三峡库区支流富营养化及水华现状研究

三峡水库蓄水以来，库区支流水体营养状态、藻类生物量及群落结构发生明显改变，对不同蓄水阶段研究表明：库区支流富营养化程度加重，且时空差异显著，春、夏季富营养化程度严重，秋、冬季节相对较轻.整体上由蓄水前的贫 中营养状态转变为中 富营养状态。由于库区支流营养盐浓度高且蓄水前后相对稳定，对藻类生长不形成限制，因此支流富营养化加重的原因是蓄水后库区支流流速减缓，使得透明度增加，水体透光性增加，藻类生长环境改善，从而使生物量大幅度增加，库区支流藻类水华频繁发生，且优势种类趋向于多样化，硅藻、甲藻、隐藻、蓝藻、绿藻都可成为水华优势种，且整体组成呈现硅藻、甲藻下降，蓝藻、绿藻、隐藻上升的态势，演替趋势总体上由河流型向湖泊型转变。但随着蓄水位的上升，水华发生比率总体上有所降低     

城市湖泊有机质氮同位素差异及其对水污染的指示作用分析

如何对湖泊生态环境修复效果进行评价是当前湖泊生态修复工作的难点所在，以武汉市内不同修复状态湖泊为研究对象，通过分析湖泊水体营养盐浓度、水质类别、综合营养状态指数TLI（Σ）与湖泊不同有机质δ15N的关系，探讨以水体中某一有机质δ15N指示城市湖泊水污染状态，进而作为湖泊修复效果评价指标的可行性。结果表明：武汉南湖、东湖、内沙湖水质分别为劣Ⅴ类、Ⅳ类、Ⅲ类；水体富营养化程度分别为重度富营养、轻度富营养、中营养；南湖有机质δ15N均值最高为13.193‰（8.394‰~19.380‰）；东湖δ15N次之为8.191‰（5.162‰~13.488‰）；内沙湖δ15N最低为2.940‰（0.001‰~6.433‰）。不同湖泊有机质δ15N与表层水 c(TN)、c(DIN)、c(NH+4-N)、c(TP)、水质类别和TLI（Σ）呈正相关趋势，其中悬浮有机质、沉水植物δ15N与水污染参数的相关性最为显著，均能有效表征城市湖泊水污染状态；为了采样的简便性及样品的通用性，建议以悬浮有机质δ15N作为城市湖泊水污染状态及水环境治理效果的快速评价指标。     

城市湖泊有机质氮同位素差异及其对水污染的指示作用分析

如何对湖泊生态环境修复效果进行评价是当前湖泊生态修复工作的难点所在,以武汉市内不同修复状态湖泊为研究对象,通过分析湖泊水体营养盐浓度、水质类别、综合营养状态指数TLI(Σ)与湖泊不同有机质δ~(15)N的关系,探讨以水体中某一有机质δ~(15)N指示城市湖泊水污染状态,进而作为湖泊修复效果评价指标的可行性。结果表明:武汉南湖、东湖、内沙湖水质分别为劣Ⅴ类、Ⅳ类、Ⅲ类;水体富营养化程度分别为重度富营养、轻度富营养、中营养;南湖有机质δ~(15)N均值最高为13. 193‰(8. 394‰～19. 380‰);东湖δ~(15)N次之为8. 191‰(5. 162‰～13. 488‰);内沙湖δ~(15)N最低为2. 940‰(0. 001‰～6. 433‰)。不同湖泊有机质δ~(15)N与表层水c(TN)、c(DIN)、c(NH+4-N)、c(TP)、水质类别和TLI(Σ)呈正相关趋势,其中悬浮有机质、沉水植物δ~(15)N与水污染参数的相关性最为显著,均能有效表征城市湖泊水污染状态;为了采样的简便性及样品的通用性,建议以悬浮有机质δ~(15)N作为城市湖泊水污染状态及水环境治理效果的快速评价指标。     

常见沉水植物对东湖重度富营养化水体磷的去除效果

采用人工模拟方法,选取武汉市东湖的春季优势种金鱼藻、伊乐藻和菹草,夏季优势种类金鱼藻、狐尾藻和苦草,在春夏两个季节分别对东湖重度富营养化水体磷的去除效果进行了比较研究。结果显示：5种沉水植物在春夏季节生长良好,其中金鱼藻生物量增长率最高（春季为12888％,夏季为5833％）。5种沉水植物均能较好地吸收上覆水中的磷,其中金鱼藻在春夏两季对水体总磷的去除率均为最高（春季为9175％,夏季为9244％）。同时5种沉水植物还可抑止底泥中磷的释放,均使上覆水中各形态磷浓度保持较低水平。结果表明,金鱼藻在春夏季节均表现出较好的生长和净化水体磷的能力,且其耐污能力强,有可能成为以东湖为代表的重度富营养浅水湖区植物修复的先锋种之一。     

基于探索性数据分析的汉丰湖富营养化驱动因子研究

为了探究汉丰湖富营养化驱动因子和营养状况，基于2014年水质监测数据，应用探索性数据分析方法初步研究了汉丰湖水动力条件与环境因子的相关性、水质主成分、相关环境因子熵权和营养健康指数。回归分析结果表明：水位与透明度呈正相关，流量与DO呈负相关，与流速呈负相关的因子为Chla、CODMn、NH+4-N和DTP；主成分分析提取的3个主成分分别反映了营养盐、有机污染以及藻类信息；DO、TN和TP的熵权表明汉丰湖水体的富营养状况受制于耗氧有机污染和氮、磷营养盐；营养健康指数S1>S3>S6（湖心）>S7（湖尾）>S5（湖首）>S4>S2。汉丰湖水体营养状况介于中营养到轻富营养，其中南河营养状态较高，湖心营养程度高于湖首和湖尾。减少有机污染物、营养盐的输入和改善局部水域的水动力条件可抑制藻类生长，有利于防治富营养化。 关键词： 探索性数据分析；汉丰湖；富营养化；驱动因子；水动力条件；主成分；熵权；营养健康指数     

浙江青山水库浮游植物群落结构变化及与环境因子的关系

于2009年按季度对浙江省临安市内的青山水库进行调查,测定了水体环境因子、浮游植物群落,采用营养状态指数法对水库水质现状进行了分析和评价,并探讨了浮游植物与环境因子之间的关系。结果表明:青山水库处于轻度富营养化和中度富营养化之间,水库入库处营养状态综合指数高于库中和大坝处。调查期间共发现浮游植物7门40属89种。不同季节浮游植物主要优势种类不同,春季以硅藻、隐藻和甲藻为主,夏季以蓝藻和绿藻为主,秋季以蓝藻、硅藻和隐藻为主,冬季以硅藻和隐藻为主。相关分析表明,青山水库浮游植物密度与出入库流量和透明度呈显著负相关,与总磷呈显著正相关。典范对应分析(CCA)表明,出入库流量、水温、溶解氧和营养盐是影响水体浮游植物分布格局的重要环境因子。     

SWAT与MIKE21耦合模型及其在澎溪河流域的应用

结合SWAT分布式模型研究污染负荷的优势和MIKE21模型对水动力水质先进的模拟技术,构建SWAT与MIKE21耦合模型。根据澎溪河地形、土壤、植被、气象、水文、水质资料,在空间上建立流域SWAT水文单元与MIKE21水动力模型边界的连接,在量值上建立SWAT模型各水文单元污染物负荷输出量与MIKE21模型污染浓度输入量之间的分配关系,研究澎溪河流域输沙量、氮、磷负荷量和水污染。模拟结果表明：2009年3月至2010年3月澎溪河渠马、高阳、黄石、双江大桥4个断面的总氮、总磷浓度和叶绿素a含量的模拟值与实测值具有较好的一致性,澎溪河回水区水质为中营养~中富营养状态,水体氮、磷等营养盐浓度主要受面源污染的影响。SWAT与MIKE21耦合模型可靠性好,适合于流域水污染研究     

消浪工程对太湖底泥再悬浮及营养盐释放的影响

为了解863消浪工程对太湖底泥再悬浮及营养盐释放的抑制作用,于2005年7月15～17日在工程区投放悬浮物捕获器测定沉积物的再悬浮通量,并分层采集水样进行水体营养盐浓度的垂向分布研究。16日平均风速3 m/s时,测得的再悬浮通量上层最大值为7.22 g/d·m2,下层最大值为41.8 g/d·m2;17日平均风速5 m/s时,测得的再悬浮通量上层最小值24.7 g/d·m2,下层最小值为48.4 g/d·m2,沉积物再悬浮通量与风浪扰动强度关系密切。对比消浪工程区内外沉积物的再悬浮通量表明,消浪工程能够显著减弱风浪对底泥的扰动,抑制沉积物再悬浮,减轻营养盐的内源释放通量。实验结果还表明,太湖水体悬浮物浓度越高,悬浮物的有机质含量就越低,相应地,单位悬浮物中磷的含量也越低。随着风浪扰动的持续和增强,尽管能够将更多的沉积物间隙水中的溶解性磷带入水体,但是,野外观测中发现水体溶解性的磷含量并未相应增高甚至降低,这可能是由于水体中悬浮物浓度越高,对水体溶解性磷的吸附能力也越高,从而使得水中溶解性磷的含量增高不显著甚至降低。     

基于CE-QUAL-W2模型的龙川江支库富营养化预测

支库水体由于流速缓慢、水温高且营养物质易于富集,较主库更易发生富营养化。通过立面二维水动力学和水质模型(CE-QUAL-W2)对金沙江乌东德水库蓄水(2020年)后龙川江支库的富营养状况进行了预测。结果表明:在水位较高的春季4月和汛末蓄水期8~9月,大于60%河段的表层水体中Chl-a浓度均超过64mg/m3,该时期富营养化风险较大;而在水位快速下降的泄水期5~7月及水温较低的冬季12~2月库区Chl-a值均未达到26mg/m3,富营养化风险相对较小。在此基础上,对影响支库藻类生长的主要因素进行了分析,在库区营养盐浓度均较充足的4月和8月,由于靠近河口段表层水域存在较为明显的水温分层及缓慢的流速,藻类在此区域大量聚集,且汇口处Chl-a浓度较上游库尾处来流分别提高了近70倍和100倍;干流对支流的倒灌影响有时会为支库提供有利于藻类生长的水动力和水温条件,并其也是龙川江支库营养盐的一个主要来源。通过对乌东德单独运行时的调度情景和削减入流营养盐的数值模拟表明,采用降低水库运行水位或"双重营养盐削减"的措施,均能够有效的达到制约支库库区富营养化的目的。     

两种多裂叶型沉水植物组合净化富营养水体氮磷的对比实验研究

水生植物组合净化技术被认为比单一物种净化富营养化水体的效果更佳的技术方法。以2种多裂叶型沉水植物先锋种(金鱼藻和穗花狐尾藻)的镶嵌组合方式开展了富营养水体氮磷消减潜力的对比实验研究。结果表明,沉水物种组合试验中所选的沉水植物先锋种均在富营养化水体(氮磷含量达Ⅴ类水质)中生长良好,且对TN、NO_3~--N、TP、PO_4~(3-)-P都有明显的去除效果,去除率均明显高于无沉水植物的两个空白对照组。在选用沉水植物最优种植密度(3g/L)时,种植模式为金鱼藻∶穗花狐尾藻=1∶2的组合对富营养化水体净化效果更佳,其TN去除率达到79.16%,NO_3~--N去除率达到92.47%,TP去除率达到92.08%,PO_4~(3-)-P去除率达到98.39%。     

三峡水库小江夏初水华暴发特征及原因分析

2013年5月对三峡水库小江回水区的水华发生过程进行了连续的动态监测与分析,以期了解水华过程中浮游植物群落结构的变化情况、小江夏初水华暴发特征及其主要的影响因素。期间共鉴定出浮游植物8门80属136种(含变种),以绿藻类为主(35属48种),蓝藻类(10属31种)和硅藻类(18属30种)次之,水华发生后期浮游植物及其蓝藻类的种类数少于初期和中期。浮游植物群落组成表现为蓝藻-绿藻型,且蓝藻门微囊藻占绝对优势,细胞丰度最高可达90%以上。浮游植物数量最高达10⁷cells/L以上,表层水体大于中层和底层水体。水华过程中,总氮处于重富营养水平,总磷处于轻-中富营养水平,不同水层的流速变化规律不同,其中中层与底层水体理化因子的变化特征基本一致,与表层水体有显著差异。冗余分析结果表明,浮游植物细胞总数与蓝藻数量及其微囊藻数量密切相关,与溶解氧、氮磷比等呈正相关,与总磷、流速等呈负相关,氮磷比及流速是水华发生的主要环境影响因素。     

龙感湖表层沉积硅藻探究

以长江中下游典型草型湖泊龙感湖为研究对象,借助生物指标(沉积物表层硅藻),通过硅藻分析、DCA分析、聚类分析以及硅藻属种指示的湖泊营养特征分析,探究龙感湖沉积物表层硅藻属种分类、影响硅藻的潜在环境梯度、表层沉积硅藻属种的空间分布特征以及分析表层沉积硅藻属种指示的湖泊营养特征。研究表明:龙感湖表层沉积硅藻属种分布存在空间差异;表层硅藻属种的分布主要由第一轴的环境因子所解释,反映的样点的排列受第一轴的控制,第二轴反映的环境意义不显著;龙感湖硅藻组合是以富营养的浮游种为优势,已经接近富营养态,以半浮游种Aulancoseira granulata为最大优势种,而Aulancoseira granulata在中营养湖泊中占绝对优势。主要出现在富营养湖泊中能较好指示富营养化的浮游、半浮游种Cyclotella atoms和C.meneghiniana、Aulacoseira alpigea、Cyclostephanos dubius、Stephanodiscus parvus、S.hantzschii出现在龙感湖内;以浮游种为优势种的东部湖区比以附生底栖种为优势种的西部湖区富营养化更严重,研究以期为湖泊治理提供一定的理论依据。     

Sedimentary humic substances from lakes in Latvia

Humic and fulvic acids, isolated from sediments of lakes in different trophic states (Latvia) were studied. The humic substances (HS) were characterized by their elemental and functional composition, their spectral properties, and molecular mass. The humus properties strongly depend on the origin of the sedimentary HS. Substantial similarity between sedimentary HS from oligotrophic and dystrophic water bodies was found, unless the biology of these lakes greatly differs. Humic molecules from sediments of oligotrophic and dystrophic lakes are smaller, more uniform, and contain lower amounts of carboxyl- and hydroxyl-groups than HS from meso- and eutrophic water bodies. On the other hand, sedimentary HS from meso- and eutrophic lakes are dominated by aliphatic structures, and, possibly chromophore groups are present, and they are rich in polar groups. The macromolecules of HS from meso- and eutrophic lakes show the highest polydispersity.     

Lake eutrophication and brownification downgrade availability and transfer of essential fatty acids for human consumption

Fish are an important source of eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) for birds, mammals and humans. In aquatic food webs, these highly unsaturated fatty acids (HUFA) are essential for many physiological processes and mainly synthetized by distinct phytoplankton taxa. Consumers at different trophic levels obtain essential fatty acids from their diet because they cannot produce these sufficiently de novo. Here, we evaluated how the increase in phosphorus concentration (eutrophication) or terrestrial organic matter inputs (brownification) change EPA and DHA content in the phytoplankton. Then, we evaluated whether these changes can be seen in the EPA and DHA content of piscivorous European perch (Perca fluviatilis), which is a widely distributed species and commonly consumed by humans. Data from 713 lakes showed statistically significant differences in the abundance of EPA- and DHA-synthesizing phytoplankton as well as in the concentrations and content of these essential fatty acids among oligo-mesotrophic, eutrophic and dystrophic lakes. The EPA and DHA content of phytoplankton biomass (mg HUFA g^− 1) was significantly lower in the eutrophic lakes than in the oligo-mesotrophic or dystrophic lakes. We found a strong significant correlation between the DHA content in the muscle of piscivorous perch and phytoplankton DHA content (r = 0.85) as well with the contribution of DHA-synthesizing phytoplankton taxa (r = 0.83). Among all DHA-synthesizing phytoplankton this correlation was the strongest with the dinoflagellates (r = 0.74) and chrysophytes (r = 0.70). Accordingly, the EPA + DHA content of perch muscle decreased with increasing total phosphorus (r² = 0.80) and dissolved organic carbon concentration (r² = 0.83) in the lakes. Our results suggest that although eutrophication generally increase biomass production across different trophic levels, the high proportion of low-quality primary producers reduce EPA and DHA content in the food web up to predatory fish. Ultimately, it seems that lake eutrophication and brownification decrease the nutritional quality of fish for human consumers.     

富营养水体中浮游植物生长的营养限制研究

选取位于武汉城郊汤逊湖畔的30个养殖池塘作为研究对象,运用营养盐加富试验评价了浮游植物生长的氮磷限制类型。研究发现这些池塘的氮磷含量均较高,尤其是TP,绝大部分都在0.4 mg/L以上,TN/TP(原子比)变化范围为1.7~20.3。相关分析显示,浮游植物的生物量与氮素(TN,TDN,NO3-,NH4+,NO2-)显著正相关(r=0.402~0.677,P<0.05);但与磷素(TP,TDP,PO43-)无显著相关性(P>0.05)。营养盐加富试验显示浮游植物群落对加N的响应程度要显著大于加P;受N限制的池塘数量占50%;P限制的占13.3%;N、P共同限制的占23.3%;而不受N、P影响的仅占13.3%。这些结果表明:在富营养的水体中,当TP浓度>0.4 mg/L且TN/TP<20时,N是限制浮游植物生长的主要因子,P处于第二位。     

Long-term variations of folic acid concentrations in the Northern Adriatic

Folic acid (FA), which belongs to B-group vitamins has recently been recognized as possible nutrient for some phytoplankton species (a diatom Phaeodactylum tricornutum). The beneficial role of FA in human health is widely documented. In some countries food fortification with FA has already become mandatory. FA is also used under commercial name of Dosfolat for the treatment of industrial and domestic wastewaters. This is an exploratory study on seasonal and depth variability of FA concentrations in the Northern Adriatic Sea (station 101-max depth 30 m, under the Po River influence). Seawater samples were analysed in the period from February 1998 to February 2003 based on monthly determinations. Those preliminary findings showed that in the upper layer (10 m) FA concentrations were in the range from 0.1 to 28 nM. In the lower layer (20-30 m) FA concentrations were in the range from 0.1 to 12 nM. It was found that phytoplankton and microorganisms which are responsible for the production of FA in the Northern Adriatic (Station 101) were situated at the depth from 5 to 10 m. The observed water column and seasonal distributions depended on a sensitive balance between the production and the consumption of FA.     

鄱阳湖蝶形湖泊水体氮磷等的变化及污染初步评价

分别于2014年夏季7月和冬季12月对鄱阳湖蝶形水域的9个湖泊进行了采样,并对湖泊水质基础性指标TN、TP、NH_3-N、NO_3~--N、NO_2~--N、溶解性磷酸盐、TOC、COD_(Mn)和叶绿素a进行了测定与分析。据此同时运用单因素评价法、均值型指数综合评价法和营养状态指数法对鄱阳湖蝶形水域的地表水水环境的污染现状和污染程度进行了评价,以更全面和准确地反映鄱阳湖蝶形水域的水质状况。结果显示:(1)鄱阳湖蝶形水域水质总体符合GB3838-2002III类水标准;(2)7月水质总体优于12月水质。12月总氮含量和总磷含量基本都高于7月,叶绿素a含量除中湖池12月值略低于7月外,其它点位12月值均高于7月。7月总氮值为0.6~1.3 mg/L,总磷值为0.02~0.15 mg/L,叶绿素a为2.2~6.7 mg/L;12月总氮值为0.6~2.0 mg/L,总磷值为0.04~0.19 mg/L,叶绿素a为3.8~34.7 mg/L;(3)7月和12月水质营养状态介于中营养和轻度富营养,水体主要污染物质为总氮和总磷。7月蚌湖营养状态为轻度富营养,其它点位为中营养,12月除常湖、梅溪湖和大汊湖营养状态为中营养,其它点位均为轻度富营养;(4)位于南部的象湖、常湖、白沙湖和大汊湖水质整体较其它蝶形湖泊差,主要是受到工业废水、生活污水和农业面源污染的赣江和饶河的污染输入影响所致。基于以上调查测试结果提出保护和改善鄱阳湖水环境的可行性措施,以促进鄱阳湖蝶形水域水资源的开发利用,实现经济与环境及资源的协调可持续发展。     

Expansion of cropland area and formation of the eastern farming-pastoral ecotone in northern China during the twentieth century

Land cover changes induced by historical cultivation in ecologically fragile areas involving important issues such as environmental change, ecology, and human sustainability are particularly worthy of attention. This paper reconstructs the spatial distribution of cultivated areas at the county level in the eastern farming-pastoral ecotone of northern China for four time periods during the twentieth century. The paper also analyzes how the location of cultivation ratio contours of 15 and 30 %, representing the boundaries of agricultural areas, have moved and the formation process of farming-pastoral ecotone patterns during this period. The study concludes that the area and ratio of cultivated land fluctuations increased during the twentieth century. The boundaries of the cultivation ratio contours of 15 and 30 % continually moved west and north. Moving north took priority over the other directions during the period of 1916–1940, when its center moved the farthest during the twentieth century, and the boundaries primarily moved westward during 1940–1980 and northwestward during 1980–2000. The distance, direction, and extent of the movement of the cultivation boundaries are all related to agricultural area expansion processes during this period, finally resulting in the creation of the modern farming-pastoral ecotone pattern.     

Phytoplankton-nutrient relationships in years with various water levels in the Pasłęka River in the vicinity of the hydroelectric power station (North-east Poland)

Relationships between abundance of basic net phytoplankton taxonomic groups (cyanobacteria, diatoms, and chlorophytes) and nutrient concentrations in water were studied on the Pas??ka River in years with varied water levels. In high water level conditions, large amounts of orthophosphates and total nitrogen from the catchment could favor development of cyanobacteria and chlorophytes. The species could be allochthonic. At low water levels, the factor stimulating phytoplankton development could be nutrients coming from mineralization of accumulated organic matter. The highest nutrient concentrations could favor diatom development. In such conditions, dominant taxa were autochthonic. In terms of numbers, F. capucina was dominant, and in terms of biomass—genus Spirogyra sp. It could come from plant periphyton inhabiting the concrete drops of the dam included in the river’s development in the vicinity of the hydroelectric power station.