The current situations of green macroalgae and micro-propagules in <i>Pyropia</i> aquaculture of the Subei Shoal in spring of 2013

LIU Xiangqing; WANG Zongling; FAN Shiliang; XIAO Jie; LI Yan; ZHANG Xuelei; LI Ruixiang; WANG Xiaona

doi:10.1007/s13131-016-0879-9

2013年春季苏北浅滩紫菜养殖区绿藻和微观繁殖体的分布现状

doi: 10.1007/s13131-016-0879-9

1.
中国海洋大学环境科学与工程学院, 山东青岛 266100;国家海洋局第一海洋研究所, 山东青岛 266061;青岛海洋科学与技术国家实验室海洋生态与环境科学功能实验室, 山东青岛 266071
2.
国家海洋局第一海洋研究所, 山东青岛 266061;青岛海洋科学与技术国家实验室海洋生态与环境科学功能实验室, 山东青岛 266071

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- 收稿日期: 2015-05-18
- 修回日期: 2015-11-25

The current situations of green macroalgae and micro-propagules in Pyropia aquaculture of the Subei Shoal in spring of 2013

1.
College of Environmental Science and Engineering, Ocean University of China, Qingdao 266100, China;The First Institute of Oceanography, State Oceanic Administration, Qingdao 266061, China;Laboratory of Marine Ecology and Environmental Science, Qingdao National Laboratory for Marine Science and Technology, Qingdao 266071, China
2.
The First Institute of Oceanography, State Oceanic Administration, Qingdao 266061, China;Laboratory of Marine Ecology and Environmental Science, Qingdao National Laboratory for Marine Science and Technology, Qingdao 266071, China

摘要

摘要: 为了揭示苏北浅滩紫菜养殖区附着绿藻和绿藻微观繁殖体的分布现状,从2013年三月到五月份对苏北浅滩紫菜养殖区及附近海域进行航次调查。结果表明, 绿藻微观繁殖体在水体和沉积物中广泛分布,水体中的平均值为267株/L,沉积物中的平均值为43株/g。调查期间,紫菜养殖区筏架上附着绿藻的生物量持续增长。在紫菜筏架上发现有浒苔,缘管浒苔,盒管藻三种绿藻,其优势种为盒管藻,其次是浒苔。研究表明,绿潮发生早期在苏北浅滩海域存在绿藻微观繁殖体和附着绿藻,这将为中国绿潮治理提供理论支撑。
- 分布现状 /
- 苏北浅滩 /
- 绿藻微观繁殖体 /
- 绿藻
Abstract: To discover the distribution of green algal micro-propagules in the Subei Shoal and clarify the growth of green macroalgae attached on Pyropia aquaculture rafts, an integrated investigation in Pyropia aquaculture area and one cruise in the coastal area of the Subei Shoal were carried out from March to May in 2013. The results showed that green algal micro-propagules were discovered in seawater and sediment during March to May. The average quantity of micro-propagules was 267 ind./L in surface seawater and 43 ind./g in sediment. The biomass of attached green macroalgae increased in Pyropia aquaculture from March to May. Three species, including Ulva prolifera, Ulva linza and Blidingia sp. were found in Pyropia aquaculture rafts. The dominant specie was Blidingia sp. and the second was U. prolifera in spring. This study indicated that the micro-propagules and macroalgae were existed in the coastal area of the Subei Shoal at the early stage of green tide. This was the key point to the governance of green tide in China.
- distribution /
- Subei Shoal /
- green algal micro-propagules /
- green macroalgae

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参考文献(44)

Amsler C D, Searles R B. 1980. Vertical distribution of seaweed spores in a water column offshore of North Carolina. Journal of Phyco-logy, 16(4): 617-619

Amsler C D, Reed D C, Neushul M. 1992. The microclimate inhabited by macroalgal propagules. British Phycological Journal, 27(3): 253-270

COIN (China Ocean Information Network). 2009-2014. The marine environmental bulletin. State Oceanic Administration 2008-2013 (in Chinese). http://www.coi.gov.cn/gongbao/huanjing/

Dan A, Hiraoka M, Ohno M, et al. 2002. Observations on the effect of salinity and photon fluence rate on the induction of sporula-tion and rhizoid formation in the green alga Enteromorpha pro-lifera (Müller) J. Agardh (Chlorophyta, Ulvales). Fisheries Sci-ence, 68(6): 1182-1188

Ding Lanping, Luan Rixiao. 2009. The taxonomy, habit, and distribu-tion of a green alga Enteromorpha prolifera (Ulvales, Chloro-phyta). Oceanologia et Limnologia Sinica (in Chinese), 40(1): 68-71

Duan Weijun, Guo Lixin, Sun Dong, et al. 2012. Morphological and molecular characterization of free-floating and attached green macroalgae Ulva spp. in the Yellow Sea of China. Journal of Ap-plied Phycology, 24(1): 97-108

Fan Shiliang, Fu Mingzhu, Wang Zongling, et al. 2015. Temporal vari-ation of green macroalgal assemblage on Porphyra aquacul-ture rafts in the Subei Shoal, China. Estuarine, Coastal and Shelf Science, 163: 23-28

Gao Shan, Chen Xiaoyuan, Yi Qianqian, et al. 2010. A strategy for the proliferation of Ulva prolifera, main causative species of green tides, with formation of sporangia by fragmentation. PLoS One, 5(1): e8571

Hoffmann A, Santelices B. 1991. Banks of algal microscopic forms: hypotheses on their functioning and comparisons with seed banks. Marine Ecology Progress Series, 79: 85-194

Hu Chuanmin. 2009. A novel ocean color index to detect floating al-gae in the global oceans. Remote Sensing of Environment, 113(10): 2118-2129

Hu Chuanmin, Li Daqiu, Chen Changsheng, et al. 2010. On the recur-rent Ulva prolifera blooms in the Yellow Sea and East China Sea. Journal of Geophysical Research, 115(C5): C05017

Keesing J K, Liu Dongyan, Fearns P, et al. 2011. Inter- and intra-annu-al patterns of Ulva prolifera green tides in the Yellow Sea dur-ing 2007-2009, their origin and relationship to the expansion of coastal seaweed aquaculture in China. Marine Pollution Bullet-in, 62(6): 1169-1182

Kraft L G K, Kraft G T, Waller R F. 2010. Investigations into southern Australian Ulva (Ulvophyceae, Chlorophyta) taxonomy and molecular phylogeny indicate both cosmopolitanism and en-demic cryptic species. Journal of Phycology, 46(6): 1257-1277

Li Yan, Song Wei, Xiao Jie, et al. 2014. Tempo-spatial distribution and species diversity of green algae micro-propagules in the Yellow Sea during the large-scale green tide development. Harmful Al-gae, 39: 40-47

Liang Zongying, Lin Xiangzhi, Ma Mu, et al. 2008. A preliminary study of the enteromorpha prolifera drift gathering causing the green tide phenomenon. Periodical of Ocean University of China (in Chinese), 38(4): 601-604

Lin Apeng, Shen Songdong, Wang Jianwei, et al. 2008. Reproduction diversity of Enteromorpha prolifera. Journal of Integrative Plant Biology, 50(5): 622-629

Liu Xiangqing. 2014. Distributions of floating green algae and micro-propagules in the formatting and developing processes in the Yellow Sea in 2012 (in Chinese)[dissertation]. Qingdao: The First Institute of Oceanography, SOA

Liu Dongyan, Keesing J K, Dong Zhijun, et al. 2010a. Recurrence of the world's largest green-tide in 2009 in Yellow Sea, China: Por-phyra yezoensis aquaculture rafts confirmed as nursery for macroalgal blooms. Marine Pollution Bulletin, 60(9): 1423-1432

Liu Dongyan, Keesing J K, He Peimin, et al. 2013. The world's largest macroalgal bloom in the Yellow Sea, China: formation and im-plications. Estuarine, Coastal and Shelf Science, 129: 2-10

Liu Dongyan, Keesing J K, Xing Qianguo, et al. 2009. World's largest macroalgal bloom caused by expansion of seaweed aquacul-ture in China. Marine Pollution Bulletin, 58(6): 888-895

Liu Xiangqing, Li Yan, Wang Zongling, et al. 2015a. Cruise observa-tion of Ulva prolifera bloom in the southern Yellow Sea, China. Estuarine, Coastal and Shelf Science, 163: 17-22

Liu Feng, Pang Shaojun, Shan Tifeng, et al. 2010b. A novel method to quantify the microscopic stages of Ulva species in seawater and its applications in forcasting green tides of the Yellow Sea. Chinese Science Bulletin (in Chinese), 55(6): 468-473

Liu Feng, Pang Shaojun, Zhao Xiaobo, et al. 2012. Quantitative, mo-lecular and growth analyses of Ulva microscopic propagules in the coastal sediment of Jiangsu province where green tides ini-tially occurred. Marine Environmental Research, 74: 56-63

Liu Xiangqing, Wang Zongling, Zhang Xuelei, et al. 2015b. The cur-rent situations of micro-propagules of green algae in Porphyra yezoensis farming areas of southern Jiangsu in autumn in 2012. Periodical of Ocean University of China (in Chinese), 45(7): 58-63

McAvoy K M, Klug J L. 2005. Positive and negative effects of riverine input on the estuarine green alga Ulva intestinalis (syn. Entero-morpha intestinalis) (Linneaus). Hydrobiologia, 545(1): 1-9

Pang Shaojun, Liu Feng, Shan Tifeng, et al. 2010. Tracking the algal origin of the Ulva bloom in the Yellow Sea by a combination of molecular, morphological and physiological analyses. Marine Environmental Research, 69(4): 207-215

Provasoli L. 1968. Media and prospects for the cultivation of marine algae. In: Watanabe A, Hattori A, eds. Cultures and Collection of Algae. Proceedings of the US Japanese Society of Plant Physiologists Conference. Hakone, Japan: Japanese Society for Plant Physiology, 63-75

Qiao Fangli, Wang Guansuo, Lü Xin'gang, et al. 2011. Drift character-istics of green macroalgae in the Yellow Sea in 2008 and 2010. Chinese Science Bulletin, 56(21): 2236-2242

Romero R. 2009. Recruitment Strategies of Ulva and Porphyra in Central California[dissertation]. San Jose: San Jose State Uni-versity, 4-5

Shang Zhaotang, Jiang Mingshu, Pu Meijuan. 2008. Analysis of the general situations of laver culture in Jiangsu province and its climatic suitability. Journal of Anhui Agricultural Sciences (in Chinese), 36(13): 5315-5319

Shi Xiaoyong, Qi Mingyan, Tang Hongjie, et al. 2015. Spatial and tem-poral nutrient variations in the Yellow Sea and their effects on Ulva prolifera blooms. Estuarine, Coastal and Shelf Science, 163: 36-43

Song Wei, Li Yan, Fang Song, et al. 2015a. Temporal and spatial distri-butions of green algae micro-propagules in the coastal waters of the Subei Shoal, China. Estuarine, Coastal and Shelf Science, 163: 29-35

Song Wei, Peng Keqin, Xiao Jie, et al. 2015b. Effects of temperature on the germination of green algae micro-propagules in coastal wa-ters of the Subei Shoal, China. Estuarine, Coastal and Shelf Sci-ence, 163: 63-68

Tseng C K. 1983. Common Seaweeds of China (in Chinese). Beijing: Science Press

Wang Jianwei, Yan Binlun, Lin A'peng, et al. 2007. Ecological factor research on the growth and induction of spores release in En-teromorpha prolifera (Chlorophyta). Marine Science Bulletin (in Chinese), 26(2): 60-65

Woodhead P, Moss B. 1975. The effects of light and temperature on settlement and germination of Enteromorpha. British Phycolo-gical Journal, 10(3): 269-272

Xiao Jie, Li Yan, Song Wei, et al. 2013. Discrimination of the common macroalgae (Ulva and Blidingia) in coastal waters of Yellow Sea, northern China, based on restriction fragment-length polymorphism (RFLP) analysis. Harmful Algae, 27: 130-137

Yoshida K. 1970. Studies on germling development and life-history in Ulvaceae and Monostromaceae-Part II-. Publications of the Seto Marine Biological Laboratory, 18(4): 243-273

Zechman F W, Mathieson A C. 1985. The distribution of seaweed pro-pagules in estuarine, coastal and offshore waters of New Hamp-shire, U.S.A. Botanica Marina, 28(7): 283-294

Zhang Jianheng, Huo Yuanzi, Yu Kefeng, et al. 2013. Growth charac-teristics and reproductive capability of green tide algae in Rud-ong coast, China. Journal of Applied Phycology, 25(3): 795-803

Zhang Qingchun, Liu Qing, Kang Zhenjun, et al. 2015. Development of a fluorescence in situ hybridization (FISH) method for rapid detection of Ulva prolifera. Estuarine, Coastal and Shelf Sci-ence, 163: 103-111

Zhang Suping, Liu Yingchen, Zhang Guangquan, et al. 2009. Analysis on the hydro-moteorological conditions from remote sensing data for the 2008 algal blooming in the Yellow Sea. Periodical of Ocean University of China (in Chinese), 39(5): 870-876

Zhang Xiaowen, Wang Hongxia, Mao Yuze, et al. 2010. Somatic cells serve as a potential propagule bank of Enteromorpha prolifera forming a green tide in the Yellow Sea, China. Journal of Ap-plied Phycology, 22(2): 173-180

Zhang Xiaowen, Xu Dong, Mao Yuze, et al. 2011. Settlement of veget-ative fragments of Ulva prolifera confirmed as an important seed source for succession of a large-scale green tide bloom. Limnology and Oceanography, 56(1): 233-242

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文章访问数: 1204
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2013年春季苏北浅滩紫菜养殖区绿藻和微观繁殖体的分布现状

doi: 10.1007/s13131-016-0879-9

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出版历程

The current situations of green macroalgae and micro-propagules in Pyropia aquaculture of the Subei Shoal in spring of 2013

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出版历程

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