湖北长湖富营养化状况及时空变化(2012-2013年)

为评估长湖水体富营养化程度,2012-2013年分4个季度对全湖区20个采样点的物理、化学和生物要素进行监测,在评价水质现状的基础上采用综合营养状况指数法和浮游植物细胞丰度指数法综合评价水体营养状况,并应用典型相关分析(CCA)方法揭示水体富营养化状况与湖泊理化要素之间的典型相关性.结果显示:4个季节长湖全湖区的水质均处于地表水IV类~劣V类水标准;综合营养状态指数值在49.54~82.55之间,浮游植物细胞丰度在2.88×106~61.73×106cells/L之间,均显示其处于富营养化状态;长湖富营养化状况的分布呈现一定的时空差异性;CCA分析显示,长湖理化要素变量可解释68.6%的水体富营养化状况变量的变异,影响其富营养化状况的主要理化因素有水体总磷、总氮、溶解氧、亚硝态氮、硝态氮浓度,水深和沉积物总磷、总氮含量.长湖水体富营养化主要是由于外源的磷污染,其次是氮污染,富营养化最严重的夏、秋季浮游植物的生长主要受氮营养限制,而冬、春季则部分受磷营养限制,部分属于过渡类型.因此,建议大力削减围网/围栏养殖量,同时考虑结合水生植物栽种等生态工程建设措施以降低长湖水体发生严重富营养化的风险,并进一步改善长湖的水质现状.     

五大连池水质现状及近30年前后变化

2012—2013年春、夏、秋季,对五大连池11个采样点的水质变化进行研究,分析湖水水质现状,比较30年前后湖泊的水质变化并评估五大连池富营养化程度.结果表明,五大连池不同部分、季节、年份的水质参数指标波动剧烈,可能是受水产养殖及氮、磷浓度变化影响,2池和3池浮游生物量及叶绿素a浓度明显较低;同1980s相比,水质变化较大,一些指标显示水质已趋向好转,但5池却接近重度富营养化,说明近几年的还湿、迁居等保护措施初见效果,但整个湖泊水质恢复需要漫长过程.     

Nutrient Budgets,Dynamics and Storm Effects in a Eutrophic,Stratified Baltic Lake

Between 1989 and 1998 the small eutrophic stratified Lake Belau was investigated intensively and multidisciplinarily. This article is a short, comprehensive summary and re‐evaluation of the hydrochemistry of the lake, with focus on nitrogen and phosphorus. In several aspects the lake can be regarded as a typical example of the glacial north German lakes. The 1960's and 1970's are characterised by heavy nutrient inputs and fast eutrophication. During the last two decades the external nutrient load, especially the phosphorus load into Lake Belau was significantly reduced. But phosphorus‐rich sediments and large areas with summerly anoxic sediment surface conditions cause intensive release of phosphorus from older deeper sediment layers. Annual budgets reveal that despite an average sediment accumulation of 3 mm a^?1 the lake has lost its function as net phosphorus sink and it is very likely that internal eutrophication by the sediments will keep the lake in its eutrophic state during the next decades. Despite that, monthly budgets of five vertical layers show that the main phosphorus supplier for the phosphorus depleted epilimnion during summer is the creek Alte Schwentine. The annual nitrogen budget indicates groundwater and interflow water as well as atmospheric input as additional important nitrogen sources. 36% (98 μmol m ^?2 h^?1 N) of all nitrogen input is lost to atmosphere mainly due to denitrification. The example of a heavy storm shows that about 10% of the annual nitrogen loss to the atmosphere can take place during a single day and in form of ammonia. The storm further made obvious that these unpredictable events can have strong impact on nutrient cycling and ecology in Lake Belau and the lake can become an unexpected nutrient source for downstream systems.     

2015-2016年环太湖河道进出湖总磷负荷量计算及太湖总磷波动分析

太湖流域水环境综合治理力度空前,太湖总磷浓度却于2015、2016年重回升势,蓝藻大面积暴发情况也未得到有效遏制.本文从2015和2016年环太湖河道的进出太湖水量、总磷负荷量计算入手,结合雨情、水情、太湖调蓄以及人为影响等各方面因素,分别开展水量和总磷负荷质量的平衡分析.在此基础上,结合20102017年环太湖河流多年平均进出太湖总磷负荷量对比,分析太湖总磷的外源、内源变化趋势及来源,探讨2015和2016年太湖总磷升高的原因及控制重点方向.结果表明,2015和2016年为太湖流域丰水年,尤其是2016年发生特大洪水,太湖年内最高水位达4.87 m,仅次于1999年的4.97 m的历史最高水位.2015和2016年大量外源总磷负荷进入太湖,其中环太湖河道带入的总磷负荷量占年度太湖总磷负荷总量的66.8%和74.2%,成为进入太湖的总磷负荷的主要外源;加之,2015年太湖水生植物收割造成当年沉水植物面积较上年同期下降88.7%,水生植物骤减导致对磷的吸收转化能力下降,滞留在湖体中的总磷负荷量占年度太湖总磷负荷总量的21.5%和27.5%,成为影响太湖水体总磷浓度的重要内源.太湖总磷浓度升高又为太湖蓝藻暴发进一步提供了营养盐基础,亟需强化太湖总磷源头的控制、减少总磷入湖总量.     

A ∼300-year record of environmental changes in Lake Issyk-Kul,Central Asia,inferred from lipid biomarkers in sediments

We measured lipid biomarkers (n-alkanes [n-ALKs] and n-alkanoic acids [n-FAs]) and other components of organic matter (total organic carbon [TOC] and total nitrogen [TN]) in a sediment core from Lake Issyk-Kul, Central Asia, to infer environmental changes in and around the lake during the last ∼300 years. Stratigraphic shifts in lipid biomarkers, TOC and TN, indicate three distinct environmental stages in the lake over the past three centuries: (1) Stage I (1670s–1790s, 51–36 cm sediment depth) corresponds to a period of stable hydrology in the lake, reflected by relatively constant concentrations of n-ALKs and n-FAs and values of related indexes. The interval was a period of relatively low trophic state. Natural factors were the main controls on environmental changes in and around the lake. (2) Stage II (1800s–1970s, 35–15 cm sediment depth) was a period when human activities began to exert influence on the environment in and around the lake. Enhanced agricultural exploitation and greater regional rainfall resulted in delivery to the lake of more land-derived lipids. Logging activity around the lake altered the vegetation, as revealed by shifts in C₂₇/C₃₃ ratios and the average chain length (ACL₂₇₋₃₃). A significant decline in lake level caused by excessive water consumption impacted aquatic macrophytes, as revealed by a reduction in macrophyte indicators. Lower nutrient concentrations were inferred for this period. (3) Stage III (1980s–present, 14–0 cm sediment depth) corresponds to a period of accelerating eutrophication. Before year 2000, lake level declined steadily as a result of low rainfall (drought) and high evaporation, which exerted a strong influence on the lake condition. In addition, anthropogenic activities contributed to lake eutrophication. After 2000, the lake experienced a dramatic increase in trophic state, characterized by high algal productivity, as indicated by greater TN, short-chain n-ALKs and short-chain n-FAs. The change was probably caused by flourishing tourism around the lake. In summary, environmental changes in and around Lake Issyk-Kul during the past ∼300 years were originally driven largely by natural factors such as shifts in regional precipitation amount. Human activities (e.g. logging, agriculture, water extraction, and more recently, tourism) took on increasingly important roles during the last two centuries, affecting watershed vegetation, the lake primary producer community and lake trophic status. Changes recorded in the lake sediments over the last ∼300 years are in good agreement with historical records.     

Phytoplankton community reorganization driven by eutrophication and warming in Lake Biwa

We compiled and analyzed long-term data, including chemical, physical and phytoplankton community data, for the Lake Biwa ecosystem from 1962 to 2003. Analyses on environmental data indicate that Lake Biwa had experienced intensified eutrophication (according to total phosphorus concentration) in the late 1960s and returned to a less eutrophic status around 1985, and then exhibited rapid warming and thus increased water column stability since 1990. Total phytoplankton cell volume largely followed the trend of total phosphorus concentration, albeit short-term fluctuations existed. However, phytoplankton community shifted dramatically in response to those changes of environmental states. These shifts were cause by changes in trophic status driven by phosphorus loadings and physical properties in the water column driven by warming. Moreover, most phytoplankton species did not show a strong linear correlation with environmental variables, suggesting nonlinear transitions among different states.     

特大洪水对浅水湖泊磷的影响:以2016年太湖为例

2016年太湖发生特大洪水,水位达到历史第二,入湖水量比平均年多60.8亿m³.而从2016年开始太湖磷指标改变了2010年以来平缓下降的趋势出现回升,也就是出现所谓“磷反弹”的问题.为了研究磷反弹和特大洪水之间的关系,本研究从2016年入湖水量、水质、磷通量、水中磷存量以及磷在太湖中的迁移过程出发,对大洪水前后太湖磷的变化进行分析.结果表明：洪水期间入湖河道带来大量的磷是引起磷反弹的主要原因.由于洪水的影响,2016年磷净入湖通量比往年平均水平多出579.2 t,约达到1683.0 t.其中,两次洪水贡献极大,约占全年水平的50%（6-7月和10月的洪水分别带入580.5和268.2 t磷）.磷反弹的另一个原因在于太湖存在较高的磷滞留率,磷在入湖后很难经由出湖河道排出.从入湖后磷的归趋上看,洪水过程中高磷浓度水块尽管存在由太湖西北部向东、南部迁移的过程,但途中水体磷浓度出现显著降低（即滞留现象）,导致高磷浓度水块未能到达出湖排泄区（太浦港、望虞河等）.全年净入湖磷通量中仅有小部分（205.3 t）直接引起水体磷浓度上升,而其余的大部分则滞留于底泥之中,明显高于往年水平.2016年滞留在太湖内的磷很可能破坏了往年底泥-上覆水的磷平衡,对后续水质的变化产生间接的影响.     

武汉后湖浮游植物现存量与生产量季节变动的初步研究

根据1990年5月—1991年4月武汉后湖浮游植物种类组成、现存量和生产量的周年资料分析,绿藻、硅藻、蓝藻为优势类群;现存量和生产量高低次序依次为:秋、冬、夏、春。并以浮游植物群落生态作为主要依据对后湖的营养状态进行了综合评价。     

Water balance of Lake Tana and its sensitivity to fluctuations in rainfall,Blue Nile basin,Ethiopia

The annual water budget of Lake Tana is determined from estimates of runoff, rainfall on the lake, measured outflow and empirically determined evaporation. Simulation of lake level variation (1960–1992) has been conducted through modeling at a monthly time step. Despite the ±20% rainfall variations in the Blue Nile basin in the last 50 years, the lake level remained regular. A preliminary analysis of the sensitivity of level and outflow of the lake suggests that they are controlled more by variation in rainfall than by basin-scale forcing induced by human activities. The analysis shows that a drastic (40–45%) and sustained (7–8 years) rainfall reduction is required to change the lake from out flowing to terminal (cessation of outflow). However, the outflow from the lake shows significant variation responding to the rainfall variations. Unlike the terminal lakes in the Ethiopian rift valley or the other large lakes of Tropical Africa, at its present hydrologic condition, the Lake Tana level is less sensitive to rainfall variation and changes in catchment characteristics.     

东太湖的环境质量现状调查评价

通过1990—1991年东太湖的水文、水质、底质和生物凋查,对其水质作出评价并探求营养现状。结果表明:东太湖的水质状况良好,营养状况已进入中富营养状态叶。     

Revisiting lake sediment budgets: How the calculation of lake lifetime is strongly data and method dependent

Lake sedimentation has a fundamental impact on lake lifetime. In this paper, we show how sensitive calculation of the latter is to the quality of data available and assumptions made during analysis. Based on the collection of a large new dataset, we quantify the sediment masses (1) mobilized on the hillslopes draining towards Lake Tana (Ethiopia), (2) stored in the floodplains, (3) transported into the lake, (4) deposited in the lake and (5) delivered out from the lake so as to establish a sediment budget. In 2012–2013, suspended sediment concentration (SSC) and discharge measurements were made at 13 monitoring stations, including two lake outlets. Altogether, 4635 SSC samples were collected and sediment rating curves that account for land cover conditions and rainfall seasonality were established for the 11 river stations, and mean monthly SSC was calculated for the outlets. Effects of the floodplain on rivers' sediment yield (SY) were investigated using measurements at both sides of the floodplains. SY from ungauged rivers was assessed using a model that includes catchment area and rainfall, whereas bedload and direct sediment input from lake shores were estimated. As a result, the gross annual SY was c. 39.55 (± 0.15) Mt, dominantly from Gilgel Abay and Gumara Rivers. The 2.57 (± 0.17) Mt sediment deposited in floodplains indicate that the floodplains serve as an important sediment sink. Moreover, annually c. 1.09 Mt of sediment leaves the lake through the two outlets. Annual sediment deposition in the lake was c. 36.97 (± 0.22) Mt and organic matter accumulation was 2.15 Mt, with a mean sediment trapping efficiency of 97%. Furthermore, SSC and SY are generally higher at the beginning of the rainy season because soils in cultivated fields are bare and loose due to frequent ploughing and seedbed preparation. Later in the season, increased crop and vegetation cover lead to a decrease in sediment production. Based on the established sediment budget with average rainfall, the lifetime of Lake Tana was estimated as 764 to 1032 years, which is shorter than what was anticipated in earlier studies. The sedimentation rate of Lake Tana (11.7 ± 0.1 kg m^?2 yr^?1) is in line with the sedimentation rates of larger lakes in the world, like Lake Dongting and Lake Kivu. Copyright © 2017 John Wiley & Sons, Ltd.     

Estimation on dynamic release of phosphorus from wind-induced suspended particulate matter in Lake Taihu

The internal source, especially resuspension process of the sediments in lakes and its environ- mental effect has been paid shining attention in the West as well as in China[1—6] although the influence of external source is important to water environment[7]. S鴑dergaard et al. compared the releases of soluble reactive phosphorus (SRP) in the surface sediments of Lake Arres before and after disturbance and they found that disturbing can increase the release by 20—30 times[3]. Robarts and ot…     

A comparative study of the hopanoid hydrocarbons in sediments of two lakes (Fuxian and Changdang) with contrasting environments

Biologically configured ββ-hopanes, geologically configured αβ-hopanes and the biogenic hopenes were determined in dated sediment cores from Lake Fuxian in SW China and Lake Changdang in Eastern China in order to investigate anthropogenic influences on the abundance, composition and provenance of hopanoid hydrocarbons in lake sediments. Based on the results, hopenes were prevalent, with maximum values reaching 148.9 μg g⁻¹ TOC in sediments of Lake Fuxian, an oligotrophic deep lake (average depth 89.6 m), where the long water column provided ample potential for the growth of hopene-producing bacteria especially the cyanobacteria. Sediment hopenes have diminished in abundance to values of 13.4–78.5 μg g⁻¹ TOC in Lake Changdang, a eutrophic shallow (average 0.8–1.2 m) body, reflecting comparatively reduced importance of nutrient level on hopene production. Historical trends in hopenes input to the sediments of each lake are strongly dependent on nutrient status. During the last few decades, human-induced eutrophication has greatly boosted bacterial production, enhancing the accumulation of hopenes in sediments. Inputs of petroleum-derived αβ-hopanes were exceptionally high (average 71.2 μg g⁻¹ TOC) in post-1968 sediments from Lake Changdang, their increase coinciding with the advent and acceleration of petroleum product use around the lake, in particular by fishing boats. Lake Fuxian on the other hand, has undergone slower economic development and the appearance of petroleum-derived αβ-hopanes in sediments was delayed to 1990 since when the average value has been 27.1 μg g⁻¹ TOC. The abundance of αβ-hopanes in Lake Changdang has created a marked decrease in the relative contribution of hopenes to total hopanoids since 1968. Conversely, the amounts of αβ-hopanes introduced to Lake Fuxian since 1990 has yet to yield a clear change in the overall proportion of hopenes, but the abundance of ββ-hopanes has declined relative to total hopanoid levels for the period.     

Water balance of Lake Victoria: update to 2000 and climate change modelling to 2100 / Bilan hydrologique du Lac Victoria: mise à jour jusqu’en 2000 et modélisation des impacts du changement climatique jusqu’en 2100

Abstract

Abstract An annual water balance model of Lake Victoria is derived for the period 1925–2000. Regression techniques are used to derive annual inputs to the water balance, based on lake rainfall data, measured and derived inflows and estimated evaporation during the historical period. This approach acknowledges that runoff is a nonlinear function of lake rainfall. A longer inflow series is produced here which is representative of the whole inflow to the lake, rather than just from individual tributaries. The results show a good simulation of annual lake levels and outflows and capture the high lake level in 1997–1998. Climate change scenarios, from a recent global climate model experiment, are applied to the lake rainfall inflow series and evaporation data to estimate future water balances of the lake. The scenarios produce a potential fall in lake levels by the 2030s horizon, and a rise by the 2080s horizon. A discussion of the application of climate change data to this complex hydrological system is presented.     

古生态记录揭示的长江中下游太白湖生态系统稳态转换过程

长江中下游浅水湖泊在过去百年内受到强烈的人类活动影响,生态系统状态发生显著的变化,服务功能逐渐丧失.为了更科学有效地管理浅水湖泊,当前迫切需要了解湖泊的生态系统转变过程.以长江中下游典型富营养化浅水湖泊太白湖为例,结合历史资料和监测数据,基于铅铯同位素重建年代序列,利用粒度、地化指标和沉积物中硅藻群落的时间序列数据,对太白湖过去百年间生态系统转变进行分析.基于T检验的STARS法检测硅藻群落的结果显示,有2个稳态转换分别发生在1950s末和1990s末.1950s末太白湖硅藻群落代表的生态系统状态发生了显著突变,这主要归因于由于建闸筑坝造成的水文条件和营养条件的改变;1990s期间的湖泊生态系统整体转变则是由长期营养输入和渔业活动加强导致的生态系统弹性损失引起的.讨论了不同阶段太白湖生态系统主要要素间反馈机制在水文条件改变和营养富集影响下的变化,加深了对人类活动干扰下太白湖生态系统结构变化过程的理解,为建立浅水湖泊系统动力学模型提供基础.     

武汉东湖不同营养型子湖的水生生物与水域功能

于１９９１－１９９３年研究了武汉东湖４个营养型不同的子湖中水生生物与水域功能,表明各子湖之间各类水生生物的生态特征存在明显差异,茶港湾的ＨＢＣ和ＦＣ的数量,藻类的细胞密度和初级生产量,浮游动物和底栖动物的个体密度等均居４个子湖之首,其水质已达到了超富营养水平,将该湖区的作为污水天然净化区进行管理,可望对东湖的主体湖区起到缓冲和保护作用,郭郑湖的水质状况仅次于茶港湾湖区,处于富营养阶段,该湖区多项生     

沿江城市中小型闸控通江湖泊总磷变化特征及成因分析——以安庆市石塘湖为例

长江中下游沿江城郊闸控湖泊普遍面临总磷浓度偏高的现象,解析其总磷时空变化特征及影响驱动机制成为精准治理与修复此类湖泊前亟待解决的关键性问题。本文基于安庆市沿江城郊中小型闸控湖泊--石塘湖实测气象降雨、水文、河湖水质等数据,采用多因子相关性分析、变异系数法和主成分分析的方法,研究各指标因子与湖泊总磷浓度时空变化的响应关系。结果表明:(1)湖泊水质呈现丰(5-8月)、平(3-4月和9-10月)、枯(11-次年2月)水期聚类效果显著,但湖泊空间差异不明显;湖泊水质的季节性变化受总磷浓度变化控制,其他理化指标影响较弱。(2)高强度降雨和汛期闸站调度下的水动力变化决定污染物迁移速率,是导致湖泊总磷浓度在丰水期更容易受入湖河流输入影响而达到峰值的主要驱动因子。(3)高强度人类活动导致入湖河流季节性输入是石塘湖总磷上升的决定性因素,从单位土地利用类型产生单位总磷负荷来看,农业用地远大于城镇建设用地,林地和草地充当污染物进入湖泊的预前“汇”。因此,从治理策略和途径来看,可在控制外源输入的同时,适当调节闸站以减弱丰水期水动力强度,减少入湖河流总磷输入影响的同时,发挥湖泊营养盐的滞留净化能力。本文主要从人类活动导致的外源污染及闸站抽排调度角度分析沿江城郊闸控湖泊石塘湖总磷变化、影响因素及驱动机制,可以为此类城郊中小型沿江闸控型湖泊污染治理提供理论参考。     

Spatial and temporal variations in rainfall erosivity during 1960–2005 in the Yangtze River basin

Water resources and soil erosion are the most important environmental concerns in the Yangtze River basin, where soil erosion and sediment yield are closely related to rainfall erosivity. The present study explores the spatial and temporal changing patterns of the rainfall erosivity in the Yangtze River basin of China during 1960–2005 at annual, seasonal and monthly scales. The Mann–Kendall test is employed to detect the trends during 1960–2005, and the T test is applied to investigate possible changes between 1991–2005 and 1960–1990. Meanwhile the Rescaled Range Analysis is used for exploring future trend of rainfall erosivity. Moreover the continuous wavelet transform technique is using studying the periodicity of the rainfall erosivity. The results show that: (1) The Yangtze River basin is an area characterized by uneven spatial distribution of rainfall erosivity in China, with the annual average rainfall erosivity range from 131.21 to 16842 MJ mm ha^?1 h^?1. (2) Although the directions of trends in annual rainfall erosivity at most stations are upward, only 22 stations have significant trends at the 90 % confidence level, and these stations are mainly located in the Jinshajiang River basin and Boyang Lake basin. Winter and summer are the seasons showing strong upward trends. For the monthly series, significant increasing trends are mainly found during January, June and July. (3) Generally speaking, the results detected by the T test are quite consistent with those detected by the Mann–Kendall test. (4) The rainfall erosivity of Yangtze River basin during winter and summer will maintain a detected significant increasing trend in the near future, which may bring greater risks to soil erosion. (5) The annual and seasonal erosivity of Yangtze River basin all have one significant periodicity of 2–4 years.     

上行与下行效应对浮游动物的长期影响评价——以滇池与抚仙湖沉积物象鼻溞(Bosmina)为例

近年来云南高原湖泊面临富营养化、渔业活动增强等多重环境压力的叠加影响,对湖泊的有效治理与生态修复急需对多重压力下生态系统的响应模式进行系统了解.现有研究表明在系统生产力和捕食压力的不同配置下,湖泊系统主要组成(如浮游动物)的响应特征可能出现差异且捕食压力可能随营养水平的变化而改变,目前对云南湖泊生态系统的研究主要集中于单一环境压力下的生态响应.本研究以目前分别处于重富营养和中-贫营养水平的滇池和抚仙湖为研究对象,应用湖泊沉积物记录进行多指标分析,探讨受外来鱼类影响下两个大型湖泊浮游动物长期响应模式的异同.通过象鼻溞生物量与个体大小等指标,重建了近百年来滇池与抚仙湖典型浮游动物的变化历史,结果表明随着湖泊生产力水平(如沉积物色素生产量)的增加,2个湖泊中象鼻溞生物量显著增加,同时物种相对组成出现明显变化(如Bosmina longispina被B.longirostris取代),指示湖泊上行效应对浮游动物的控制作用.同时象鼻溞的生物量、壳长与触角长度的变化在1960s与1980s有明显降低的趋势,与同期外来鱼类(如银鱼)引入与渔业产量增加的时间一致.进一步应用多变量回归分析与方差分解方法来定量评价上行与下行效应对象鼻溞生物量变化的驱动强度,结果表明富营养化(沉积物色素)和捕食作用(象鼻溞壳长)对浮游动物长期变化的驱动强度比较相似(分别解释了生物量变化的77.25%和83.59%),然而在滇池下行效应对象鼻溞生物量的独立影响比在贫营养的抚仙湖中更强(分别为15.46%和10.39%),上行效应对象鼻溞生物量的影响在抚仙湖要明显强于滇池(分别为69.74%和19.67%),而在滇池上行与下行效应的相互作用强度明显强于抚仙湖(分别为42.12%和3.46%).结果表明随着湖泊营养水平的升高,浮游动物的生物量在2个湖泊中均显著增加,而外来鱼类(如太湖新银鱼)的引入和经济鱼类数量的增加加剧了对浮游动物的捕食压力,造成了浮游动物的生物量降低和个体减小.但在快速富营养化的滇池,对浮游动物的捕食压力随营养水平的变化出现较强的依赖性,而在总体处于中-贫营养水平的抚仙湖中此相互作用较弱.结果表明在不同营养水平的大型湖泊中,营养水平的变化幅度可以导致鱼类捕食压力的差异性变化,指示了对鱼类捕食压力的评价和浮游动物长期变化的特征分析需要考虑湖泊的营养水平与富营养化过程的差异.总之,富营养化和外来鱼类的引入导致了高原湖泊生态系统的快速响应与结构变化,因此对高原湖泊的生态修复需要考虑湖泊营养水平对生态系统结构与食物链作用的影响.