景观生态安全格局的算法改进与应用

doi:10.17520/biods.2017124

摘要/Abstract

摘要：

景观安全格局是一种有效的生物保护途径, 其构建应以生物运动的生态过程为基础。本文基于最小累积阻力模型, 运用效用公式法对景观安全格局中的缓冲区识别方法进行探索, 运用梯度算法对生态廊道(源间联结和辐射道)的识别方法进行了改进。结果表明, 在缓冲边界外的低阻力区且与源有一定距离但适合目标保护物种生存的生境孤岛可作为源的潜在区, 缓冲区边界内的高阻力区且与源距离较近但不适合目标保护物种生存的区域则可划分为生态修复区, 在生态廊道上与高阻力点交叉部分可识别为生态修复关键点。以武陵源风景名胜区为例, 构建了以猕猴(Macaca mulatta)为目标保护物种的景观安全格局, 建立了以4个离散分布的猕猴栖息地为源及其3个潜在区为补充的核心保护区域, 划定了多条辐射道和源间联结以改善栖息地之间的连通性, 并识别出了多个生态修复关键点。本文对景观安全格局中缓冲区和生态廊道的识别方法进行了改进, 在武陵源风景名胜区猕猴保护中的运用也具有生物保护上的实践价值。

关键词: 景观安全格局, 算法, 武陵源风景名胜区, 猕猴

Abstract

Using biological movement as a basis, landscape security patterns are an effective approach to biological conservation. This study probes the recognition technique to buffer zones with the aid of utility formulas, and improves the method of recognition of ecological corridors with the help of gradient descent algorithms. These habit islets, which are located within low-resistance areas outside the buffer zone and of a certain distance from suitable sources for the subsistence of targeted protected species, can be considered source candidates. Regions, which are situated within high-resistance areas inside the buffer zone and close to unsuitable sources for maintaining targeted protected species, can be categorized in ecological restoration areas. The intersection between ecological corridors and high-resistance areas should be identified as a key point for ecological restoration. Taking the Wulingyuan Scenic and Historic Interest Area (WSA) as an empirical case, the study formulates the landscape security pattern of Macaca mulatta, in which the core area of the reserve is comprised of four discrete source Macaca mulatta habitats and is supplemented by three source candidates. A few ecological corridors and connections between sources that aimed to improve connectivity of the inter-population were delimited, and strategic points of ecological restoration are discerned. This study not only identifies buffer zones and ecological corridors in landscape security patterns but also attaches great practical significance to biological conservation exemplified by the Macaca mulatta population in WSA.

Key words: landscape security pattern, algorithm, Wulingyuan Scenic and Historic Interest Area, Macaca mulatta

陈洁, 周年兴, 陶卓民 (2018) 景观生态安全格局的算法改进与应用. 生物多样性, 26, 36-43. DOI: 10.17520/biods.2017124.

Jie Chen, Nianxing Zhou, Zhuomin Tao (2018) Algorithm improvements and applications for biological conservation security patterns. Biodiversity Science, 26, 36-43. DOI: 10.17520/biods.2017124.

导出引用管理器 EndNote|Ris|BibTeX

链接本文: https://www.biodiversity-science.net/CN/10.17520/biods.2017124

https://www.biodiversity-science.net/CN/Y2018/V26/I1/36

图/表 8

图1 累积阻力与累计面积的函数关系

Fig. 1 Functional relationship between cumulative resistance and area

图2 武陵源风景名胜区示意图

Fig. 2 Sketch map of Wulingyuan Scenic and Historic Interest Area

表1 环境阻力因子及权重

Table 1 The factors and weights of environmental resistance

阻力因子 Resistance factor	权重 Weight
植被覆盖类型 Vegetation cover type	0.4
高程 Elevation	0.2
距水源地的距离 Distance from water	0.1
距河流的距离 Distance from rivers	0.2
距公路的距离 Distance from roads	0.06
距游步道的距离 Distance from walking trails	0.04

图3 单一源的景观阻力面(石家檐)

Fig. 3 Landscape resistance map of Shijiayan

图4 由边界方程划分的缓冲区

Fig. 4 Buffer zone drawn by boundary equation

图5 基于阻力分级的缓冲区

Fig. 5 Buffer zone drawn by resistance ranking

表2 源的潜在区选取因子及权重

Table 2 The factors and weights in selection of new source

因子 Factors	条件 Selecting condition	权重 Weight
猕猴生境适宜度指数[0, 1] Habitat suitability index for Macaca mulatta [0, 1]	≥ 0.7	0.7
景观异质性 Landscape heterogeneity	≥ 2	0.1
斑块面积 Patch area	≥ 0.4 km²	0.1
斑块形状指数[0, 1] Patch shape index [0, 1]	≥ 0.6	0.1

图6 猕猴保护的景观安全格局

Fig. 6 Security pattern for the protection of Macaca mulatta

参考文献 20

1	Cheng C, Xiao Y, Ouyang ZY, Rao EM (2013) Natural landscape valuation of Wulingyuan Scenic Area in Zhangjiajie City. Acta Ecologica Sinica, 33, 771-779.(in Chinese with English abstract)
	[成程, 肖燚, 欧阳志云, 饶恩明 (2013) 张家界武陵源风景区自然景观价值评估. 生态学报, 33, 771-779.]
2	Feng SH, Sha R (2006) On ancient village scenery field theory and scenery safety pattern. Geography and Geo-information Science, 22, 91-94.(in Chinese with English abstract)
	[冯淑华, 沙润 (2006) 古村落场理论及景观安全格局探讨. 地理与地理信息科学, 22, 91-94.]
3	Forman RT (1995) Land Mosaics: The Ecology of Landscapes and Regions. Cambridge University Press, Cambridge.
4	Huang GP, Zhou NX (2016) Geodesign in developing countries: The example of the master plan for Wulingyuan National Scenic Area, China. Landscape and Urban Planning, 156, 81-91.
5	Li H, Yi N, Yao WJ, Wang SQ, Li ZY, Yang SH (2011) Shangri-La County ecological land use planning based on landscape security pattern. Acta Ecologica Sinica, 31, 5928-5936.(in Chinese with English abstract)
	[李晖, 易娜, 姚文璟, 王思琪, 李志英, 杨树华 (2011) 基于景观安全格局的香格里拉县生态用地规划. 生态学报, 31, 5928-5936.]
6	Li J, Zhang YY, Zhu YM (2017) Research on biodiversity conservation of Beidaihe New District based on landscape security pattern. Research of Soil and Water Conservation, 24, 306-310.(in Chinese with English abstract)
	[李静, 张莹莹, 朱永明 (2017) 基于景观安全格局的北戴河新区生物多样性保护研究. 水土保持研究, 24, 306-310.]
7	Li JH, Liu XH (2006) Research of the nature reserve zonation based on the least-cost distance model. Journal of Natural Resources, 21, 217-224.(in Chinese with English abstract)
	[李纪宏, 刘雪华 (2006) 基于最小费用距离模型的自然保护区功能分区. 自然资源学报, 21, 217-224.]
8	Ma J (2016) Biodiversity protection strategy under the background of ecological environment threshold and the tourism carrying capacity—According to the core of the world natural heritage Wulingyuan Scenic Area as an example. Economic Geography, 36, 195-202.(in Chinese with English abstract)
	[马骏 (2016) 基于生态环境阈限与旅游承载力背景下生物多样性保护策略研究——以世界自然遗产武陵源核心景区为例. 经济地理, 36, 195-202.]
9	Tie J, Jin S, Chen YB, Qin YY, Zhang GP, Ru WM (2014) Floristic characteristics of food plants of Macaca mulatta in Manghe National Nature Reserve Shanxi, China. Acta Botanica Boreali-Occidentalia Sinica, 34,1482-1488.(in Chinese with English abstract)
	[铁军, 金山, 陈艳彬, 秦永燕, 张桂萍, 茹文明 (2014) 山西蟒河国家级自然保护区猕猴食源植物区系特征. 西北植物学报, 34, 1482-1488.]
10	Tie J, Li YF, Wang X, Bai FL, Cui FT, Jin S (2015) Species diversity of forest community in Macaca mulatta habitat in Lishan National Nature Reserve, Shanxi. Chinese Journal of Ecology, 34, 3009-3015.(in Chinese with English abstract)
	[铁军, 李燕芬, 王霞, 白凤麟, 崔方天, 金山 (2015) 山西历山国家级自然保护区猕猴栖息地森林群落物种多样性. 生态学杂志, 34, 3009-3015.]
11	Wang RH, Li XY, Zhang SW, Li YB, Cao C (2014) Research for landscape ecological security pattern and early warning in farming-pastoral zone of Northeast China—a case study on Tongyu County in Jilin Province. Geography and Geo-information Science, 30, 111-115.(in Chinese with English abstract)
	[王让虎, 李晓燕, 张树文, 李艳博, 曹琛 (2014) 东北农牧交错带景观生态安全格局构建及预警研究——以吉林省通榆县为例. 地理与地理信息科学, 30, 111-115.]
12	Wang SY, Ou MH (2013) Zoning for regulating of construction land based on landscape security pattern. Acta Ecologica Sinica, 33, 4425-4435.(in Chinese with English abstract)
	[王思易, 欧名豪 (2013) 基于景观安全格局的建设用地管理分区. 生态学报, 33, 4425-4435.]
13	Wu CC (2008) Research on Tourism Resources of Zhangjiajie National Forest Park. China Tourism Press, Beijing.(in Chinese)
	[吴楚材 (2008) 张家界国家森林公园本底旅游资源研究. 中国旅游出版社, 北京.]
14	Wu ZW (2008) Research on Landscape Tourism Resources of Zhangjiajie National Forest Park. China Tourism Press, Beijing.(in Chinese)
	[吴章文 (2008) 张家界国家森林公园景观旅游资源研究. 中国旅游出版社, 北京.]
15	Yao Y, Zhang P, Yan LJ, Fan J (2011) Risk pattern analysis of soil erosion based on RUSLE and SP—A case study of Diebu County, Gansu Province. Bulletin of Soil and Water Conservation, 31, 161-167.(in Chinese with English abstract)
	[姚妤, 张沛, 严力蛟, 樊吉 (2011) 基于RUSLE和景观安全格局的土壤侵蚀风险格局研究—以甘肃省甘南藏族自治州迭部县为例. 水土保持通报, 31, 161-167.]
16	Yin HG, Fei JJ, Xie S (2011) A perception research on the residents benefits of scenic spot from the perspective of ecological tourism—A case study of Wulingyuan Scenic Area. Journal of Hunan University (Social Sciences), 25(5), 81-87.(in Chinese with English abstract)
	[尹华光, 费建杰, 谢莎 (2011) 生态旅游视角下景区居民利益感知研究——以武陵源风景区为例. 湖南大学学报(社会科学版), 25(5), 81-87.]
17	You WB, He DJ, Hong W, Wu LY, Ji ZR, You HM, Tan Y, Zheng XY (2014) Identification for tourism disturbance sensitive areas and protection based on landscape security pattern in world mixed heritage site Wuyishan Scenery District. Mountain Research, 32, 195-204.(in Chinese with English abstract)
	[游巍斌, 何东进, 洪伟, 巫丽芸, 纪志荣, 游惠明, 谭勇, 郑晓燕 (2014) 基于景观安全格局的武夷山风景名胜区旅游干扰敏感区判识与保护. 山地学报, 32, 195-204.]
18	Yu KJ (1996) Security patterns and surface model and in landscape planning. Landscape and Urban Planning, 36, 1-17.
19	Yu KJ, Wang SS, Li DH, Li CB (2009) The function of ecological security patterns as an urban growth frame work in Beijing. Acta Ecologica Sinica, 29, 1189-1204.(in Chinese with English abstract)
	[俞孔坚, 王思思, 李迪华, 李春波 (2009) 北京市生态安全格局及城市增长预景. 生态学报, 29, 1189-1204.]
20	Zhuang DC, Deng XZ, Zhan JY (2004) Assessment of the environmental quality for Wulingyuan Scenic Spot in Hunan Province. Geographical Research, 23, 192-200.(in Chinese with English abstract)
	[庄大春, 邓祥征, 战金艳 (2004) 武陵源风景区环境质量评估. 地理研究, 23, 192-200.]

[1]	王玉国, 杨洁, 陈家宽. 长江流域野生猕猴桃遗传资源的潜在价值、现状分析与保护策略[J]. 生物多样性, 2018, 26(4): 373-383.
[2]	武星彤, 陈璐, 王敏求, 张原, 林雪莹, 李鑫玉, 周宏, 文亚峰. 丹霞梧桐群体遗传结构及其遗传分化[J]. 生物多样性, 2018, 26(11): 1168-1179.
[3]	褚建民, 李毅夫, 张雷, 李斌, 高明远, 唐晓倩, 倪建伟, 许新桥. 濒危物种长柄扁桃的潜在分布与保护策略[J]. 生物多样性, 2017, 25(8): 799-806.
[4]	崔相艳, 王文娟, 杨小强, 李述, 秦声远, 戎俊. 基于生态位模型预测野生油茶的潜在分布[J]. 生物多样性, 2016, 24(10): 1117-1128.
[5]	沈泽昊, 卢绮妍. 物种分布区范围地理格局的Rapoport法则[J]. 生物多样性, 2009, 17(6): 560-567.
[6]	张田, 李作洲, 刘亚令, 姜正旺, 黄宏文. 猕猴桃属植物的cpSSR遗传多样性及其同域分布物种的杂交渐渗与同塑[J]. 生物多样性, 2007, 15(1): 1-22.
[7]	陈阳, 陈安平, 方精云. 中国濒危鱼类、两栖爬行类和哺乳类的地理分布格局与优先保护区域——基于《中国濒危动物红皮书》的分析[J]. 生物多样性, 2002, 10(4): 359-368.
[8]	黄宏文, 龚俊杰, 王圣梅, 何子灿, 张忠慧, 李建强. 猕猴桃属(Actinidia)植物的遗传多样性[J]. 生物多样性, 2000, 08(1): 1-12.
[9]	王勇军, 廖文波, 常弘. 广东内伶仃岛猕猴食性及食源植物分析[J]. 生物多样性, 1999, 07(2): 97-105.
[10]	陈维伦, 郭东红, 安和祥, 朱至清. 猕猴桃属(Actinidia)植物的离体种质保存[J]. 生物多样性, 1998, 06(4): 278-281.