福建海坛海峡赤潮灾害潜在生态风险评估

doi:10.11978/2020096

Abstract

Abstract:

Based on the risk assessment theory of red tide disaster and the conventional monitoring data of plankton and hydrology in the Haitan Strait, the index system of red tide disaster assessment in the Haitan Strait was constructed by using the method of Analytic Hierarchy Process (AHP), and the weight was assigned by entropy method and coefficient of variation method. A scientific and credible assessment model was established, and the thematic maps of ecological risk disaster of the Haitan Strait were obtained. The results are as follows. The medium-to-high risk areas were mainly distributed in the north of the strait in spring; the southern part of the strait was mainly at low risk. In summer, most of sea areas of the strait had low risk, while the south of the strait faced high risk. In autumn, the risk levels were mainly low and medium, and the medium risk areas were mainly distributed in the northwest and southeast of the strait. In winter, high-risk areas and highest-risk areas were concentrated in the northwest or northeast part of the strait. Because the eutrophication degree of the strait was high and the eutrophication index had a large weight, reducing nitrogen and phosphorus inputs into the strait can reduce the risk of red tide disasters. In addition, it displayed a good temporal and spatial correlation distribution between the red tide events for many years and disaster-causing factor level distribution.

Key words: Haitan Strait, Analytic Hierarchy Process (AHP), entropy method, coefficient of variation method, red tide disaster, potential ecological risk

CLC Number:

P762.33

WANG Huifang, HUANG Xiuqing, LIU Jianhua, XU Meina, JIANG Yunyun, QIU Jufei. Potential ecological risk assessment of red tide disaster in Haitan Strait of Fujian Province[J].Journal of Tropical Oceanography, 2021, 40(4): 122-133.

Figures/Tables 11

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生态指标	分析方法	方法标准
浮游植物	镜检计数、分类法	GB17378.7-2007
叶绿素a	分光光度法	GB17378.7-2007
温度	表层水温表法	GB17378.4-2007
盐度	盐度计法	GB17378.4-2007
pH	pH计法	GB17378.4-2007
溶解氧	碘量法	GB17378.4-2007
化学需氧量	碱性高锰酸钾法	GB17378.4-2007
铵盐	次溴酸钠氧化法	GB17378.4-2007
硝酸盐	锌镉还原法	GB17378.4-2007
亚硝酸盐	重氮-偶氮法	GB17378.4-2007
活性磷酸盐	磷钼蓝分光光度法	GB17378.4-2007

优势种	拉丁文	优势度
优势种	拉丁文	夏	冬	春	秋
三角角藻	Ceratium tripos			0.48
夜光藻	Noctiluca scintillans			0.26
笔尖形根管藻	Rhizosolenia styliformis			0.06
旋链角毛藻	Chaetoceros curvisetus	0.06		0.05	0.03
叉状角藻	Ceratium furca			0.02
中肋骨条藻	Skeletonema costatum	0.45	0.89	0.02	0.59
梭角藻	Ceratium fusus			0.02
佛氏海毛藻	Thalassiothrix frauenfeldii	0.02			0.10
菱形海线藻	Thalassionema nitzschioides	0.02			0.05
束毛藻属	Trichodesmium sp.				0.05
琼氏圆筛藻	Coscinodiscus jonesianus	0.03			0.02
加氏星杆藻	Asterionella kariana		0.06
布氏双尾藻	Ditylum brightwellii	0.09
奇异菱形藻	Nitzschia paradoxa	0.06
洛氏角毛藻	Chaetoceros lorenzianus	0.04
星脐圆筛藻	Coscinodiscus asteromphalus	0.02

一级指标	二级指标	权重	三级指标	权重
危险度(H)	致灾因子(H₁)	0.74	主要赤潮生物	0.87
	致灾因子(H₁)	0.74	叶绿素	0.13
	孕灾因子(H₂)	0.26	温度	0.16
			盐度	0.17
			pH	0.16
			溶解氧	0.15
			富营养化指数(E)	0.36
易损度(V)	承灾体	1	总渔业资源密度	1

致灾因子危险度	孕灾因子危险度	承灾体易损度	潜在生态风险	风险等级
0~0.25	0.15~0.32	0~0.25	0~0.1	低级
0.25~0.50	0.32~0.48	0.25~0.50	0.1~0.2	中级
0.50~0.75	0.48~0.64	0.50~0.75	0.2~0.3	较高级
0.75~1	0.64~0.80	0.75~1	>0.3	高级

时间	发生海域	面积/km²	赤潮生物	拉丁文	毒性	直接经济损失/万元
2011.05.11—05.14	长乐松下沿岸海域	15	东海原甲藻	Prorocentrum donghaiense	无毒	无
2012.05.17—05.19	芬尾、娘宫码头	30	东海原甲藻	Prorocentrum donghaiense	无毒	无
2012.05.26—06.07	平潭流水、苏澳码头	80	米氏凯伦藻	Karenia mikimotoi	有毒	63151
2012.05.30—06.08	福清东瀚海域	6	米氏凯伦藻	Karenia mikimotoi	有毒	11996
2012.05.30—06.08	长乐松下海域	15	米氏凯伦藻	Karenia mikimotoi	有毒	无
2012.06.14—06.15	长乐松下海域	3	中肋骨条藻	Skeletonema costatum	无毒	无
2013.05.22—05.23	平潭苏澳、流水	20	夜光藻、米氏凯伦藻	Noctiluca scintillans, Karenia mikimotoi	有毒	无
2014.05.05—05.14	平潭苏澳、流水、澳前海域	5.5	东海原甲藻	Prorocentrum donghaiense	无毒	无
2014.05.11—05.13	福清东瀚附近海域	3	东海原甲藻	Prorocentrum donghaiense	无毒	无
2016.05.03—05.04	平潭苏澳海域	不详	夜光藻	Noctiluca scintillans	无毒	无

Potential ecological risk assessment of red tide disaster in Haitan Strait of Fujian Province

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