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第 3 期罗松松等：水产养殖尾水处理技术研究进展 393

on the factors influencing mariculture wastewater treat- ［106］ Ngoc P T A, Meuwissen M P M, Le C T, et al. Eco-
ment by constructed wetland: a review[J]. Journal of nomic feasibility of recirculating aquaculture systems in
Dalian Ocean University, 2023, 38(5): 902 − 912. pangasius farming[J]. Aquaculture Economics & Man-
［ 98 ］齐丹，公维洁，谭媛，等. 潜流型人工湿地系统对海 agement, 2016, 20(2): 185 − 200.
洋富营养化水体的净化效果 [J]. 海南热带海洋学院［107］ Rizvi O S, Ikhlaq A, Ashar U U, et al. Application of
学报，2018，25（5）：28 − 33. poly aluminum chloride and alum as catalyst in catalyt-
Qi D, Gong W J, Tan Y, et al. Purification effect of ic ozonation process after coagulation for the treatment
subsurface flow constructed wetland system on marine of textile wastewater[J]. Journal of Environmental
eutrophic water[J]. Journal of Hainan Tropical Ocean Management, 2022, 323: 115977.
University, 2018, 25(5): 28 − 33. ［108］ Ma X Y, Du Y L, Peng W Q, et al. Modeling the im-
［ 99 ］ Li B, Jia R, Hou Y R, et al. The sustainable treatment pacts of plants and internal organic carbon on remedi-
effect of constructed wetland for the aquaculture efflu- ation performance in the integrated vertical flow con-
ents from blunt snout bream (Megalobrama amblyceph- structed wetland[J]. Water Research, 2021, 204:
ala) farm[J]. Water, 2021, 13(23): 3418. 117635.
［100］ Deng Y Y, Zou M Y, Liu W, et al. Antibiotic removal ［109］ Lin Y F, Jing S R, Lee D Y, et al. Removal of solids
and microbial response mechanism in constructed wet- and oxygen demand from aquaculture wastewater with
lands treating aquaculture wastewater containing veter- a constructed wetland system in the start-up phase[J].
inary drugs[J]. Journal of Cleaner Production, 2023, Water Environment Research, 2002, 74(2): 136 − 141.
394: 136271. ［110］ Davidson J, Good C, Welsh C, et al. Heavy metal and
［101］ Liu S T, Zhang Y C, Feng X J, et al. Current problems waste metabolite accumulation and their potential ef-
and countermeasures of constructed wetland for fect on rainbow trout performance in a replicated water
wastewater treatment: a review[J]. Journal of Water reuse system operated at low or high system flushing
Process Engineering, 2024, 57: 104569. rates[J]. Aquacultural Engineering, 2009, 41(2): 136 −
［102］ Tom A P, Jayakumar J S, Biju M, et al. Aquaculture 145.
wastewater treatment technologies and their sustainabil- ［111］ Freitag A R, Thayer L R, Leonetti C, et al. Effects of
ity: a review[J]. Energy Nexus, 2021, 4: 100022. elevated nitrate on endocrine function in Atlantic sal-
［103］ Stevčić Č, Pulkkinen K, Pirhonen J. Screening of mi- mon, Salmo salar[J]. Aquaculture, 2015, 436: 8 − 12.
croalgae and LED grow light spectra for effective re- ［112］ Huyben D, Bevan D, Stevenson R, et al. Evaluation of
moval of dissolved nutrients from cold-water recirculat- membrane filtration and UV irradiation to control bac-
ing aquaculture system (RAS) wastewater[J]. Algal terial loads in recirculation aquaculture systems[J].
Research, 2019, 44: 101681. Aquaculture International, 2018, 26(6): 1531 − 1540.
［104］ Davidson J, Helwig N, Summerfelt S T. Fluidized sand ［113］ Mook W T, Chakrabarti M H, Aroua M K, et al. Re-
biofilters used to remove ammonia, biochemical oxy- moval of total ammonia nitrogen (TAN), nitrate and
gen demand, total coliform bacteria, and suspended total organic carbon (TOC) from aquaculture wastewa-
solids from an intensive aquaculture effluent[J]. Aqua- ter using electrochemical technology: a review[J]. De-
cultural Engineering, 2008, 39(1): 6 − 15. salination, 2012, 285: 1 − 13.
［105］ Pham T T H, Cochevelou V, Dinh H D K, et al. Imple- ［114］ Gerek E E, Yılmaz S, Koparal A S, et al. Combined en-
mentation of a constructed wetland for the sustainable ergy and removal efficiency of electrochemical waste-
treatment of inland shrimp farming water[J]. Journal of water treatment for leather industry[J]. Journal of Wa-
Environmental Management, 2021, 279: 111782. ter Process Engineering, 2019, 30: 100382.

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