研究組組長:甘南琴研究員
學科組成員:宋立榮(研究員)�����、張學治(研究員)�、李林(副研究員)�����、賈云璐(副研究員)��、張海陽(副研究員)�����、劉津(實驗師)���、李靜(助理實驗師)
博士后:沙君��、熊倩��、Muhammad Mubashar�、程紹哲
博士研究生:江婧宇、許保林���、郭小和�����、李莉莉���、王子敏、Rabail Zulekha�����、Muzammil Sultan
碩士研究生:孫儀陳��、李姝妤��、李小璐���、馮晨彤��、葉飛燕�����、余游�����、徐夢繁�、馬進����、龔子超、張延文��、冷月�����、趙婧���、陳鑫����、張楠、彭啟東��、戴熙偉
招生導師及招生方向:
博導:甘南琴(碩士���、博士:水生生物學)
????? 張學治(碩士:環(huán)境工程?? 博士:環(huán)境科學)
碩導:李林(碩士:水生生物學)�,賈云璐(碩士:水生生物學)�����,張海陽(碩士:環(huán)境工程)
研究組介紹:
重點開展的研究方向:
1�����、藻類資源挖掘與應用
2����、藻類生理生態(tài)學
3、有害藻類安全控制技術
主要研究領域與研究內(nèi)容:
1�、藻類資源挖掘與應用:從不同生境分離、篩選和評價新型藻類資源�����,研究和發(fā)展規(guī)模養(yǎng)殖的成套技術及經(jīng)濟高效的藻水分離技術,推進建立“新能源技術+藻類培養(yǎng)+產(chǎn)物循環(huán)利用”新型產(chǎn)業(yè)模式��。
2���、藻類生理生態(tài)學:認識藻類適應環(huán)境變化的生理生態(tài)響應與反饋機制����,研究水華優(yōu)勢藻類適應性進化策略�,探討藻類次生代謝產(chǎn)物的生物學功能;發(fā)展基于機器視覺及人工智能的藻類AI監(jiān)測預警技術����。
3����、有害藻類安全控制技術:建立有害藻類污染物(藍藻毒素和異味物質)監(jiān)測技術體系;開展有害藻類污染物的脫毒與防控關鍵技術研發(fā)����;發(fā)展有害藻類水華生態(tài)風險識別及治理新技術;研發(fā)水華藻類生物質的綠色資源化利用技術����。
在研項目(部分):
國家重點研發(fā)計劃:
庫內(nèi)藻類生物量削減與調(diào)控技術����,2022-2026
典型水產(chǎn)養(yǎng)殖系統(tǒng)碳傳遞特征及微藻碳減排關鍵技術研發(fā)與集成示范���,2023-2025
人工噬藻體控藻降毒效能測試及評估���,2019-2024?
國家自然科學基金:
連續(xù)低強度氧化脅迫觸發(fā)水華藍藻死亡的級聯(lián)響應過程及機制研究,2024-2026
鞘藻目的系統(tǒng)分類學研究2024-2026
淡水有毒微囊藻的鹽脅迫應答和適應過程研究 2022-2024
產(chǎn)毒藍藻應對二氧化碳濃度變化的基因演變和生理響應,2021-2024?
地方政府:
云南省項目:新型藻類水華的生態(tài)風險與控制技術研究���,2023-2024
丹江口市浪河鎮(zhèn)人民政府����,浪河小流域水環(huán)境綜合治理方案編制項目�,2024
湖北省重點研發(fā):藍藻生物質處置與資源利用技術,2022-2024
貴陽省項目:草海藻類生長監(jiān)測評估與防控技術研究���,2021-2024
江蘇省項目:藍藻水華生物質評價及生產(chǎn)水產(chǎn)飼料資源化技術�,2022-2024?
企業(yè)項目:
循環(huán)水養(yǎng)殖系統(tǒng)土霉異味削減技術研發(fā),2023-2024
水廠土霉異味來源識別與控制對策研究�,2024-2025
代表性論文(近3年):
2024
1.??Nian Wei,Chenlin Hu,Elke Dittmann,Lirong Song,Nanqin Gan*,The biological functions of microcystins. Water Research,2024 (minor revision)
2.???Jingyu Jiang,Jiaying Zeng,Jingkai Wang,Jun Zuo,Nian Wei,Lirong Song,Kun Shan*,Nanqin Gan*,Changes in CO2 concentration drive a succession of toxic and non-toxic strains of Microcystis blooms. Water Research,2024(250):121056
3.???Yang Siyu,Zuo Jun*,Hans-Peter Grossart,Guofei Dai,Jin Liu,Lirong Song,|Gan Nanqin*,Evaluating microcystinase A-based approach on microcystins degradation during harvested cyanobacterial blooms. Environmental Pollution,2024,123878
4.??Li L.,Xue S.,Zhang Y.,Gao Y.,Yang J.,Zhang X.*,Zhang W*. A Chemical-free magnetophoretic approach for recovering magnetic particles in microalgae removal through magnetic separation. Journal of Cleaner Production,2024.
5.??Li L.,Chen X.,Shao S.,Zhang X.,Zhang H*. Study on the mechanism of hydrodynamic manipulation of floc structure to achieve high-flux of coagulation macro-filtration for the rapid removal of Aphanizomenon flos-aquae. Journal of Cleaner Production,2024,434: 140397.
6.??Cheng S.,Zhang H.,Wang H.,Mubashar M.,Li L.,Zhang X*. Influence of algal organic matter in the in-situ flotation removal of Microcystis using positively charged bubbles. Bioresource Technology,2024,397: 130468.
7.??Wang H.,Li L#.,Cheng S.,Chen L., Zhang H.,Zhang X*. Production and release of 2-MIB in Pseudanabaena: Effects of growth phases on cell characteristics and 2-MIB yield. Ecotoxicology and Environmental Safety, 2024,274: 116198.
8.???Zhang H.,Li L.,Ding W.,Cheng Z.,Lin Z.,Zhu L*., Zhang X*. Effect mechanism of metal cations on the interface interaction of cell-collector-bubble for microalgal foam flotation. Chemosphere,2024,349: 140899.
2023
9.??Lirong Song#?,Yunlu Jia#,Boqiang Qin,?Renhui Li,Wayne W. Carmichael,?Nanqin Gan,?Hai Xu,?Kun Shan,?and Assaf Sukenik. Harmful cyanobacterial blooms: biological traits,mechanisms,risks,and control strategies. Annual Review of Environment and Resources,2023,48: 123-147.
10.?Liang Zhao,Li-Zhou Lin,Ying Zeng,Wen-Kai Teng,Meng-Yun Chen,Jerry J. Brand,Ling-Ling Zheng,Nan-Qin Gan,Yong-Hui Gong,Xin-Yi Li,Jin Lv,Ting Chen,Bo-Ping Han*,Li-Rong Song* & Wen-Sheng Shu*.The facilitating role of phycospheric heterotrophic bacteria in cyanobacterial phosphonate availability and Microcystis bloom maintenance. Microbiome,2023,11(1):1-16
11.??Nian Wei,Aifa Chen,Xiaohe Guo,Shubing Zhang,Lirong Song,Nanqin Gan,Lingling Zheng,Yunlu Jia*,Jie Li*. Changes in nitrogen metabolism of phosphorus-starved bloom-forming cyanobacterium Microcystis aeruginosa: Implications for nutrient management. Science of The Total Environment,2023,903: 166832.
12.?Fang Bai,Yunlu Jia*,Jie Li,Zhongxing Wu,Lin Li,Lirong Song*. Paraquat induces different programmed cell death patterns in Microcystis aeruginosa and Chlorella luteoviridis. Ecotoxicology and Environmental Safety,2023,249: 114429.
13.??Fang Bai,Guangbin Gao,Tianli Li,Jin Liu,Lin Li,Yunlu Jia*,Lirong Song. Integrated physiological and metabolomic analysis reveals new insights into toxicity pathways of paraquat to Microcystis aeruginosa. Aquatic Toxicology,2023,259: 106521.
14.?Zhang H.,Li L.,Cheng S.,Li C.,Liu F.,Wang P.,Sun L.,Huang J.,Zhang W.*,Zhang X*. Enhanced Microcystis aeruginosa removal and novel flocculation mechanisms using a novel continuous co-coagulation flotation (CCF). Science of the Total Environment,2023,857(Pt 2):159532.
15.?Zhang H.,Li C.,Li L.,Cheng S.,Wang P.,Sun L.,Huang J.,Zhang X*. Uncovering the optimal structural characteristics of flocs for microalgae flotation using Python-OpenCV. Journal of Cleaner Production,2023,385: 135748.
16.??Liu M.,Li L.,Mubashar M.,Su X.,Liang Y., Zhang H.,Zhang X*. Techno-economic analysis for the selection of cost-effective treatment for algae removal in drinking water treatment plants [J]. Water,2023,15(2):243.
17.?Liu M.,Zhang J.,Wang L., Zhang H.,Zhang W.*,Zhang X*. Removal of Microcystis aeruginosa and microcystin-LR using chitosan (CTS)-modified cellulose fibers and ferric chloride. Separation and Purification Technology,2023,308: 122889
18.??Li L.,Zhang H.,Mubashar M.,Chen L.,Cheng S.,Zhang X*. Parallel filtration for solid-liquid separation: A case study of highly-efficient algal removal under parallel configuration driven by magnetic force. Separation and Purification Technology,2023,310: 123098
2022
19.??Chen,Meng-Yun,Wen-Kai Teng,Liang Zhao,Bo-Ping Han*,Li-Rong Song*,and Wen-Sheng Shu*. Phylogenomics Uncovers Evolutionary Trajectory of Nitrogen Fixation in Cyanobacteria. Molecular Biology and Evolution,2022,39: msac171
20.??Zhao,Liang,Li-Zhou Lin,Meng-Yun Chen,Wen-Kai Teng,Ling-Ling Zheng,Liang Peng,Jin Lv,Jerry J. Brand,Chun-Xiang Hu,Bo-Ping Han*,Li-Rong Song*,and Wen-Sheng Shu*. The Widespread Capability of Methylphosphonate Utilization in Filamentous Cyanobacteria and Its Ecological Significance. Water Research,2022,217: 118385
21.??Wei Huimin#,Yunlu Jia*,and Zhi Wang. Microcystin Pollution in Lakes and Reservoirs: A Nationwide Meta-Analysis and Assessment in China. Environmental Pollution,2022,309: 119791
22.??Yunlu Jia,Yi Huang,Jin Ma,Shangwei Zhang,Jin Liu,Tianli Li,and Lirong Song. Toxicity of the Disinfectant Benzalkonium Chloride (C14) Towards Cyanobacterium Microcystis Results from Its Impact on the Photosynthetic Apparatus and Cell Metabolism. Journal of Environmental Sciences. 2022
23.??Yang,Zihan,Baolin Xu,Jin Liu,Jiao Zhan,and Lirong Song. Dynamic Changes of Growth and Physiological Parameters of Spirulina Cultivated Outdoors—a Case Study in Spirulina Industrial Park in Inner Mongolia,China. Journal of Applied Phycology,2022,34: 1163-75
24.??Zang X.,Zhang S.,Li L.,Wang G.,Zhang H.*,Zhang X*. Effects of extracellular organic matter on chitosan coagulation-microfiltration harvesting of Microcystis flos-aquae. Separation and Purification Technology,2022,287: 120548
25.??Nie X.,Zhang H.#,Cheng S.,Mubashar M.,Xu C.,Li Y.,Tan D.,Zhang X*. Study on the cell-collector-bubble interfacial interactions during microalgae harvesting using foam flotation. Science of the Total Environment,2022,806(Pt 4):150901.
26.??Mubashar M.,Zhang J.,Liu Q.,Chen L.,Li J.,Naveed M.,Zhang X*. In-situ removal of aquaculture waste nutrient using floating permeable nutrient uptake system (FPNUS) under mixotrophic microalgal scheme. Bioresource Technology,2022,363: 128022.
27.??Li L., Yu T.#, Cheng S., Li J., Li C., Wang G., Tan D., Li L., Zhang H.*, Zhang X*. Removal of cyanobacteria using novel pre-pressurized coagulation: The effect of cellular properties and algogenic organic matter characteristics. Separation and Purification Technology, 2022, 282: 119927.
28.??Cheng S., Zhang H.#, Li L., Yu T., Wang Y., Tan D., Zhang X*. Harvesting of Microcystis flos-aquae using dissolved air flotation: The inhibitory effect of carboxyl groups in uronic acid-containing carbohydrates. Chemosphere, 2022, 300: 134466.
