Impact of pond and fence aquaculture on reservoir environment

With the rapid development of aquaculture in lakes and reservoirs, its negative effects on water quality and aquatic organisms are clearly emerging. Toward a better understanding of these effects, chemical and biological monitoring was conducted in the Fangbian Reservoir to study the relationship between aquaculture and eutrophication. As a domestic water supply source, this reservoir has reached the mesotrophic level. The concentrations of total nitrogen （TN） and total phosphorus （TP） in the Fangbian Reservoir have frequently exceeded the prescriptive level according to the Environmental Quality Standardgfor SurJace Water （GB3838-2002）. Pond and fence aquaculture feeding is the main cause of high levels of nitrogen and phosphorus, accounting for nearly half of the total pollution, and causing the reservoir environmental capacity to be exceeded. The amounts of nitrogen and phosphorus that went directly to the reservoir through the residual bait and fish droppings in fence aquaculture were 42 768 kg per year and 10 856 kg per year respectively, from 2007 to 2009. About 2 913 kg of nitrogen and 450 kg of phosphorus were imported to the reservoir through the exchange of water from the culturing ponds at the same time. Therefore, controlling the aquaculture scale and promoting eco-aquaculture are key measures for lessening the eutrophication degree and improving the water quality.

Effects of Rice-Fish Co-culture on Oxygen Consumption in Intensive Aquaculture Pond

Rice-fish co-culture has gained increasing attention to remediate the negative environmental impacts induced by intensive aquaculture. However, the effect of rice-fish co-culture on oxygen depletion has rarely been investigated. We constructed a rice-fish co-culture system in yellow catfish(Pelteobagrus fulvidraco) and freshwater shrimp(Macrobrachium nipponense) ponds using a new high-stalk rice variety, and conducted a field experiment to investigate the effect of rice-fish co-culture on water parameters and oxygen consumption. The results showed that rice-fish co-culture reduced the nutrients(total nitrogen, ammonia-N, total phosphorous and potassium) and the dissolved oxygen content in fish and shrimp ponds. However, they showed similar seasonal change of dissolved oxygen in the water of fish and shrimp ponds. Rice-fish co-culture reduced the total amount of oxygen consumption and optimized the oxygen consumption structure in pond. The respiration rates in water and sediment were significantly reduced by 66.1% and 31.7% in the catfish pond, and 64.4% and 38.7% in the shrimp pond, respectively, by additional rice cultivation. Rice-fish co-culture decreased the proportions of respiration in sediment and water, and increased the proportion of fish respiration. These results suggest that rice-fish co-culture is an efficient way to reduce hypoxia in intensive culture pond.

Remote Monitoring of Expansion of Aquaculture Ponds Along Coastal Region of the Yellow River Delta from 1983 to 2015

Aquaculture ponds are one of the fastest-growing land use types in valuable and fertile coastal areas and have caused serious environmental problems. Quantitative assessment of the extent, spatial distribution, and dynamics of aquaculture ponds is of utmost importance for sustainable economic development and scientific management of land and water resources in the coastal area. An object-oriented classification approach was applied to Landsat images acquired over three decades to investigate the long-term change of aquaculture ponds in the coastal region of the Yellow River Delta. The results indicated that the aquaculture ponds in the study area undergone a sharp expansion from 40.38 km^2 in 1983 to 1406.89 km^2 in 2015, and the fast expansion occurred during the period of 2010–2015 and 1990–2000. Natural wetlands, especially mudflat, and cropland were main land use types contributing to the increase of aquaculture ponds. The patches of aquaculture ponds were consequently prevalence in the north of the Yellow River Estuary and landscape metrics indicated an increase of the aquaculture ponds of the study area in the quantity and complexity. The expansion of aquaculture ponds inevitably had negative effects on the coastal environment, including loss of natural wetlands, water pollution and land subsidence, etc. The results from this study provide baseline data and valuable information for efficiently planning and managing aquaculture practices and for effectively implementing adequate regulations and protection measures.

Annual Variation of Water Quality in Aquaculture Ponds for Apostichopus japonicus

By measuring water temperature,salinity,pH,dissolved oxygen,nitrite and ammonia nitrogen,the annual variation regularity of water quality in the aquaculture ponds for sea cucumbers Apostichopus japonicus in Dalian were studied.Results showed that the physicochemical indicators kept changing in the year,and the various ranges of water temperature,salinity,pH,dissolved oxygen,nitrite,and ammonia nitrogen were 6.38-27.27℃,29.20‰-33.78‰,7.86-8.38,5.19-13.36 mg/L,0.0037-0.0090 mg/L and 0.0171-0.0908 mg/L,respectively.Analysis indicated that there was an extremely significant negative correlation between water temperature and dissolved oxygen(P<0.01),an extremely significant positive correlation between water temperature and ammonia nitrogen(P<0.01),a significant negative correlation between salinity and nitrite(P<0.05),a significant negative correlation between dissolved oxygen and nitrite(P<0.05),and an extremely significant negative correlation between dissolved oxygen and ammonia nitrogen(P<0.01)in the aquaculture ponds for sea cucumber in Dalian.Research showed that the water quality of aquaculture ponds kept fluctuating all the time during the tested period,there were complicated and close relationships among physicochemical indicators,and a slight variation of external factors would bring consecutive reactions to different indicators in the water quality of aquaculture ponds.A reference for the production and management of sea cucumbers could be provided from the results.

Food Supply Values and Their Factors of Three Pond Aquaculture Ecosystems: A Case Study of Shanghai

Studies on food supply values,the basis of eco-service values,and their factors of different pond aquaculture ecosystems are helpful to explain the influences of the inputted factors and their variations among these ecosystems and provide information for stakeholders to adjust their decisions and behaviors to increase their total eco-service values. On the basis of continued records from 2011 to 2012 of 18 ponds of three pond aquaculture ecosystems,namely Litopenaeus vannamei,Macrobrachium nippponensis and carp fresh water pond aquaculture ecosystems in Qingpu,Fengxian,and Jiading,three suburban districts of Shang,this paper analyzed the costs,returns,net food supply values and their regional and temporal fluctuations. The results showed that:(1) the net food supply values of the three ecosystems are 143252. 4,135883. 7,and 52623. 1Yuan /Ha in 2011 correspondently,with the Litopenaeus vannamei pond aquaculture ecosystem(LVPAE) ranking highest and the carp pond aquaculture ecosystem(CPAE) lowest among them,and the trend was same in 2012,but the values decreased than that of 2011 with the rate of 30. 0%( LVPAE),38. 0 %( Macrobrachium nippponensis pond aquaculture ecosystem,MNPAE) and 13. 7 %( CPAE).(2)The dominant factors of the net food supply values of these ecosystems are the produce price and variable costs; fry and feed costs are the main variable factors producing the noticeable difference among the ecosystems.(3) The cost- benefit ratio of per unit product of the CPAE,LVPAE and MNPAE changed from 27. 5%,91. 7%,129. 0% in 2011 to 23. 0%,73. 8% and 63. 8% in 2012,with the CPAE ranked lowest among them in both years.(4) For all the three ecosystems,their net food supply values may not always change in same trends with their net eco-service values,if stakeholders want to keep a balance between these two types of values,MNPAE should be encouraged in these districts.

Water budgets for freshwater aquaculture ponds with reference to effluent volume

This paper presents the consumptive water use for freshwater pond aquaculture for semi-intensive carps farming practices. The consumptive use of water includes evaporation loss, seepage loss and water exchanges requirements. The water requirement has been estimated to be10.3 m3/Kg of fish production under present study for semi-intensive culture and with supplemental feeding. Out of which7.6 m3/Kg of fish production is system associated requirement. On an average the evaporation loss from the pond is1498.3 mm/year and seepage loss per year is about1182.60 mm/year. Seepage and water exchange losses recharge the ground water aquifers and if they are treated and recycled, the water use in aquaculture can be reduced significantly. A further reduction in fresh water use in pond aquaculture is possible through development of intensive and superintensive culture systems and aqua feeds.

Review on Pond Aquaculture Tail Water Treatment Technologies

Carrying out the treatment of aquaculture tail water and realizing the discharge and recycling of the aquaculture tail water are the inevitable trend in the development of the fishery industry at present and in the future.For this reason,this paper reviewed the characteristics of pond aquaculture tail water,the sources of pollutants in intensive aquaculture tail water,the important parameters in the water body that affect the growth of cultured organisms,and the water treatment methods in the process of aquaculture,and prospected from the technical level and industrial policy level,hoping to accumulate data for promoting the green development of aquaculture and cleaner production.

Sample investigation and evaluation of the water quality in aquaculture ponds around the basic farmland protection areas in Foshan city

To investigate the water quality of sampling in aquaculture ponds around the basic farmland protection areas in the five districts of Foshan city, and use the environmental pollution index to evaluate the condition of water quality. The results indicated that water temperature and pH of aquaculture ponds cound meet the requirements of fish normal growth,and dissolved oxygen was rich, but the water quality was over fertilized generally. In 20 investigation spots of the five districts, the content of CODCr, NH4^＋-N and TP exceeded 90%, 30% and 85% respectively. The pollution degrees of the water quality from high to low in aquaculture ponds were Chancheng district,Nanhai district, Sanshui district, Shunde district, Gaoming district. The comprehensive quality index of aquaculture ponds was 1.44 in Foshan city, the water quality was polluted severly as a whole. The share rate of pollution load of TP was the highest, the second were CODCr and NH4^＋-N. On the whole, the pollution of organic matter was very prominent in the water quality of aquaculture ponds around the basic farmland protection areas in Foshan city that had been eutrophicated.

Community Structure of Phytoplankton in Pond Industrial Eco-aquaculture System for Megalobrama amblycephala

In order to find out the change pattern of phytoplankton community structure in pond industrial eco-aquaculture system and explain its ecological mechanism,tests were carried out using Megalobrama amblycephala as aquaculture species with two stocking densities.Shannon-Wiener diversity index and Pielou uniformity index were used to study the phytoplankton community structure in aquaculture area( including low stocking density aquaculture area and high stocking density aquaculture area),inlet area,outlet area,purification area,recirculation area,back area of the pond industrial eco-aquaculture system.The results showed that a total of 92 species of 5 phyla were identified,including 46 species of Chlorophyta,15 species of Cyanophyta,15 species of Euglenophyta,10 species of Bacillariophyta,5 species of Cryptophyta,and 1 species of Pyrrophyta.The numbers of phytoplankton species,biodiversity indexes,uniformity indexes,Chlorophyta biomass and its proportion in total phytoplankton followed the order of inlet area,purification area,recirculation area,back area > low stocking area > high stocking area > outlet area.The total biomass of phytoplankton,Cyanophyta biomass and its proportion in total phytoplankton followed the order of inlet area,purification area,recirculation area,back area < low stocking area < high stocking area < outlet area.However,all these parameters showed no significant differences or change rules among inlet area,purification area,recirculation area,back area.It could be concluded according to the biodiversity that the water quality in outlet area was at middle pollution level,the water quality in high stocking area was in light pollution level,and the water quality in other 5 areas were at clean level,which suggested that the water quality was in good states except that in outlet area,and the pond industrial eco-aquaculture system functioned well.

The Development of a Renewable-Energy-Driven Reverse Osmosis System for Water Desalination and Aquaculture Production

Water and energy are closely linked natural resources - the transportation, treatment, and distribution of water depends on low-cost energy; while power generation requires large volumes of water. Seawater desalination is a mature technology for increasing freshwater supply, but it is essentially a trade of energy for freshwater and is not a viable solution for regions where both water and energy are in short supply. This paper discusses the development and application of a renewable-energy-driven reverse osmosis （RO） system for water desalination and the treatment and reuse of aquaculture wastewater. The system consists of （1） a wind-driven pumping subsystem, （2） a pressure-driven RO membrane desalination subsystem, and （3） a solar-driven feedback control module. The results of the pilot experiments indicated that the system, operated under wind speeds of 3 m s-~ or higher, can be used for brackish water desalination by reducing the salinity of feedwater with total dissolved solids （TDS） of over 3 000 mg L-1 to product water or permeate with a TDS of 200 mg L-~ or less. Results of the pilot experiments also indicated that the system can remove up to 97% of the nitrogenous wastes from the fish pond effluent and can recover and reuse up to 56% of the freshwater supply for fish pond operation.

Microbial Assessment and Antibiotic Susceptibility Profile of Bacterial Fish Isolates in an Aquaculture Production Site in Mefou Afamba Division of Cameroon

The practice of integrated fish farming and the use of local fish meal and manure for fish feeding in Cameroon constitute potential sources of resistant pathogenic bacteria in the fish pond environment.Therefore,a periodical and constant monitoring of the microbiological quality of fish pond is imperative.This study was to assess the microbial contamination of Mfou aquaculture production site and evaluate the antibiotic resistance profile of bacterial fish isolates.Samples of pond water(n=36),sediment(n=36),fishmeal(n=12)and African catfish(Clarias gariepinus),kanga(Heterotis niloticus)and Nile Tilapia(Oreochromis niloticus)(n=36,each)were collected to determine TVAC(Total Viable Aerobic Bacterial Count),FC(Fungal Count),SAC(Staphylococcus aureus count),TCC(Total Coliform Count)and FCC(Feacal Coliform Count).The fish skin isolates of S.aureus,Enterobacter sakazakii,Citrobacter freundii,Serratia fonticola,Klebsiella oxytoca,Proteus spp.,Aeromonas hydrophila,Kluyvera spp.,Moraxella spp.,Pasteurella multocida and Pseudomonas fluorescens were tested against penicillin G(10μg),chloramphenicol(30μg),sulfamethoxazole/trimethoprim(25μg),erythromycin(15μg),tetracycline(30μg),using the disk diffusion method.Results reveal a heavy contamination of fish farms with microbial load above the recommended limits.Our study indicates that fish ponds are sources of zoonotic pathogens underlining their epidemiological and clinical relevance.All bacterial isolates were multiresistant with a multiple antibiotic resistance index above 0.2.These data raise concern about the microbial contamination of aquaculture and associated public health risks in Cameroon.

中国淡水池塘养殖发展的时空格局与前景展望

淡水池塘养殖是我国重要的渔业生产方式,解析其时空发展格局对于研判和把握未来的发展趋势十分必要。本研究以历年来中国渔业统计年鉴数据为基础,对近40年以来(1980-2020年,以5年为间隔;另有2021、2022年)全国31个省级行政单元淡水池塘养殖产量、面积、单产、占渔业总产量的比例进行了统计分析。结果表明:(1)养殖产量总体呈持续增加趋势,但增长率波动式放缓,1980-2020年增长率从181.9%下降至12.0%,2020-2022年均值为2348.3万吨,平均增长率为2.9%;(2)养殖面积亦呈持续增加趋势,但增长率波动式放缓,从53.1%下降至4.8%,2020-2022年均值261.8万hm^(2),平均增长率为0%;(3)单产总体呈波动式增长,但增长率从82.8%逐步下降至13.7%,2020-2022年均值604.7 kg/667 m^(2),平均增长率为2.4%;(4)各省淡水池塘养殖产量占渔业总产量比重的均值呈先上升后逐渐持平的趋势,1995-2022年波动持平变幅在44.6%~49.0%。受水土资源和环境保护刚性约束,当前淡水池塘养殖发展亟需从数量规模型向质量效益型转变,生态-经济合作型渔业综合体将是未来高质量发展的重要途径。

洪湖周边三种典型养殖类型池塘浮游植物群落特征及其与环境因子的关系

不同养殖水体浮游植物群落结构和丰度的变化,可反映水质和水产品状态,认识其变化特征和驱动力,对养殖管理和尾水处理有重要的指导意义。本研究于2019-2020年在洪湖养殖区域选择了三种典型养殖类型池塘(克氏原螯虾、中华绒螯蟹、大宗淡水鱼,以下分别简称为龙虾塘、河蟹塘和鱼塘),解析了各类型池塘浮游植物的物种组成、细胞密度、生物量和多样性的季节变化趋势。结果显示:(1)共检测到浮游植物132种,隶属于7门96属。浮游植物细胞密度和生物量总体趋势为鱼塘>河蟹塘>龙虾塘,年平均细胞密度分别为1.06×10^(8)、6.04×10^(7)和2.35×10^(7)cell/L,年平均生物量(叶绿素a表示)分别为94.82、65.95和31.15μg/L。(2)三种养殖模式池塘中浮游植物群落结构具有显著性差异,并具有明显的季节演替。春夏两季中龙虾塘与河蟹塘的浮游植物群落结构组成更为相似,而秋冬两季中河蟹塘与鱼塘更为相似。龙虾塘和河蟹塘浮游植物多样性指数和均匀度指数均在收获季节(龙虾为夏季,河蟹为秋季)最低。(3)冗余分析结果表明温度(Temp)、溶氧(DO)、pH和溶解性总磷(DTP)是影响养殖池塘中浮游植物群落组成的主要环境因子。多元线性回归模型显示,不同季节中解释浮游植物生物量变化的主要因素不同,春季和秋季为总氮(TN)和养殖动物类型,冬季为TP、DTP、NH_(4)^(+)-N。鉴于各养殖类型在排水季节的浮游植物优势类群变动,建议加强养殖尾水监控,以预判尾水种源迁移对邻近水域的潜在影响。

水稻浮床对养殖池塘水质净化效果研究

为研究水稻对养殖池塘水质净化效果及对鱼类产量的影响,设计2个处理,分别为水稻浮床组(试验组)和常规养殖组(对照组)。试验期间,定期检测2个试验池塘水质理化指标,试验结束后统计养殖鱼类产量、成活率及水稻产量。结果表明:试验组平均水温略低于对照组,透明度(SD)高于对照组;试验初期,试验组溶解氧(DO)含量高于对照组,中后期DO含量低于对照组。水稻浮床对养殖池塘水体总磷(TP)、总氮(TN)、氨氮(NH_(4)^(+)-N)、亚硝酸盐氮(NO_(2)^(-)-N)、化学耗氧量(COD_(Mn))的平均去除率分别为30.6%、29.6%、27.9%、21.0%和15.6%。试验组不同养殖鱼类成活率均高于对照组,养殖鱼类产量22557.15 kg/hm^(2),浮床水稻产量5234.57 kg/hm^(2)。

淡水池塘养殖尾水处理技术研究综述

为实现水产养殖业节能减排、低碳高效和可持续发展,必须解决传统池塘养殖尾水处理问题。根据典型池塘养殖尾水污染物特性,全面总结国内外淡水池塘养殖尾水的处理方法和技术特点;对比了“三池两坝”“集装箱+生态塘”“生态湿地”等典型池塘养殖尾水处理模式;分析了竖流沉淀、旋流分离、滤筛、气浮等物理净化技术以及臭氧-微纳米浮选、絮凝、微生物制剂、活性污泥、新型生物膜反应器过滤、水生植物等化学及生物净化技术;指出了该领域的热点研究方向和关键技术问题,包括发展“节能、减排、生态、高效”集约化池塘养殖模式、研发养殖尾水专用处理装备、提高净化效率和减少占地面积等,可为池塘养殖尾水处理技术及相关装备研发提供一定的理论参考。

水产养殖作业船转塘装置的设计

水产养殖作业船可以用于水草清理、饵料投放、施药、水质监测等,其工作范围不只限于单块水塘,但相邻水塘共用时往往需要通过人力来实现养殖作业船的转塘,这一过程费时费力。对此,设计一种养殖作业船转塘装置,通过两侧齿轮与架空齿条的啮合及底部滚轮与转移轨道的导向来形成对作业船的三点支撑。为保证养殖作业船能无阻碍地通过堤坝,特地设计计算了架空齿条上坡段、水平段和下坡段的高度和角度。将养殖作业船的螺旋桨改造成明轮,其为转塘爬坡提供动力的同时也能有效防止水草缠绕。现有应用表明,该装置大大提升了水产养殖过程中的转塘效率,既提高了作业船的利用率,也降低了总体投入成本,因此具有一定的推广价值。

养殖池塘水体原位修复技术研究进展

我国作为全球水产养殖大国,养殖规模和产量均居世界首位。池塘养殖是我国最主要的水产养殖模式,在保障优质动物蛋白供给、促进农业增效和农民增收等方面发挥重要作用。随着养殖集约化水平不断提高,养殖密度持续增加,大量饲料投入和动物排泄等导致养殖池塘水体富营养化严重,大量氨氮和亚硝酸盐等不仅污染养殖水体,还会严重危害水产动物健康,导致病害频发、药物滥用、食品安全等一系列问题,给水产养殖绿色可持续发展带来严重挑战,亟需进行养殖池塘水体修复处理。目前,对养殖水体的修复技术主要分为原位修复和异位修复。相较于异位修复,原位修复技术具备节约资源、成本低、无交叉污染等优势,因此具有广阔的应用前景。基于此,该文首先概述了我国养殖池塘水体污染物的主要来源、特征和危害;其次,从物理、化学和生物处理技术3个方面总结了我国养殖池塘水体原位修复技术的研究进展,并详细阐述其技术原理、适用范围、应用效果及优缺点;最后,指出当前池塘养殖水体原位修复存在的主要问题,对未来的研究方向进行展望,并提出一种单塘循环生态养殖模式,为养殖池塘水体修复的未来研究和应用提供参考。

面向池塘圈养模式的气液混合泵的参数优化及增氧试验

为探究气液混合泵能否满足在高密度养殖条件下养殖对象对水体溶氧的需求,基于气液(氧气-水)混合泵搭建溶氧试验平台,在不同水温、不同出水压力和不同气水体积比的条件下,测试气液混合泵溶氧性能,并在池塘圈养桶(直径4 m,高2 m,养殖水体体积20 m^(3))内进行增氧试验。溶氧性能测试结果显示:当出水压力为0.25 MPa、气水体积比为0.01~0.05时,在不同水温(5.6、13.5、30.3)条件下出水溶解氧与水温成反比,溶解氧在47.93~20.60 mg/L变化;氧气吸收效率与气水体积比呈反比,氧气吸收效率在91%~33.7%变化;动力效率与气水体积比成正比,动力效率在22.32~55.12 kg/(kW·h)变化。基于圈养桶的增氧试验结果显示,在有鱼耗氧的条件下(黄颡鱼,单个桶内养殖密度为13.19~16.49 kg/m^(3)),使用功率3 kW的气液混合泵为4个圈养桶增氧时,每个桶内水体溶解氧在光照时间内可达11 mg/L,夜间稳定保持在8 mg/L以上。试验结果表明气液混合泵可应用于高密度的水产养殖,并能有效应对夏季高温供氧难题。

基于宏基因组学的中华绒螯蟹养殖池塘水体微生物群落结构和功能组成分析

养殖水体中的微生物群落结构及功能组成对养殖生态系统具有重要作用。为了全面系统评估中华绒螯蟹(Eriocheirsinensis)养殖中后期水体微生物群落结构和功能组成,于2022年6―10月逐月监测上海市崇明区中华绒螯蟹养殖池塘内水质指标,同时基于宏基因组学技术分析了养殖期内水体中微生物物种组成及功能结构特征,并探讨了二者与环境因子的关系。结果显示,该养殖池塘在养殖中后期主要超标水质指标为p H、高锰酸盐指数、总磷和总氮。在养殖期水体中,6―8月的微生物群落多样性以及7―8月的微生物群落丰富度处于较高水平,优势门为细菌中的变形菌门(Proteobacteria)、拟杆菌门(Bacteroidetes)、放线菌门(Actinobacteria)、疣微菌门(Verrucomicrobia)、蓝细菌门(Cyanobacteria)和病毒中的尾噬菌体门(Uroviricota),而在属水平上,丰度占比前10的优势属在多组之间均存在显著差异,如7月蓝藻门微囊藻属(Microcystis)细菌和8―10月的有尾噬菌体目(unclassified_o_Caudovirales)病毒丰度明显高于其他月份。微生物的主要功能为代谢功能包括能量代谢、全局和概览图、氨基酸代谢等,不同月份的功能组成存在显著差异,尤其是6―7月代谢途径丰度明显高于8―10月,而优势细菌变形菌门、放线菌门和拟杆菌门是上述功能的主要贡献者。环境因子对微生物群落结构和功能组成的影响趋势一致,叶绿素a和pH是影响最显著的环境因子,溶解氧、总磷的影响作用稍弱。在养殖水体中,丰度占比较大的致病菌为肠道沙门氏菌(Salmonella enterica)、爱德华氏菌(Edwardsiella ictaluri)和金黄色葡萄球菌(Staphylococcus aureus)。研究结果可为中华绒螯蟹养殖池塘水体微生物群落结构和功能组成研究提供基础数据,并可为养殖水质调控及生态系统构建提供理论依据。

基于形态学和宏基因组学的养殖蟹塘浮游植物群落分析

为全面准确评估中华绒螯蟹(Eriocheir sinensis)养殖池塘中后期水体浮游植物群落结构特征及其与环境因子的关系,于2022年6—10月逐月监测水质指标,同时采用基于形态学和宏基因组学的人工镜检和高通量测序两种方法分析浮游植物的群落结构特征,探讨浮游植物优势种与环境因子的关系。结果显示,人工镜检鉴定的浮游植物共4门65种,而高通量测序数据分析所得浮游植物共4门1463种,其中人工镜检鉴定的优势种为蓝藻门的水华微囊藻(Microcystis flos-aquae)、细小隐球藻(Aphanocapsa elachista)以及硅藻门的中肋骨条藻(Skeletonema costatum),而高通量测序数据分析所得优势种为蓝藻门的水华束丝藻(Aphanizomenon flos-aquae)、铜绿微囊藻(M.aeruginosa)。人工镜检方法计算所得多样性指数普遍低于高通量测序结果。两种方法共同分析得出溶解氧(DO)、叶绿素a(Chl-a)、总氮(TN)和氨氮(NH3-N)是影响浮游植物群落结构的关键环境因子。建议采用人工镜检与高通量测序法相结合的方式分析养殖期间的浮游植物群落结构,以便更全面、准确地评估养殖生态系统中的浮游植物群落结构特征及其与环境因子的关系。