Investigation on Water Pollution of Four Rivers in Coastal Wetland of Yellow River Estuary

[Objective] The study aimed at analysing water pollution of four rivers in coastal wetland of Yellow River estuary. [Method] Taking four seriously polluted rivers (Guangli River, Shenxian Ditch, Tiao River and Chao River) in coastal wetland of Yellow River estuary as study objects, water samples were collected from the four rivers in May (dry period), August (wet period) and November (normal period) in 2009 and 2010 respectively, then pollution indices like nutritive salts, COD, chlorophyll-a, petroleum, etc. were measured. Afterwards, the status quo of water pollution was assessed based on Nemero index and comprehensive trophic level index (TLI), so as to find out the integral status quo of water quality of wetland rivers and damages to aquatic ecological environment. [Result] On the whole, water pollution of four rivers in coastal wetland of Yellow River estuary was serious, in the eutrophication state, and the main pollutants were TN, TP, NH+4-N and petroleum. In addition, excessive N and P in the four rivers resulted in water eutrophication of Bohai Bay, so further leading to ride tide, which destroyed the coastal ecological environment of Bohai Sea. Moreover, compared with historical data, water pollution by nitrogen and phosphorus became more serious, while there was no obvious aggravation in the water pollution by petroleum. In a word, water pollution wasn’t optimistic on the whole. [Conclusion] The research could provide theoretical bases for the protection and utilization of river water in coastal wetland of Yellow River estuary and its coastal sea area.

Investigation of Phylogenetic Relationship among Three Species of Channa Based on ITS Sequence Analysis

[ Objective ] This study aimed to analyze genetic variation of ribosomal ITS region sequences in Channa argus, C moculata and C. asiatica, and to in- vestigate the phylogenetic relationship among Charma species based on ITS sequences. [ Method] ITS sequences of three Channa species were amplified by PCR, cloned and assembled to obtain the full length of ITS sequences. [ Result] The full length of ITS sequences of C. argus, C. maculata and C. asiatica was 902, 927, and 902/903 bp, respectively. ITS sequences of C. argus, C. maculata and C. asiatica exhibited higher G ＋ C （72%） than A ＋ T. Interspecific nucleotide differences were significantly greater than intraspecific differences of these three Channa species. Thus, these remarkably differential ITS fragments could be used to identify C. argus, C. maculata and C. asiatica. Phylogenetic tree constructed by Neighbor-joining and Maximum Likehood methods showed that C. argus shared the lowest genetic distance with C. maculata and the highest genetic distance with C. asiatica. [ Conclusion] This study provided reference for classification, i- dentification, phylogenetic analysis and interspecific hybridization of Channa species.