1.Kang W, Wang Z H#, 2018. Identification of a marine woloszynskioid dinoflagellate Biecheleriopsis adriatica and germination of its cysts from southern Chinese coasts. Journal of Environmental Science, 66: 246-254.
2.Wang Z H#, Liang WB, Guo X, Liu L. 2018. Inactivation of Scrippsiella trochoidea cysts by different physical and chemical methods: Application to the treatment of ballast water. Marine Pollution Bulletin, 126: 150-158.
3.Wang Z H#, Guo, X, Zhang, K, Lu, X.X., 2017. Environmental changes in Jiaozhou Bay of northern China during the past 90 years using metals and biogenic elements in sediments. Journal of Environmental Sciences, 53: 301-312.
4.Wang Z H#, Guo X., Ou LJ, Lin LC. 2017. Effects of nitrogen and phosphorus on the growth of Levanderina fissa: How it blooms in Pearl River Estuary. Journal of Ocean University of China, 16: 114-120.
5.Lu XX, Wang Z H#, Gu YG, Guo X, Liang W B, Liu L. 2017. Impacts of metal contamination and eutrophication on dinoflagellate cyst assemblages along the Guangdong coast of southern China. Marine Pollution Bulletin, 120:239-249.
6.Lu X X, Wang Z H#, Feng J, 2017. Sedimentary records of recent anthropogenic eutrophication and metal contamination in Zhelin Bay, an important mariculture area in Southern China. Marine Pollution Bulletin, 114: 1118-1124.
7.Jiang T, Chen F, Yu Z, Lu L, Wang Z H#, 2016, Size-dependent depletion and community disturbance of phytoplankton under intensive oyster mariculture based on HPLC pigment analysis in Daya Bay, South China Sea. Environmental Pollution, 219: 804-814.
8.Wang Z H#, Lu, X.X., Zhang, K., 2016. Distribution and contamination of metals and biogenic elements in sediments from Zhifu Bay of the Yellow Sea, China. Journal of Environmental Science-China, 41: 6-15.
9.Wang Z H#, Feng J, Nie XP. 2015, Recent environmental changes reflected by metals and biogenic elements in sediments from the Guishan Island, the Pearl River Estuary, China. Estuarine, Coastal and Shelf Science, 164: 493-505.
10.Wang Z H#, Liang Y. 2015, Growth and alkaline phosphatase activity of Chattonella marina and Heterosigma akashiwo in response to phosphorus limitation. Journal of Environmental Science-China, 28:1-7.
11.Wang Z H#, Yue W, 2015, Removal of Cypermethrin with Seaweed Gracilaria lemaneiformis. J. Ocean Univ. China, 14 (5):858-864.
12.Wang Z H#, Song S H, Qi Y Z. 2014, A comparative study of phytoneuston and the phytoplankton community structure in Daya Bay, South China Sea. Journal of Sea Research, 85: 474–482.
13.Wang Z H, Feng J, Jiang T, Gu Y G. 2013, Assessment of metal contamination in surface sediments from Zhelin Bay, the South China Sea. Marine Pollution Bulletin, 76: 383–388.
14.Wang Z H, Fu Y H, Kang W, Liang J F, Gu Y G, Jiang X L. 2013, Germination of phytoplankton resting cells from surface sediments in two areas of the Southern Chinese coastal waters. Marine Ecology, 34: 218–232.
15.Wang Z H#, Nie X P, Yue W J, Li X. 2012, Physiological responses of three marine microalgae exposed to cypermethrin. Environmental Toxicology, 27: 563-572.
16.Gu Y G, Wang Z H#, Lu S H, Jiang, S J, Mu D H, Shu Y H. 2012, Multivariate statistical and GIS-based approach to identify source of anthropogenic impacts on metallic elements in sediments from the mid Guangdong Coasts, China. Environmental Pollution, 163: 248-255.
17.Wang Z H#, Liang Y, Kang W. 2011, Utilization of dissolved organic phosphorus by different groups of phytoplankton taxa. Harmful Algae, 12, 113–118.
18.Wang Z H#, Nie X P, Yue W J. 2011, Toxicological effects of cypermethrin to marine phytoplankton in a co-culture system under laboratory conditions. Ecotoxicology, 20(6): 1258-1267.