洋局.海洋资源环境承载能力监测预警指标体系和技术方法指南 [S].
[39]	朱文泉,潘耀忠,张锦水.中国陆地植被净初级生产力遥感估算 [J]. 植物生态学报, 2007,31(3):413-424.
[40]	梁军,孙志强,朱彦鹏,等.昆嵛山天然林13年演替动态——生物多样性变化、物种周转与食叶害虫的短期干扰 [J]. 中南林业科技大学学报, 2011,31(1):9-17.
[41]	NY/T391-2013 绿色食品产地环境质量 [S].
[42]	吕瑞华,夏滨,李宝华,等.渤海水域初级生产力10年间的变化 [J]. 海洋科学进展, 1999,(3):80-86.
[43]	鹿琳.黄渤海浮游植物种多样性及部分种分子鉴定 [D]. 青岛:中国海洋大学, 2012.
[44]	GB3097-1997 海水水质标准 [S].
[45]	Field C B, Behrenfeld M J, Randerson J T, Falkowski P. Primary production of the biosphere: integrating terrestrial and oceanic components [J]. Science, 1998,281(5374):237-240.
[46]	Tilman D, Reich P B, Knops J M H. Biodiversity and ecosystem stability in a decade-long grassland experiment [J]. Nature, 2006,441:629-632.
[47]	欧阳志云,王如松,赵景柱.生态系统服务功能及其生态经济价值评价 [J]. 应用生态学报, 1999,10(5):635-640.
[48]	Sarkinen T, Pennington R T, Lavin M, et al. Evolutionary islands in the Andes: persistence and isolation explain high endemism in Andean dry tropical forests [J]. Journal of Biogeography, 2012, 39(5):884-900.
[49]	李晓敏,张杰,曹金芳,等.广东省川山群岛开发利用生态风险评价 [J]. 生态学报, 2015,35(7):2265-2276.
[50]	张云,张英佳,景昕蒂,等.我国海湾海域使用的基本状况 [J]. 海洋环境科学, 2012,(5):755-757.
[51]	Zheng W, Li F, Shi H H, et al. Spatiotemporal heterogeneity of phytoplankton diversity and its relation to water environmental factors in the southern waters of Miaodao Archipelago, China [J]. Acta Oceanologica Sinica, 2016,35(2):46-55.