Citation: | Hongbin Han, Yan Li, Xiaojun Ma, Wei Song, Zongling Wang, Mingzhu Fu, Xuelei Zhang. Population differentiation in the dominant species (Ulva prolifera) of green tide in coastal waters of China[J]. Acta Oceanologica Sinica, 2022, 41(11): 108-114. doi: 10.1007/s13131-022-1985-5 |
Blomster J, Back S, Fewer D P, et al. 2002. Novel morphology in Enteromorpha (Ulvophyceae) forming green tides. American Journal of Botany, 89(11): 1756–1763. doi: 10.3732/ajb.89.11.1756
|
Collins C J, Fraser C I, Ashcroft A, et al. 2010. Asymmetric dispersal of southern bull-kelp (Durvillaea antarctica) adults in coastal New Zealand: testing an oceanographic hypothesis. Molecular Ecology, 19(20): 4572–4580. doi: 10.1111/J.1365-294X.2010.04842.X
|
Cui Jianjun, Zhang Jianheng, Huo Yuanzi, et al. 2015. Adaptability of free-floating green tide algae in the Yellow Sea to variable temperature and light intensity. Marine Pollution Bulletin, 101(2): 660–666. doi: 10.1016/j.marpolbul.2015.10.033
|
Cui Jianjun, Zhang Jianheng, Monotilla A P, et al. 2019. Assessment of blooming Ulva macroalgae production potential in the Yellow Sea, China. Phycologia, 58(5): 535–541. doi: 10.1080/00318884.2018.1551016
|
Ding Lanping, Luan Rixiao, Huang Bingxin, et al. 2008. The taxonomical study on Capsosiphonaceae (Ulvales, Chlorophyta) from Huanghai-Bohai Seas of China. Haiyang Xuebao (in Chinese), 30(2): 169–174
|
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 Applied Phycology, 24(1): 97–108. doi: 10.1007/s10811-011-9654-7
|
Fan Shiliang, Fu Mingzhu, Li Yan, et al. 2012. Origin and development of Huanghai (Yellow) Sea green-tides in 2009 and 2010. Haiyang Xuebao (in Chinese), 34(6): 187–194
|
Fan Shiliang, Fu Mingzhu, Wang Zongling, et al. 2015. Temporal variation of green macroalgal assemblage on Porphyra aquaculture rafts in the Subei Shoal, China. Estuarine, Coastal and Shelf Science, 163: 23–28,
|
Fu Xiaoteng, Dou Jinzhuang, Mao Junxia, et al. 2013. RADtyping: an integrated package for accurate de novo codominant and dominant RAD genotyping in mapping populations. PLoS ONE, 8(11): e79960. doi: 10.1371/journal.pone.0079960
|
Fu Mingzhu, Fan Shiliang, Wang Zongling, et al. 2019. Buoyancy potential of dominant green macroalgal species in the Yellow Sea’s green tides, China. Marine Pollution Bulletin, 140: 301–307. doi: 10.1016/j.marpolbul.2019.01.056
|
Gao Guang, Zhong Zhihai, Zhou Xianghong, et al. 2016. Changes in morphological plasticity of Ulva prolifera under different environmental conditions: a laboratory experiment. Harmful Algae, 59: 51–58. doi: 10.1016/j.hal.2016.09.004
|
Han Wei, Chen Liping, Zhang Jianheng, et al. 2013. Seasonal variation of dominant free-floating and attached Ulva species in Rudong coastal area, China. Harmful Algae, 28: 46–54. doi: 10.1016/j.hal.2013.05.018
|
Han Hongbin, Fan Shiliang, Song Wei, et al. 2020. The contribution of attached Ulva prolifera on Pyropia aquaculture rafts to green tides in the Yellow Sea. Acta Oceanologica Sinica, 39(2): 101–106. doi: 10.1007/s13131-019-1452-0
|
Han Hongbin, Song Wei, Wang Zongling, et al. 2019. Distribution of green algae micro-propagules and their function in the formation of the green tides in the coast of Qinhuangdao, the Bohai Sea, China. Acta Oceanologica Sinica, 38(8): 72–77. doi: 10.1007/s13131-018-1278-1
|
Huo Yuanzi, Han Hongbin, Shi Honghua, et al. 2015. Changes to the biomass and species composition of Ulva sp. on Porphyra aquaculture rafts, along the coastal radial sandbank of the southern Yellow Sea. Marine Pollution Bulletin, 93(1–2): 210–216,
|
Huo Yuanzi, Hua Liang, Wu Hailong, et al. 2014. Abundance and distribution of Ulva microscopic propagules associated with a green tide in the southern coast of the Yellow Sea. Harmful Algae, 39: 357–364. doi: 10.1016/j.hal.2014.09.008
|
Largo D B, Sembrano J, Hiraoka M, et al. 2004. Taxonomic and ecological profile of ‘green tide’ species of Ulva (Ulvales, Chlorophyta) in central Philippines. Hydrobiologia, 512(1): 247–253. doi: 10.1023/B:HYDR.0000020333.33039.4B
|
Lin Apeng, Shen Songdong, Wang Guangce, et al. 2011. Comparison of chlorophyll and photosynthesis parameters of floating and attached Ulva prolifera. Journal of Integrative Plant Biology, 53(1): 25–34. doi: 10.1111/j.1744-7909.2010.01002.x
|
Liu Dongyan, Keesing J K, Xing Qianguo, et al. 2009. World’s largest macroalgal bloom caused by expansion of seaweed aquaculture in China. Marine Pollution Bulletin, 58(6): 888–895. doi: 10.1016/j.marpolbul.2009.01.013
|
Liu Jinlin, Xia Jing, Zhuang Minmin, et al. 2021. Controlling the source of green tides in the Yellow Sea: NaClO treatment of Ulva attached on Pyropia aquaculture rafts. Aquaculture, 535: 736378. doi: 10.1016/J.AQUACULTURE.2021.736378
|
Song Wei, Han Hongbin, Wang Zongling, et al. 2019a. Molecular identification of the macroalgae that cause green tides in the Bohai Sea, China. Aquatic Botany, 156: 38–46. doi: 10.1016/j.aquabot.2019.04.004
|
Song Wei, Peng Keqin, Xiao Jie, et al. 2015. Effects of temperature on the germination of green algae micro-propagules in coastal waters of the Subei Shoal, China. Estuarine, Coastal and Shelf Science, 163: 63–68,
|
Song Wei, Wang Zongling, Li Yan, et al. 2019b. Tracking the original source of the green tides in the Bohai Sea, China. Estuarine, Coastal and Shelf Science, 219: 354–362,
|
Taylor R, Fletcher R L, Raven J A. 2001. Preliminary studies on the growth of selected ‘green tide’ algae in laboratory culture: effects of irradiance, temperature, salinity and nutrients on growth rate. Botanica Marina, 44(4): 327–336. doi: 10.1515/BOT.2001.042
|
Van Inghelandt D, Melchinger A E, Lebreton C, et al. 2010. Population structure and genetic diversity in a commercial maize breeding program assessed with SSR and SNP markers. Theoretical and Applied Genetics, 120(7): 1289–1299. doi: 10.1007/s00122-009-1256-2
|
Wang Shiying, Huo Yuanzi, Zhang Jianheng, et al. 2018. Variations of dominant free-floating Ulva species in the source area for the world’s largest macroalgal blooms, China: differences of ecological tolerance. Harmful Algae, 74: 58–66. doi: 10.1016/j.hal.2018.03.007
|
Wang Yu, Liu Feng, Liu Xingfeng, et al. 2019. Comparative transcriptome analysis of four co-occurring Ulva species for understanding the dominance of Ulva prolifera in the Yellow Sea green tides. Journal of Applied Phycology, 31(5): 3303–3316. doi: 10.1007/s10811-019-01810-z
|
Wang Shi, Liu Pingping, Lv Jia, et al. 2016. Serial sequencing of isolength RAD tags for cost-efficient genome-wide profiling of genetic and epigenetic variations. Nature Protocols, 11(11): 2189–2200. doi: 10.1038/nprot.2016.133
|
Wang Zongling, Xiao Jie, Fan Shiliang, et al. 2015. Who made the world’s largest green tide in China?—An integrated study on the initiation and early development of the green tide in Yellow Sea. Limnology and Oceanography, 60(4): 1105–1117. doi: 10.1002/lno.10083
|
Xu Zhiguang, Wu Haiyi, Zhan Dongmei, et al. 2014. Combined effects of light intensity and NH4+-enrichment on growth, pigmentation, and photosynthetic performance of Ulva prolifera (Chlorophyta). Chinese Journal of Oceanology and Limnology, 32(5): 1016–1023. doi: 10.1007/s00343-014-3332-y
|
Zhang Jianheng, Huo Yuanzi, Zhang Zhenglong, et al. 2013. Variations of morphology and photosynthetic performances of Ulva prolifera during the whole green tide blooming process in the Yellow Sea. Marine Environmental Research, 92: 35–42. doi: 10.1016/j.marenvres.2013.08.009
|
Zhang Qingchun, Yu Rencheng, Chen Zhenfan, et al. 2018. Genetic evidence in tracking the origin of Ulva prolifera blooms in the Yellow Sea, China. Harmful Algae, 78: 86–94. doi: 10.1016/j.hal.2018.08.002
|
Zhao Jin, Jiang Peng, Liu Zhengyi, et al. 2013. The Yellow Sea green tides were dominated by one species, Ulva (Enteromorpha) prolifera, from 2007 to 2011. Chinese Science Bulletin, 58(19): 2298–2302. doi: 10.1007/s11434-012-5441-3
|
Zhao Jin, Jiang Peng, Qin Song, et al. 2015. Genetic analyses of floating Ulva prolifera in the Yellow Sea suggest a unique ecotype. Estuarine, Coastal and Shelf Science, 163: 96–102,
|