地球科学进展

地球科学进展 ›› 2021, Vol. 36 ›› Issue (7): 753 -762. doi: 10.11867/j.issn.1001-8166.2021.071

生态学研究 上一篇    下一篇

我国马尾藻金潮生态动力学研究进展
王丹 1( ),姜亦飞 1,王先桥 1,王素芬 2,何恩业 1,张蕴斐 1   
  1. 1.国家海洋环境预报中心 自然资源部海洋灾害预报技术重点实验室,北京 100081
    2.中国科学院 南海海洋研究所,热带海洋环境国家重点实验室,广东省海洋遥感重点实验室,广东 广州 510301
  • 收稿日期:2021-01-12 修回日期:2021-06-05 出版日期:2021-07-10
  • 基金资助:
    国家重点研发计划项目“海气界面浮标观测数据应用研究”(2017YFC1403306);广东省海洋遥感重点实验室开放课题“基于多源卫星资料分析和反演的黄东海马尾藻藻华发展趋势预测研究”(2017B030301005-LORS2011)

Research Progress in Ecological Dynamics of Golden Tide Dominated by Sargassum

Dan WANG 1( ),Yifei JIANG 1,Xianqiao WANG 1,Sufen WANG 2,Enye HE 1,Yunfei ZHANG 1   

  1. 1.Key Laboratory of Marine Hazards Forecasting,National Marine Environmental Forecasting Center,Ministry of Natural Resources,Beijing 100081,China
    2.Guangdong Key Laboratory of Ocean Remote Sensing (LORS),State Key Laboratory of Tropical Ocaeanography,South China Sea Institute of Oceanology,Chinese Academy of Sciences,Guangzhou 510301,China
  • Received:2021-01-12 Revised:2021-06-05 Online:2021-07-10 Published:2021-08-20
  • About author:WANG Dan (1982-), female, Tianjin City, Associate professor. Research areas include marine ecological hazard prediction and eutrophic control technology. E-mail: saisaiwang@163.com
  • Supported by:
    the National Key Research and Development Program of China "Application research on air-sea interface buoy observation data"(2017YFC1403306);The Guangdong Key Laboratory of Ocean Remote Sensing Open Research Program "Based on muti-source analysis and remote sensing retrieval to study Sargassum bloom trend prediction in the East China Sea and Yellow Sea"(2017B030301005-LORS2011)
全文 ( 41 ) 下载PDF ( 689 )

马尾藻金潮作为一种新兴的海洋生态灾害在国内外频发,我国近些年近海防灾减灾形势愈发严峻。简介了马尾藻的主要危害;对国内外马尾藻金潮的溯源研究、基础生物和生态学研究、监测预警研究现状进行了梳理,对金潮生态动力学研究的发展现状与独特优势进行了讨论,认为未来我国金潮生态动力学会立足于多学科多手段融合,开展突出关键物理、化学和生物过程及其耦合作用的系统性研究,开展金潮与其他海洋生态灾害如绿潮、赤潮等联合暴发的驱动机制及其关联性研究,在研究思路上要注重基于海洋环境监测与海洋立体观测的早期预警、基于分子生物学和生态学手段的快速鉴种溯源、基于统计模型的生物量初级生产力评估以及基于数值模型的漂移轨迹与生消关键过程的趋势预测与风险评估相结合,为开发具备业务化预报能力的金潮生态动力学数值预警报系统不断努力,以便进一步提升我国大型海藻生态灾害的预警报技术和防灾减灾能力。

关键词: 金潮, 马尾藻, 海洋生态动力学, 生态灾害, 灾害趋势预测

In recent years, the golden tide dominated by Sargassum has become a kind of emerging marine ecological hazards occurring frequently at home and abroad. The main harm of golden tides is introduced there. The research progresses on source tracing, fundamental biology and ecology, early warning and monitoring, are generally mentioned. The development and superiority on ecological dynamics of golden tides are mainly discussed. We believe that in the future, with the highlight of the integration of multi-disciplines and multi-means, China will aim to carry out systematic research on key physical, chemical and biological processes of ecological dynamics of golden tides and their coupling effects, and on the driving mechanisms of the joint outbreak of golden tides and other marine ecological hazards (such as green tides and red tides) and their correlation. More attention could be paid to the technology fusion among the marine environmental monitoring and marine 3D observation for early warning, molecular biology and ecology for fast species identification and traceability, the statistical model for biomass/primary productivity evaluation as well as the numerical model for the trajectory and key processes trend prediction and risk assessment. With the development of ecological dynamics numerical simulation technology, it is necessary to make efforts in building the operational forecasting system for golden tides, so as to further strengthen the prevention and mitigation of seaweed ecological hazards of the seas in China.

Key words: Golden tide, Sargassum, Marine ecological dynamic, Ecological hazard, Disaster trend prediction

中图分类号: 

1 ZENG Chengkui, LU Baoren. Marine algal flora of China Ⅲ phaeophyta chapter 2 fucales [M]. Beijing: Science Press, 2000.
曾呈奎, 陆保仁. 中国海藻志第三卷褐藻门第二册墨角藻目[M]. 北京: 科学出版社, 2000.
2 HUANG Bingxin, DING Lanping, TAN Huaqiang, et al.Species diversity and distribution of genus Sargassum in China seas [J]. Oceanologia et Limnologia Sinica, 2013,44(1):69-76.
黄冰心,丁兰平,谭华强,等. 我国沿海马尾藻属(Sargasum)的物种多样性及其区系分布特征[J]. 海洋与湖沼,2013,44(1):69-76.
3 KONG Fanzhou, JIANG Peng, WEI Chuanjie, et al. Co-occurrence of green tide, golden tide and red tides along the 35°N transect in the Yellow Sea during spring and summer in 2017[J]. Oceanologia et Limnologia Sinica, 2018,49(5):1 021-1 030.
孔凡洲,姜鹏,魏传杰,等. 2017年春、夏季黄海35°N共发的绿潮、金潮和赤潮[J]. 海洋与湖沼,2018,49(5): 1 021-1 030.
4 CHEN Zhen, LIU Hongbing. Advances in studies on chemical constituents and biological activities of Sargassum [J]. Chinese Journal of Marine Drugs, 2012, 31(5):41-51.
陈震,刘红兵. 马尾藻的化学成分与生物活性研究进展[J]. 中国海洋药物杂志,2012,31(5):41-51.
5 HU Bin, WANG Bingli, XU Peng, et al. Research progress in nutrition of seaweed Sargassum [J]. Chinese Journal of Fisheries, 2016,29(1):48-53.
胡斌,王秉利,许鹏,等. 马尾藻营养成分研究进展[J]. 水产学杂志,2016,29(1):48-53.
6 YOSHIDA T. Studies on the distribution and drift of the floating seaweed [J]. Bulletin of Tohoku Regional Fisheries Research Laboratory, 1963, 23: 141-186.
7 CHO S H, MYOUND J G, KIM J M. Ecological signification of a drifting seaweed in the coastal area of Tongyeong, Korea [J]. Transactions of the American Fisheries Society, 2001, 130(6): 1 190-1 202.
8 SMETACEK V, ZINGONE A. Green and golden seaweed tides on the rise [J]. Nature, 2013, 504(7 478): 84-88.
9 FREEMANA A S, SHORTA F T, ISNAINB I, et al. Seagrass on the edge: land-use practices threaten coastal seagrass communities in Sabah, Malaysia[J]. Biological Conservation, 2008, 141: 2 993-3 005.
10 KOMATSU T, MIZUNO S, NATHEER A, et al. Unusual distribution of floating seaweeds in the East China Sea in the early spring of 2012 [J]. Journal of Applied Phycology, 2014, 26: 1 169-1 179.
11 SU L, SHAN T, PENG S. Analyses of the genetic structure of Sargassum horneri in the Yellow Sea: implications of the temporal and spatial relations among floating and benthic populations [J]. Journal of Applied Phycology, 2018, 30(2): 1 417-1 424.
12 WANG M, HU C. Predicting Sargassum blooms in the Caribbean sea from MODIS observations [J]. Geophysical Research Letters, 2017, 44(7): 3 265-3 273.
13 FARNHAM W F, FLETCHER R L, IRVINE L M. Attached Sargassum found in Britain [J]. Nature, 1973, 243: 231-232.
14 CAMBIE G, FERNANDEZ-MARQUEZ D, MUINO R. Modelling the distribution and density of the invasive seaweed Sargassum muticum (Fucales, Sargassaceae) in shallow subtidal areas[J]. Marine and Freshwater Research, 2017, 68(2): 244-251.
15 PARR A E. Quantitative observations on the pelagic Sargassum vegetation of the western North Atlantic [J]. Bulletin of the Bingham Oceanographical Collection, 1939, 6: 1-94.
16 LAFFOLEY D, ROE H, ARDRON J A, et al. The protection and management of the Sargasso Sea: the golden floating rainforest of the Atlantic Ocean [R]. Projects: Sargasso Sea Alliance · Conservation of the Sargasso Sea, 2011.
17 SCAGEL R F. Introduction of a Japanese alga, Sargassum muticum, into the Northeast Pacific [J]. Fish Research Paper Washington Department of Fisheries, 1956, 1: 1-10.
18 SETZER R, LINK C. The wanderings of Sargassum muticum and other relations [J]. Stomatopod, 1971, 2: 5-6.
19 MILLER K A, ENGLE J M, UWAI S, et al. First report of the Asian seaweed Sargassum filicinum Harvey (Fucales) in California, USA [J]. Biological Invasions, 2007, 9(5): 609-613.
20 AN Deyu, XING Qianguo, WEI Zhenning, et al. Spectral features and analysis of typical of typical floating macroalgae in the Yellow Sea [J]. Oceanologia et Limnologia Sinica, 2018,49(5):1 054-1 060.
安德玉,邢前国,魏振宁,等. 黄海典型漂浮大型藻类光谱特征分析[J]. 海洋与湖沼,2018,49(5): 1 054-1 060.
21 CAI Jiachen, GENG Huixia, KONG Fanzhou, et al.Simulation study on the effect of Sargassumhorneri on other harmful bloom causative species [J]. Oceanologia et Limnologia Sinica, 2019,50(5):1 050-1 058.
蔡佳宸,耿慧霞,孔凡洲,等. 铜藻金潮对浒苔绿潮和几种赤潮原因种生长影响的模拟研究[J]. 海洋与湖沼, 2019,50(5):1 050-1 058.
22 ANDRéFOU?T S, PAYRI C, WYNSBERGE S V, et al. The proliferating brown alga Sargassum polycystum in Tuvalu, South Pacific [J]. Journal of Applied Phycology, 2017. DOI: 10.1007/s10811-017-1165-8.
doi: 10.1007/s10811-017-1165-8.    
23 WU Zuli, CHEN Liangran, WANG Kai, et al. Morphological characteristics of vesicle of Sargassum horneri and its relationship to environmental factors in Gouqi Island [J]. Journal of Fisheries of China, 2020,44(5):793-804.
吴祖立,陈亮然,王凯,等. 枸杞岛铜藻气囊形态特征及其与环境因子的关系[J]. 水产学报,2020,44(5):793-804.
24 WANG Ning, CAO Conghua, HUANG Juan, et al. Application research of Enteromorpha and Sargassum distinguishing method in operational monitoring [J]. Marine Forecasts, 2019,36(4):68-75.
王宁,曹丛华,黄娟,等. 浒苔和马尾藻遥感区分方法在业务监测中的应用研究[J]. 海洋预报,2019,36(4):68-75.
25 DE WREEDE R E. The phenology of three species of Sargassum (Sargassaceae, Phaeophyta) in Hawaii [J]. Phycologia, 1976, 15(2): 175-183.
26 YU Yongqiang, ZHANG Quansheng, TANG Yongzheng, et al. The advance in research on spatio-temporal variation in life cycle in sea weed Sargassum [J]. Fisheries Science, 2012, 31(7):437-443.
于永强,张全胜,唐永政,等. 马尾藻种群生活史性状时空变化的研究进展[J]. 水产科学,2012,31(7):437-443.
27 PEDERSEN M F, BORUM J. Nutrient control of estuarine macroalgae: growth strategy and the balance between nitrogen requirements and uptake [J]. Marine Ecology Progress Series, 1997, 161(12): 155-163.
28 CAI Jiachen. Simulation study on the effects of Sargassum horneri golden tide on harmful algae and zooplankton [D]. Qingdao: The Institute of Oceanology, Chinese Academy of Sciences,2019.
蔡佳宸. 铜藻金潮对有害藻华原因种和浮游动物影响的模拟研究[D]. 青岛:中国科学院海洋研究所,2019.
29 LIU Ting. Study on the physiological effects and mechanism of important environmental factors on golden tide causative species Sargassum horneri [D]. Wenzhou: Wenzhou University, 2019.
刘婷. 金潮原因种铜藻(Sargassum horneri)关键环境因子的生理响应与机理解析[D]. 温州:温州大学,2019.
30 GOWER J, Seaweed KING S., everywhere seaweed [J]. Science, 2019, 6 448(365): 27.
31 KOMATSU T, TATSUKAWA K, FILIPPI J B, et al. Distribution of drifting seaweeds in eastern East China Sea [J]. Journal of Marine System, 2007, 67(3): 245-252.
32 KOMATSU T, MATSUNAGA D, MIKAMI A, et al. Abundance of drifting seaweeds in eastern East China Sea [J]. Journal of Applied Phycology, 2008, 20(5): 801-809.
33 KOMATSU T, MIZUNO S, NATHEER A, et al. Unusual distribution of floating seaweeds in the East China Sea in the early spring of 2012 [J]. Journal of Applied Phycology, 2014, 26(2): 1 169-1 179.
34 DING Xiaowei, ZHANG Jianheng, ZHUANG Minmin, et al.Growth of Sargassum horneri distribution properties of golden tides in the Yangtze Estuary and adjacent waters [J]. Marine Fisheries, 2019,41(2):188-196.
丁晓玮,张建恒,庄旻敏,等. 我国长江口及邻近海域铜藻生长和金潮分布变化特征[J]. 海洋渔业,2019,41(2):188-196.
35 CHEN Y, WANG J, ZHANG J, et al. Spatial-temporal distribution of golden tide based on high-resolution satellite remote sensing in the South Yellow Sea [J]. Journal of Coastal Research, 2019, 90(): 221-227.
36 Zhang J, Shi J, Gao S, et al. Annual patterns of macroalgal blooms in the Yellow Sea during 2007-2017 [J]. PLoS ONE, 2019. DOI:10.1371/journal.pone.0210460.
doi: 10.1371/journal.pone.0210460.    
37 HUANG Bingxin, DING Lanping, QIN Song, et al. The taxonomical status and biogeographical distribution of Sargassum horneri with the origin analysis of its drifting population in the end of 2016 at the western Yellow Sea [J]. Oceanologia et Limnologia Sinica, 2018,49(1):214-223.
黄冰心,丁兰平,秦松,等. 铜藻的分类地位、生物地理分布以及2016年底黄海漂浮铜藻源头的初步分析[J]. 海洋与湖沼,2018,49(1):214-223.
38 HE Liang. Preliminary study on physiological and biochemical responses, heat-tolerance mechanism of Sargassum hemiphyllum var. chinense under high temperature stress [D]. Zhanjiang: Guangdong Ocean University, 2017.
贺亮. 高温胁迫下半叶马尾藻中国变种生理生化响应及其耐热机制的初步研究[D]. 湛江:广东海洋大学,2017.
39 UMEZAKI I. Distributions of genus Sargassumsubgenus Bactrophycus) along the coasts of Japan [D]. Tokyo: Otsuchi Marine Research Center, Ocean Research Institute, The University of Tokyo, 1984.
40 CHOI H G, LEE K H, YOO H I, et al. Physiological differences in the growth of Sargassum horneri between the germling and adult stages [J]. Journal of Applied Phycology, 2008, 20(5): 729-735.
41 LI Xuena. A study of sea surface temperature varies during the macroalgae blooms processes based on MODIS [D]. Shanghai: Shanghai Ocean University, 2016.
李雪娜. 基于遥感数据的大型浮游藻类生消过程中海表面温度的变化研究[D]. 上海:上海海洋大学,2016.
42 KOMATSU T, FUKUDA M, MIKAMI A, et al. Possible change in distribution of seaweed, Sargassum horneri, in northeast Asia under A2 scenario of global warming and consequent effect on some fish [J]. Marine Pollution Bulletin, 2014, 85(2): 317-324.
43 SISSINI M N, De BARROS BARREYTO M B B, SZECHY M T M, et al. The floating Sargassum (Phaeophyceae) of the South Atlantic Ocean-likely scenarios [J]. Phycologia, 2017, 56(3): 321-328.
44 QI L, HU C, WANG M. Floating algae blooms in the East China Sea [J]. Geophysical Research Letters, 2017, 44(22): 11 501-11 509.
45 XU Z, GAO G, XU J, et al. Physiological response of a golden tide alga (Sargassum muticum) to interaction of ocean acidification and phosphorus enrichment [J]. Biogeosciences, 2017, 14(3): 1-36.
46 LIU F, LIU X, WANG Y, et al. Insights on the Sargassum horneri golden tides in the Yellow Sea inferred from morphological and molecular data [J]. Limnology and Oceanography, 2018, 63(4): 1 762-1 773.
47 LI J, LIU Z, ZHUANG L, et al. Limited genetic connectivity among Sargassumhorneri (Phaeophyceae) populations in the chinese marginal seas despite their high dispersal capacity [J]. Journal of Phycology, 2020, 56(4): 994-1 005.
48 ZHANG J, DING X, ZHUANG M, et al. An increase in new Sargassum (Phaeophyceae) blooms along the coast of the East China Sea and Yellow Sea [J]. Phycologia, 2019, 58(4): 374-381.
49 ZHUANG M, LIU J, DING X, et al. Sargassum blooms in the East China Sea and Yellow Sea: formation and management [J]. Marine Pollution Bulletin, 2021, 162: 111845.
50 LIU J, XIA J, ZHUANG M, et al. Golden seaweed tides accumulated in Pyropia aquaculture areas are becoming a normal phenomenon in the Yellow Sea of China [J]. Science of the Total Environment, 2021, 774(20): 145726.
51 MEI X, WU C, ZHAO J, et al. Community structure of bacteria associated with drifting Sargassum horneri, the causative species of golden tide in the Yellow Sea [J]. Frontiers in Microbiology, 2019, 10: 1 192.
52 VALIELA I, MCCLELLAND J, HAUXWELL J, et al. Macroalgal blooms in shallow estuaries: controls and ecophysiological and ecosystem consequences [J]. Limnology and Oceanography, 1997, 42(5): 1 105-1 118.
53 WANG C, YU R, ZHOU M. Effects of the decomposing green macroalga UlvaEnteromorpha prolifera on the growth of four red-tide species [J]. Harmful Algae, 2012, 16(2): 12-19.
54 WANG You, YU Zhiming, SONG Xiuxian, et al. Effects of macroalgae on growth of 2 species of bloom microalgae and interactions between these microalgae in laboratory culture [J]. Environmental Science, 2006, 27(2): 274-280.
王悠,俞志明,宋秀贤,等. 大型海藻与赤潮微藻以及赤潮微藻之间的相互作用研究[J]. 环境科学,2006,27(2):274-280.
55 JIA Rui, WU Min, CAI Chuner, et al. Allelopathic effects of Ulva prolifera on Heterosigma akashiwo [J]. Journal of Fisheries of China, 2012, 36(4): 562-567.
贾睿,吴敏,蔡春尔,等. 浒苔对赤潮异湾藻的克生作用[J]. 水产学报,2012,36(4):562-567.
56 GOWER J F R, KING S, BORSTAD G A, et al. Detection of intense plankton blooms using the 709 nm band of the MERIS imaging spectrometer[J]. International Journal of Remote Sensing, 2005, 26(9): 2 005-2 012.
57 GOWER J, GOWER J F R, HU C, et al. Ocean color satellites show extensive lines of floating Sargassum in the Gulf of Mexico [J]. IEEE Transactions on Geoscience and Remote Sensing, 2006, 44(12): 3 619-3 625.
58 GOWER J, KING S, GONCALVES P. Global monitoring of plankton blooms using MERIS MCI [J]. International Journal of Remote Sensing, 2008, 29(21): 6 209-6 216.
59 GOWER J, KING S. Intense plankton blooms and Sargassum detected by MERIS [C]// Proceedings of the MERIS (A) ATSR Workshop 2005. Frascati, Italy: ESA, 2005.
60 GOWER J, KING S. Satellite images show the movement of floating Sargassum in the gulf of Mexico and Atlantic Ocean [J]. Nature Proceedings, 2008. DOI: 10.1038/npre.2008.1894.1.
doi: 10.1038/npre.2008.1894.1.    
61 CASAL G, KUTSER T, DOMINGUEZ-GOMEZ J A, et al.Mapping benthic macroalgal communities in the coastal zone using CHRIS-PROBA mode 2 images [J]. Estuarine, Coastal and Shelf Science, 2011, 94(3): 281-290.
62 CASAL G, SANCHEZ-Carnero N, DOMINGUEZ-GOMEZ J A, et al. Assessment of AHS (Airborne Hyperspectral Scanner) sensor to map macroalgal communities on the Ría de vigo and Ría de Aldán coast (NW Spain) [J]. Marine Biology, 2012, 159(9):1 997-2 013.
63 ALAWADI F. Detection of surface algal blooms using the newly developed algorithm Surface Algal Bloom Index (SABI) [C]// Proceedings volume 7825, remote sensing of the ocean, sea ice, and large water regions. Toulouse, France: SPIE, 2010.
64 HU C M, LEE Z P, FRANZ B A. Chlorophyll a algorithms for oligotrophic oceans: a novel approach based on three-band reflectance difference[J]. Journal of Geophysical Research: Oceans, 2012, 117(C1). DOI:10.1029/2011JC007395.
doi: 10.1029/2011JC007395    
65 XING Q, HU C. Mapping macroalgal blooms in the Yellow Sea and East China Sea using HJ-1 and Landsat data: application of a virtual baseline reflectance height technique [J]. Remote Sensing of Environment, 2016, 178(1): 113-126.
66 ZHANG Zhenglong. Remote sensing identification of Ulva Prolifra and Sargassum and evolution of green tide in the Yellow Sea and the East China Sea [D]. Shanghai: East China Normal University, 2014.
张正龙. 我国黄、东海浒苔和马尾藻的遥感鉴别及绿潮发生过程研究[D]. 上海:华东师范大学,2014.
67 JIN Song, HAN Zhen, LIU Yu. A remote sensing method for discriminating Ulva Prolifra and Sargassum [J]. Remote Sensing Information, 2016,31(2):44-48.
金松,韩震,刘瑜. 一种区分浒苔和马尾藻的遥感方法[J]. 遥感信息,2016,31(2):44-48.
68 YU Jie, HUANG Honghui, SHU Liming, et al. Sargassum extraction using remoting sensing technology [J]. Remote Sensing Information, 2013,28(2):93-105.
于杰,黄洪辉,舒黎明,等. 马尾藻遥感信息提取[J]. 遥感信息,2013,28(2):93-105.
69 WEBSTER R K, LINTON T. Development and implementation of Sargassum Early Advisory System (SEAS) [J]. Shore & Beach, 2013, 81(3): 1-6.
70 MARECHAL J P, HELLIO C, HU C. A simple, fast, and reliable method to predict Sargassum washing ashore in the Lesser Antilles [J]. Remote Sensing Application: Society & Environment, 2017, 5: 54-63.
71 CAMBIE G, FERNANDEZ D, MUINO R. Modelling the distribution and density of the invasive seaweed Sargassum muticum (Fucales, Sargassaceae) in shallow subtidal areas [J]. Marine and Freshwater Research, 2017, 68(2): 244-251.
72 JIN Song. Remote sensing of marine disasters and inversion of primary productivity of marine algae [D]. Shanghai: Shanghai Ocean University, 2016.
金松. 海洋藻类灾害遥感探测及海洋初级生产力反演[D]. 上海:上海海洋大学,2016.
73 CHAI Zhaoyang, HUO Yuanzi, YU Kefeng, et al. Assessment of Sargassum vachellianum bed ecosystem health in Gouqi Island [J]. Marine Environmental Science, 2013,32(3):385-389.
柴召阳,霍元子,于克锋,等. 枸杞岛瓦氏马尾藻藻场生态系统健康评价[J]. 海洋环境科学,2013,32(3):385-389.
74 WANG Dan, LIU Guimei, HE Enye, et al. Review on prediction, prevention and mitigation of harmful algal blooms [J]. Advances in Earth Science,2013,28(2):233-242.
王丹,刘桂梅,何恩业,等. 有害藻华的预测技术和防灾减灾对策研究进展[J]. 地球科学进展,2013,28(2):233-242.
75 CHAI F, LIU G, XUE H, et al. Seasonal and interannual variability of carbon cycle in South China Sea: a three-dimensional physical biogeochemical modeling study [J]. Progress in Oceanography, 2009, 65(5): 703-720.
76 WU Zengmao, YU Guangyao, ZHANG Zhinan, et al. A pelagic ecosystem model and simulation of the Northern part of Jiaozhou Bay Ⅱ. a simulation study on the pelagic ecosystem seasonal variations [J]. Journal of Ocean University of Qingdao, 1999,29(3):429-435.
吴增茂,俞光耀,张志南,等. 胶州湾北部水层生态动力学模型与模拟Ⅱ.胶州湾北部水层生态动力学的模拟研究[J]. 青岛海洋大学学报,1999,29(3):429-435.
77 YU Guangyao, WU Zengmao, Zhang Zhinan, et al. A pelagic ecosystem model and simulation of the northern part of Jiaozhou Bay Ⅰ. introduction to pelagic ecosystem model [J]. Journal of Ocean University of Qingdao, 1999,29(3):421-428.
俞光耀,吴增茂,张志南,等. 胶州湾北部水层生态动力学模型与模拟Ⅰ.胶州湾北部水层生态动力学模型[J]. 青岛海洋大学学报,1999,29(3):421-428.
78 QIAO F, WANG G, LV X, et al. Drift characteristics of green macroalgae in the Yellow Sea in 2008 and 2010 [J]. Chinese Science Bulletin, 2011, 56(21): 2 236-2 242.
79 LI Yan, LI Yun, LIU Qinzheng. The operational enteromorpha drifting forecasting system [J]. Marine Forecasts, 2010,27(4):74-78.
李燕,李云,刘钦政. 浒苔漂移轨迹预报系统[J]. 海洋预报,2010,27(4):74-78.
80 HUANG Juan, WU Lingjuan, GAO Song, et al. Hydrodynamic tracking of the green tides in the Yellow Sea [J]. Marine Forecasts, 2011,28(1):25-32.
黄娟,吴玲娟,高松,等. 黄海绿潮应急漂移数值模拟[J]. 海洋预报,2011,28(1):25-32.
81 ZHENG Xiangyang, XING Qianguo, LI Li, et al. Numerical simulation of the 2008 green tide in the Yellow Sea [J]. Marine Sciences, 2011,35(7):82-87.
郑向阳,邢前国,李丽,等. 2008年黄海绿潮路径的数值模拟[J]. 海洋科学,2011,35(7):82-87.
82 LIU Guimei, LI Hai, WANG Hui, et al. A review on the ecological dynamics studies of green tide in China [J]. Advances in Earth Science, 2010,25(2):147-153.
刘桂梅,李海,王辉,等. 我国海洋绿潮生态动力学研究进展[J]. 地球科学进展,2010,25(2):147-153.
[1] 孙 松. 水母暴发研究所面临的挑战[J]. 地球科学进展, 2012, 27(3): 257-261.
[2] 吴庆龙,谢平,杨柳燕,高光,刘正文,潘纲,朱本占. 湖泊蓝藻水华生态灾害形成机理及防治的基础研究[J]. 地球科学进展, 2008, 23(11): 1115-1123.
阅读次数
全文


摘要

版权所有 © 《地球科学进展》编辑部
地址:甘肃省兰州市天水中路8号
QQ:114723517
电话:0931-8762293 E-mail:adearth@lzb.ac.cn
陇ICP备2021001824号-5  甘公网安备62010202000687