Community structure and controlled factor of attached green algae on the <i>Porphyra yezoensis</i> aquaculture rafts in the Subei Shoal, China

LI Yan; XIAO Jie; DING Lanping; WANG Zongling; SONG Wei; FANG Song; FAN Shiliang; LI Ruixiang; ZHANG Xuelei

doi:10.1007/s13131-015-0677-9

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Article Navigation > Acta Oceanologica Sinica > 2015 > 34(8): 93-99

LI Yan, XIAO Jie, DING Lanping, WANG Zongling, SONG Wei, FANG Song, FAN Shiliang, LI Ruixiang, ZHANG Xuelei. Community structure and controlled factor of attached green algae on the Porphyra yezoensis aquaculture rafts in the Subei Shoal, China[J]. Acta Oceanologica Sinica, 2015, 34(8): 93-99. doi: 10.1007/s13131-015-0677-9

Citation:

LI Yan, XIAO Jie, DING Lanping, WANG Zongling, SONG Wei, FANG Song, FAN Shiliang, LI Ruixiang, ZHANG Xuelei. Community structure and controlled factor of attached green algae on the Porphyra yezoensis aquaculture rafts in the Subei Shoal, China[J]. Acta Oceanologica Sinica, 2015, 34(8): 93-99. doi: 10.1007/s13131-015-0677-9

Citation:

LI Yan, XIAO Jie, DING Lanping, WANG Zongling, SONG Wei, FANG Song, FAN Shiliang, LI Ruixiang, ZHANG Xuelei. Community structure and controlled factor of attached green algae on the Porphyra yezoensis aquaculture rafts in the Subei Shoal, China[J]. Acta Oceanologica Sinica, 2015, 34(8): 93-99. doi: 10.1007/s13131-015-0677-9

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Community structure and controlled factor of attached green algae on the Porphyra yezoensis aquaculture rafts in the Subei Shoal, China

doi: 10.1007/s13131-015-0677-9

1.
Ocean University of China, Qingdao 266100, China;First Institute of Oceanography, State Oceanic Administration, Qingdao 266061, China 3 Shantou University, Shantou 515063, China
2.
First Institute of Oceanography, State Oceanic Administration, Qingdao 266061, China 3 Shantou University, Shantou 515063, China
3.
Shantou University, Shantou 515063, China

Received Date: 2014-05-29
Rev Recd Date: 2014-08-04

Abstract

Abstract

This study analyzes the community structure, the quantity changes of the algae and the effect of important environmental factors and estimates the total biomass of the attached green algae in the survey areas. The study uses data from surveys of the attached green algae on the Porphyra yezoensis aquaculture rafts and data regarding the environmental factors from October 2010 to April 2011 in the Subei Shoal. The attached green algae on the rafts included Ulva prolifera, Capsosiphon groenlandicus, U. linza, U. intestinalis, U. clathrata, and U. compressa. The biomass changes of the attached green algae exhibited an inverted parabola: the biomass was the highest (14 898 t) in April, and was the second highest (2 034 t) in November; it was lowest in February (only 729 t) and increased sharply from March to April. The species diversity differed significantly among the seasons. In September and October, when the P. yezoensis aquaculture rafts were initially set up, the attached green algae had a high biodiversity, while from December to the next February, a variety of green algae species coexisted on the rafts, although the biomass was low, and from March to April, as the biomass increased sharply, the species diversity dropped to the minimum. During this time, C. groenlandicus was apparently dominant with the maximum biomass proportion up to 80%, while the U. prolifera proportion increased exponentially to 20% to 40%. The water temperature had a direct regulating effect on the biomass and the species succession of the attached green algae. The estimation of the community dynamics and the biomass of the green algae provided the evidence needed to track the origin of the large-scale green tide in the southern Yellow Sea.
- Porphyra yezoensis aquaculture,
- attached green algae,
- community structure,
- controlled factor,
- Subei Shoal

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References(22)

References

Agrawal S C. 2009. Factors affecting spore germination in algae—re-view. Folia Microbiologica, 54(4): 273-302

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

Ding Lanping, Luan Rixiao, Huang Bingxin, et al. 2008. The taxonom-ical study on Capsosiphonaceae (Ulvales, Chlorophyta) from Huanghai-Bohai Seas of China. Haiyang Xuebao (in Chinese), 30(2): 169-174

Fang Song, Wang Zongling, Li Yan, et al. 2012. The dynamics of mi-cro-propagules before the Green tide outbreak in the southern Huanghai Sea and Changjiang (Yangtze) River Estuary area. Haiyang Xuebao (in Chinese), 34(4): 147-154

Gao Song, Shi Xiaoyong, Wang Ting. 2012. Variation of nutrient con-centrations at the inshore coastal area of northern Jiangsu province and the occurrence of green tide caused by Entero-morpha prolifera. Environmental Science (in Chinese), 33(7): 2204-2209

Ge Yunjian, Yang Guishan, Zhang Renshun, et al. 2009. The pre-re-search on the radial sandy ridges in Jiangsu costal zone applic-ation for the world nature heritage. Journal of Nanjing Normal University (Natural Science Edition) (in Chinese), 32(3): 125-131

Gu Li, Hua Zulin, Chu Kejian, et al. 2011. Difference analysis of water quality in offshore areas in Jiangsu Province in 2007 and 1998. Journal of Hohai University (Natural Sciences) (in Chinese), 39(6): 640-645

Hayden H S, Blomster J, Maggs C A, et al. 2003. Linnaeus was right all along: Ulva and Enteromorpha are not distinct genera. European Journal of Phycology, 38(3): 277-294

He Xiaoyan, Hu Ting, Wang Yaping, et al. 2010. Seasonal distribu-tions of hydrometeor parameters in the offshore sea of Jiangsu. Marine Sciences (in Chinese), 34(9): 44-54

Huang Xianjun, Luo Qijun. 2012. Effects of light condition and low temperature on survivability in three kinds of Ulva. Journal of Ningbo University (NSEE) (in Chinese), 25(1): 24-26

Li Jianping, Zhao Weihong, Fu Min, et al. 2010. Preliminary study on the effects of nitrogen and phosphorus on the growth of Entero-morpha prolifera. Marine Sciences (in Chinese), 34(4): 45-48

Liu D, Keesing J K, Dong Z, et al. 2010a. Recurrence of Yellow Sea green tide in June 2009 confirms coastal seaweed aquaculture provides nursery for generation of macroalgal blooms. Marine Pollution Bulletin, 60: 1423-1432

Liu Dongyan, Keesing J K, He Peimin, et al. 2013a. The world's largest macroalgal bloom in the Yellow Sea, China: Formation and im-plications. Estuarine, Coastal and Shelf Science, 129: 2-10, http://dx.doi.org/10.1016/j.ecss.2013.05.021

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 Feng, Pang Shaojun, Chopin T, et al. 2010b. The dominant Ulva strain of the 2008 green algal bloom in the Yellow Sea was not detected in the coastal waters of Qingdao in the following winter. Journal of Applied Phycology, 22(5): 531-540

Liu Feng, Pang Shaojun, Chopin T, et al. 2013b. Understanding the recurrent large-scale green tide in the Yellow Sea: Temporal and spatial correlations between multiple geographical, aquacultural and biological factors. Marine Environmental Re-search, 83: 38-47

Liu Feng, Pang Shaojun, Shan Tifeng, et al. 2010c. A novel method to quantify the microscopic stages of Ulva species in seawater and i潴晳?瑡桰数?捩档敡浴楩捯慮汳?灩慮爠慦浯敲瑣敡牳獴?楮湧?瑧桲敥?卮漠畴瑩桤敥牳渠?奦攠汴汨潥眠?卥敬慬?楷渠?獥灡爮椠湃杨???慳牥椠湓散?卥据楣敥渠捂敵??楥湴??栠椨湩敮猠敃?????????‵?㈨????戴父?圭甴?堳椼慢潲眾敌湩???楥?剧甬椠硐楡慮湧朠??塡畯?婵潮測朠橘畵渠??攬琠?慴氠??金????‰?攮猠潕捬潶獡洠?敩硶灥敲牳楩?浹攠湩瑮猠?潨晥?湙略瑬爭楬敯湷琠?敥晡映敤捵瑲獩?潧渠??湥琠敬牡潲浧潥爭灳档慡?灥爠潧汲楥晥敮爠慡?杧牡潬眠瑢桬???摳瘠慩湮挠攲‰椰游??愰爰椹渮攠?卨捹楣敯湬捯敧??楡湬??桥楳湥敡獲散???特??????????????扢牲?塌楩慵漠??楮敧???楡?奧愠湓??卯潪湵杮?圠敚楨??攠瑘?慡汯??水??????椮猠挲爰椱洲椮渠慑瑵楡潮湴?潴晡?瑩桶敥?挠潭浯洭潬湥?浵慬捡牲漠慡汮杤愠敧??啷汴癨愠?慮湡摬??汥楳搠楯湦朠楕慬??椠湭?捣潲慯獳瑣慯汰?督愠瑰敲牯獰?潧晵?奥敳氠汩潮眠?卨敥愠??湡潳牴瑡桬攠牳湥??桭楥湮慴??扦愠獊敩摡?潧湳?爠数獲瑯牶楩据瑣楥漠湷?晥牲慥朠浧敲湥瑥?氠整湩杤瑥桳?灩潮汩礭浴潩牡灬桬楹猠浯??創??健??愠湍慡汲祩獮楥猠???慩牲浯普畭汥??污杬愠敒??????????????戶爭?娳格慢湲朾?塡楮慧漠桓潨湡杯??坮愬渠杌?婵漠湆来汮楧測朠???楮?剔畩楦硥楮慧測朠??攠瑡?愮氠?‰㈱??㈠???楣捫物潮獧挠潴灨?椠捡?潧扡獬攠牯癲慩瑧楩潮渠?潦渠?灨潥瀠畕汬慶瑡椠潢湬?杯牭漠睩瑮栠?慨湥搠?牥敬灬牯潷搠畓捥瑡椠潢湹?潡映??湭?瑩牮潡浴潩牯灮栠慯?瀠牭潯汬楥晣敵牬慡?甬渠摭敯牲?摨楯晬景敧物散湡瑬?瑡敮浤瀠数牨慹瑳畩牯敬?慧湩摣?獬愠污楮湡楬瑹祳???搠癍慡湲捩敮獥?楅湮??慲牯楮湭敥?却捡楬攠湒捥敳??楲湣??栠椶渹攨猴攩??′???有???????????戠牊?娠桖慥潮??楬湥???椠渱朹?倷攮渠杔???楯畲?婬栠敡湭杭祯楮??敭琠?慡汴???の????呡桮敤?奧敲汯汷潴睨?卲敡慴?朠物敮攠湃?瑤楩摵敭猠?睮敤爠敕?摶潡洠椨湕慌瑖敏摐?扙祃?潁湅攩?猠灊敯捵楲敮獡??啯汦瘠慐???湯瑬敯牧潹洬漠爲瀳栨愴??瀠爵漱永椭昵攲爳愼??显牓潨浥?㈠けど??瑌潩??は?????栠楌湩攠獙敡?匬挠楥整渠捡敬??甲氰氱攲琮椠湍?????????????????っ?tion of green algae from the rafts based infrastructure of Porphyra yezoensis. Marine Pollution Bulletin, 64(10): 2077-2082

Taylor R, Fletcher R L, Raven J A. 2001. Preliminary studies on the growth of selected ‘Green Tide' algae in laboratory culture: ef-fects of irradiance, temperature, salinity and nutrients on growth rate. Botanica Marina, 44(4): 327-336

Tian Xiaoling, Huo Yuanzi, Chen Liping, et al. 2011. Molecular detec-tion and analysis of green seaweeds from Rudong coasts in Ji-angsu Province. Chinese Science Bulletin (in Chinese), 56(4-5): 309-317

Vermaat J E, Sand-Jensen K. 1987. Survival, metabolism and growth of Ulva lactuca under winter conditions: a laboratory study of bottlenecks in the life cycle. Marine Biology, 95(1): 55-61

Wang Jianwei, Yan Binlun, Lin Apeng, et al. 2007. Ecological factor re-search on the growth and induction of spores release in Entero-morpha prolifera (Chlorophyta). Marine Science Bulletin (in Chinese), 26(2): 60-65

Wei Qinsheng, Zhan Run, Zang Jiaye, et al. 2010. Distributions and influence factors

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