微囊藻毒素对水环境的影响研究进展

微囊藻毒素是富营养化淡水水体中最常见的藻类毒素,是湖泊蓝藻产生的一类肽类毒素,它的产生受到藻类的遗传和环境因素的共同影响。由于其毒性大,分布广,结构稳定,从而成为水环境中的潜在危害物质。有关微囊藻毒素性质、毒理毒性、在环境中的迁移、转化以及控制预防已成为关注热点。在总结国内外研究的基础上,综述了微囊藻毒素的性质、产生机理以及其与水环境、水生生物(水生植物、鱼类、无脊椎动物)间的相互作用,讨论了微囊藻毒素对水生生物的影响以及水生生物对微囊藻毒素的降解作用,为水体中微囊藻毒素的防治提供科学的依据。     

微囊藻毒素生物治理技术研究进展*

近年来,随着全球气候变暖和水体富营养化程度加深,蓝藻水华频繁暴发。微囊藻毒素是有害蓝藻产生及释放的危害最大的一类蓝藻毒素,对生态环境和公众健康造成了严重的威胁。因此,寻求有效的微囊藻毒素降解方法已成为全球科学领域的研究热点。针对微囊藻毒素生物治理技术展开综述,阐述了微囊藻毒素的产生、理化性质及生物毒性,总结了微生物、水生植物、浮游动物等自然生物降解微囊藻毒素的能力。在此基础上概述了生物滤池、人工湿地、生态浮床、膜生物膜反应器等生物治理技术对微囊藻毒素的去除效果,分析了现有微囊藻毒素生物处理方法的优势和局限性,并对今后的研究方向提出展望,为解决水环境中微囊藻毒素的污染问题提供思路。     

应用环境微生物治理淡水湖泊微囊藻毒素污染的研究进展

近年来,随着水体富营养化程度的加剧,蓝藻水华现象时有发生,蓝藻及其释放的藻毒素对生态环境和人类健康构成严重威胁。在各种藻毒素中,以微囊藻毒素(Microcystins,MCs)毒性最强,对人类危害也最大,微囊藻毒素的化学性质相对稳定且难以通过常规水处理方法消除,因此如何有效去除环境中的MCs是国内外普遍关注的难题。研究发现自然界中的微生物能够有效降解和消除MCs污染,由此产生的环保技术极具应用价值。本文主要概述了微囊藻毒素的产生机理、化学结构以及毒性危害,总结了微囊藻毒素的自然分解过程以及微生物群落对微囊藻毒素的响应机制,重点分析了微生物群落在微囊藻毒素污染控制技术中的潜在应用,并对应用微生物技术治理微囊藻毒素污染的技术瓶颈提出了建议,以期加速微囊藻毒素微生物降解技术的完善和应用。     

Harmful Cyanobacterial Blooms: Causes, Consequences, and Controls

Cyanobacteria are the Earth’s oldest oxygenic photoautotrophs and have had major impacts on shaping its biosphere. Their long evolutionary history (～3.5 by) has enabled them to adapt to geochemical and climatic changes, and more recently anthropogenic modifications of aquatic environments, including nutrient over-enrichment (eutrophication), water diversions, withdrawals, and salinization. Many cyanobacterial genera exhibit optimal growth rates and bloom potentials at relatively high water temperatures; hence global warming plays a key role in their expansion and persistence. Bloom-forming cyanobacterial taxa can be harmful from environmental, organismal, and human health perspectives by outcompeting beneficial phytoplankton, depleting oxygen upon bloom senescence, and producing a variety of toxic secondary metabolites (e.g., cyanotoxins). How environmental factors impact cyanotoxin production is the subject of ongoing research, but nutrient (N, P and trace metals) supply rates, light, temperature, oxidative stressors, interactions with other biota (bacteria, viruses and animal grazers), and most likely, the combined effects of these factors are all involved. Accordingly, strategies aimed at controlling and mitigating harmful blooms have focused on manipulating these dynamic factors. The applicability and feasibility of various controls and management approaches is discussed for natural waters and drinking water supplies. Strategies based on physical, chemical, and biological manipulations of specific factors show promise; however, a key underlying approach that should be considered in almost all instances is nutrient (both N and P) input reductions; which have been shown to effectively reduce cyanobacterial biomass, and therefore limit health risks and frequencies of hypoxic events.     

Short-term effect of oxic to anoxic transition on benthic microbial activity and solute fluxes in organic-rich phytotreatment ponds

Macroinvertebrates are one of the key components of lake ecosystems and are required to be monitored alongside other biological groups to define ecological status according to European Union legislation. Macroinvertebrate communities are highly variable and complex and respond to a diverse series of environmental conditions. The purpose of this study was to examine the relative importance of environmental variables in explaining macroinvertebrate abundance. A total of 45 sub-alpine lakes were sampled for macroinvertebrates in the shallow sublittoral. Environmental variables were grouped into four types: (1) aquatic physical and chemical parameters, (2) littoral and riparian habitat, (3) lake morphometric parameters and (4) sediment chemical characteristics. Nonparametric multiplicative regression (NPMR) was used to model the abundance of individual macroinvertebrate taxa. Significant models were produced for nine out of the 24 taxa examined. Sediment characteristics were the group most frequently included in models and also the factors to which taxa abundance was the most sensitive. Aquatic physical and chemical variables were the next group most frequently included in models although chlorophyll a was not included in any of the models and total phosphorus in only one. This indicates that many taxa may not show a direct easily interpretable response to eutrophication pressure. Lake morphometric factors were included in several of the models although the sensitivity of macroinvertebrate abundance tended to be lower than for sediment and aquatic physical and chemical factors. Habitat factors were only included in three models although riparian vegetation was found to have a significant influence on the abundance of Ephemera danica indicating that ecotone integrity is likely to play a role in its ecology. Overall, the models tended to be specific for species with limited commonality across taxa. Models produced by NPMR indicate that the response of macroinvertebrates to environmental variables can be successfully described but further research is required focussing in more detail on the response of key taxa to relevant environmental parameters and anthropogenic pressures.     

人工纳米材料与生物膜相互作用机制及影响因素研究进展

人工纳米材料在水体中的环境行为与生物环境安全问题成为环境科学领域研究的热点,人工纳米材料与生物膜相互作用机制和影响因素是其中迫切需要研究解决的关键科学问题。本文主要探讨了人工纳米材料释放进入到水体中后对生物膜细菌活性、微生物群落结构、净污活性等的毒性效应,分析了人工纳米材料对生物膜的毒性作用机制及其影响因素,同时探讨了生物膜对人工纳米材料的吸附作用及机理,为深入研究人工纳米材料与生物膜的相互作用机制提供了重要的理论基础。     

The ecology of chytrids in aquatic ecosystems: roles in food web dynamics

Chytrids are very important components of freshwater ecosystems, but the ecological significance of this group of fungi is not well understood. This review considers some of the significant environmental factors affecting growth and population composition of chytrids in aquatic habitats. The physical factors include primarily salinity, dissolved oxygen concentration and temperature. The biological factors include the role of chytrids as saprobes and parasites and methods of dispersal of propagules throughout the ecosystem. Dispersal depends upon both zoospores for short range and whole thalli for long range dispersal. Five roles for chytrids in food-web dynamics are proposed: (1) chytrid zoospores are a good food source for zooplankton, (2) chytrids decompose particulate organic matter, (3) chytrids are parasites of aquatic plants, (4) chytrids are parasites of aquatic animals and (5) chytrids convert inorganic compounds into organic compounds. New molecular methods for analysis of chytrid diversity in aquatic environments have the potential to provide accurate quantitative data necessary for better understanding of ecological processes in aquatic ecosystems.     

湖泊富营养化治理: 集中控磷, 或氮磷皆控?

关于湖泊富营养化的治理, 有充足的全生态系统实验和湖泊治理实践表明, 只控磷(P)就可使湖泊贫营养化。但也有不少人认为需要氮(N)和P皆控。由于N和P皆控的成本可达只控P的4—15倍, 故确定富营养化治理是否必须既控P又控N是一个重大而现实的科学问题。针对这个问题, 文章对所有相关观点及其证据的科学性进行了系统辨析。首先, 系统总结了关于富营养化营养驱动与控制的研究历史。其次, 对判定营养控制的主要依据——限制因子的概念发展及判定方法进行了全面回顾与分析, 明确指出该概念的目的是确定促进生物生长的因子。第三, 介绍了新概念——减控因子, 其定义是: 在生态系统管理中, 能够抑制生物个体、种群和群落过度繁盛的必需环境因子, 或直接减灭生物本身的物理(机械)、化学和生物因子, 且成本效益最大。随后, 举例说明了确定减控因子的五个步骤, 即必需性、可控性、可行性、成本分析及实验和应用验证, 证明非限制因子也可成为减控因子, 而限制因子不一定是减控因子。第四, 基于减控因子分析, 指出湖泊富营养化的减控因子是P; 进而, 总结了加拿大和中国的全生态系统实验及大量湖泊治理实践的系统证据。这些充分证明: 仅控P就可控制富营养化, 而减N无助于控制浮游藻类总量, 反而会诱导固氮蓝藻大量生长。第五, 对控N观点的逻辑和实验依据逐一批驳, 指出这些争论或将限制因子混同于减控因子, 或缺乏大尺度的实验证据。第六, 系统辨析了高N的生态效应, 初步确定: 只有总氮和氨氮>5 mg/L时, N才对水生植物等有一定的负面影响且可促进沉积物P的释放。建议先把地表水Ⅰ—Ⅴ类的总氮和氨氮标准限值均放宽至2 mg/L, 后逐步放宽至5 mg/L左右。最后, 指出富营养化治理必须采取系统对策, 以修复物理、化学、水文和生物完整性。在维护湖盆物理完整性的基础上, 最根本的措施是控制外源P负荷总量; 若内源P负荷较大, 则可采取钝化等方法。次之, 应开展水位调控, 以修复水生植被, 实现浊-清稳态转换。综上所述, 湖泊富营养化治理应采取“放宽控N、集中控P的策略”, 以大幅度降低治理成本。     

Environmental disease: environmental alteration and infectious disease

Humans have changed their environment to survive and to achieve a safer and more comfortable life. For example, drinking water and wastewater infrastructures are indispensable for civilized societies to flourish and to prevent water-borne infectious diseases. However, excessive loading on environments might disturb microbial ecosystems, resulting in outbreaks of pathogenic microbes and the expansion of infectious diseases. Clarifying the relationship between environmental alterations and changes in microbial ecosystems is thus important to prevent further outbreaks of infectious diseases. The present study aims to understand the links between the following factors: environmental alterations; ecosystem disturbance and the occurrence of infectious disease; and impact on society. We focus on legionellosis and nontuberculous mycobacterial diseases from the viewpoint of their environmental linkage. While Legionella spp. are ubiquitous in aquatic environments, Legionella pneumophila often increases in anthropogenic environments, such as cooling towers or spas, and can cause outbreaks of legionellosis. Recently, travel-associated Legionnaires’ disease has caused concern in many countries. The numbers of patients infected with nontuberculous Mycobacteria (NTM) have increased worldwide since the 1990s. Disturbances to microbial ecosystems caused by changes in water usage might be one cause of NTM diseases. Clarifying the dynamics of Legionella pneumophila and NTM in aquatic environments should help prevent outbreaks of diseases associated with these bacteria.     

How is ecosystem health defined and measured? A critical review of freshwater and estuarine studies

Assessing ecosystem health is an ongoing priority for governments, scientists and managers worldwide. There are several decades of scientific literature discussing ecosystem health and approaches to assess it, with applications to aquatic and terrestrial environments incorporating economic, environmental and social processes. We conducted a systematic review of studies that assess ecosystem health to update our current understanding of how ecosystem health is being defined, and provide new ideas and directions on how it can be measured. We focused the review on studies that used the term ‘ecosystem health’ or the equivalent terms ‘ecosystem integrity’, ‘ecosystem quality’ and ‘ecosystem protection’, in lotic freshwater and estuarine environments, and examined how many of these included explicit definitions of what ecosystem health means for their study system. We collected information about the temporal and geographical distribution of studies, and the types of indicators (biological, physical or chemical) used in the assessments. We found few studies clearly defined ecosystem health and justified the choice of indicators. Given the broad use of the term it seems impractical to have an overarching definition of ecosystem health, but rather an approach that is able to define and measure health on a case by case basis. A combination of biological, physical and chemical indicators was commonly used to assess ecosystem health in both estuarine and freshwater studies, with a strong bias towards fish and macroinvertebrate community metrics (e.g. diversity, abundance and composition). We found only two studies that simultaneously considered both freshwater and estuarine sections of the ecosystem, highlighting the significant knowledge gap in our understanding of the transfer of flow, nutrients and biota between the different systems—all key factors that influence ecosystem health. This review is the first to combine knowledge from both freshwater and estuarine ecosystem assessments and critically review how aquatic ecosystem health is defined and measured since the late-1990s, providing the basis for setting achievable management goals relating to ecosystem health into the future.     

Emergent aquatic plants: Biological and economic perspectives

One of the most productive, but least exploited, biomass resources is the group classified as the emergent aquatic plants. The objective of this paper is to present information concerning the biological and economic factors that must be considered if emergent aquatic plants are to become viable feedstocks for multipurpose systems. Feedstock purposes highlighted include fuel and/or chemical production.Species identified as potential candidates for production in biomass systems include Arundo donax, Cyperus papyrus, Phragmites communis, Saccharum spontaneum, Spartina alterniflora, and Typha latifolia. If these species are to be viable candidates in biomass systems, a number of research areas must be further investigated. Issues such as development of baseline yield data for managed systems, mechanisation and harvesting conceptualisation, genetic (crop) improvement, identification of secondary plant products, and economic considerations require refinement. However, the potential pay-off for developing emergent aquatic systems will be significant if successful.     

Eutrophication: An ecological vision

The present review deals with the studies conducted on the impact of phosphorus on growth of aquatic plants causing eutrophication in well-known water bodies the world over. The review covers the definition and concept of eutrophication and the adverse effects on quality and ecosystem functioning. The eutrophication of several water bodies leads to significant changes in the structure and function of the aquatic ecosystem. Several activities of human interest, including navigation and power generation, are hampered. A large number of lakes in the United States, Europe, and Asia have recently been found to be highly eutrophic. Water, the precious fluid, is not uniformly distributed throughout the surface of the earth. Most of the water bodies world over are surrounded with densely populated human settlement areas and agricultural fields. The size of smaller water bodies in human settlement areas is on the decrease with rise in population. After treatment, a large quantity of sewage from the households is regularly discharged into the water bodies. The runoff brings down fertilizers and other chemicals from agricultural fields. The phosphorus contained in these effluents is known to promote excessive growth of plants. This review is an account of the role, sources, and monitoring of phosphorus, as well as its cycle. The natural phosphorus cycle originating from the weathering of phosphate rock is now a two-way operation, due to significant addition of phosphorus from anthropogenic sources. The detergents that are the major source of phosphorus inputs into water bodies (through sewage and drainage systems) have been thoroughly discussed. The major part of detergents comprises builders containing polyphosphate salts. An environment-friendly and effective synthetic builder is yet to be developed to replace existing phosphorus containing builders of detergents. The utility of the alternative builders available has been reviewed. Nitrogen has also been reported to affect the phytoplankton production in eutrophic waters in temperate regions. Several environmental factors have also been found to add to the problem of eutrophication in addition to nutrients. Several limiting factors—namely, CO₂ level, temperature, pH, light, and dissolved oxygen—are known to affect eutrophic water bodies. Eutrophication not only results in algal bloom but also affects wetland plants and activates early onset of natural succession at a relatively faster rate. Some of the plant species reported and studied world over are the best indicators of the level of eutrophication. The studies on the change in structure, function, and diversity of the ecosystem have been used as parameters to assess the level of eutrophication. In several countries adequate control measures have been adopted in to control eutrophication. But these measures were found to be only partially effective in controlling the phosphorus unloading in water bodies. In this review some control measures are suggested, with emphasis on biological control. The review concludes by taking into account the ecological prospective of the water—the precious fluid and a basis of life on the earth.     

Endocrine disruption in aquatic systems: up‐scaling research to address ecological consequences

Endocrine‐disrupting chemicals (EDCs) can alter biological function in organisms at environmentally relevant concentrations and are a significant threat to aquatic biodiversity, but there is little understanding of exposure consequences for populations, communities and ecosystems. The pervasive nature of EDCs within aquatic environments and their multiple sub‐lethal effects make assessments of their impact especially important but also highly challenging. Herein, we review the data on EDC effects in aquatic systems focusing on studies assessing populations and ecosystems, and including how biotic and abiotic processes may affect, and be affected by, responses to EDCs. Recent research indicates a significant influence of behavioural responses (e.g. enhancing feeding rates), transgenerational effects and trophic cascades in the ecological consequences of EDC exposure. In addition, interactions between EDCs and other chemical, physical and biological factors generate uncertainty in our understanding of the ecological effects of EDCs within aquatic ecosystems. We illustrate how effect thresholds for EDCs generated from individual‐based experimental bioassays of the types commonly applied using chemical test guidelines [e.g. Organisation for Economic Co‐operation and Development (OECD)] may not necessarily reflect the hazards associated with endocrine disruption. We argue that improved risk assessment for EDCs in aquatic ecosystems urgently requires more ecologically oriented research as well as field‐based assessments at population‐, community‐ and food‐web levels.     

淡水水生生态系统温室气体排放的主要途径及影响因素研究进展

淡水水生生态系统是全球陆域生态系统的重要组成部分,近年来,关于淡水水生生态系统温室气体排放的研究日益增多。基于国内外目前对湖泊、河流、水库及浅水池塘等淡水生态系统开展的最新研究成果,总结分析了淡水水生生态系统温室气体排放的3个主要途径及相应观测方法。气泡排放的观测方法有倒置漏斗法、开放式动态箱法和超声探测技术;植物传输的观测方法有密闭箱法和植株切割法;扩散途径的观测方法有静态浮箱法、模型估算法/梯度法、微气象学法、TDLAS吸收光谱法等。从物理因素、化学因素、生物因素、水动力因素和人类活动等角度,深入探讨了淡水水生生态系统温室气体排放通量的影响因素。最后根据当前研究中存在的不足,对今后的研究方向提出了建议,以期为我国进一步深入开展相关研究提供借鉴。     

Production of microcystins in calcareous Mediterranean streams: The Alharabe River,Segura River basin in south-east Spain

The development of epilithic cyanobacteria communities in a Mediterranean calcareous stream in the province of Murcia (SE Spain) was studied during the course of one year in an attempt to clarify the environmental variables that influence the production of microcystins. The predominant cyanobacteria were species of Rivularia, which formed conspicuous colonies throughout the year. Seasonally, other species were abundant: Schizothrix fasciculata, Tolypothrix distorta and Phormidium splendidum. All the species collected produced microcystins to a varying degree (up to five varieties), while the benthic community as a whole produced concentrations as high as 20.45 mg m⁻². At the same time, the presence of microcystins dissolved in water was confirmed. Among environmental variables, air temperature and silicate content were positively and strongly correlated with total microcystins, while nitrite, nitrate, orthophosphate, calcium and flow were negatively correlated with them. Dissolved microcystins were negatively correlated with microcystin LR, P.A.R. and total phosphorus and positively with rainfall. The production of microcystin YR seems to be regulated by different factors from those regulating the other main varieties (microcystin LR and microcystin RR). The data obtained indicate that all the tested benthic cyanobacteria produced microcystins in this shallow calcareous stream, which may contribute to their predominance in the prevailing conditions. The accumulation of microcystins in mucilaginous colonies of other groups of algae poses new questions concerning the possible ecological function of these compounds and needs further study.     

Patterns and governing forces in aquatic microbial communities

In this review we survey recent publications employing molecular techniques to investigate the distribution of microbial species in aquatic environments. We analyzed the occurrence of microbial phyla in freshwater and marine habitats and observed patterns of distribution that could be explained by the adaptation of microorganisms to physical and biological parameters that vary in aquatic habitats. The gram-positive bacteria, the Verrucomicrobiales and the - and -subdivisions of the Proteobacteria are distributed throughout a range of aquatic habitats, while other phylogenetic groups appear to be adapted to more narrowly defined environmental niches such as anoxic water and sediments (-Proteobacteria) or floating aggregates (Cytophaga-Flexibacter-Bacteroides phylum). -proteobacterial sequence types have been detected throughout freshwater habitats, but these organisms are largely absent from open ocean environments. Within several of these divisions, clusters of closely related small sub unit ribosomal RNA sequence types have been detected in geographically disparate environments, suggesting that some microbial species are globally distributed. In addition to physical variables such as salinity and pH, biological variables also influence microbial community composition. This was illustrated by changes that occurred in the eukaryotic and bacterial species composition in laboratory mesocosms after a viral outburst. We conclude that physical and biological forces govern the composition of aquatic microbial communities and result in divergent evolutionary histories of the indigenous microbial species.     

入侵植物凤眼莲研究现状及存在的问题

 凤眼莲(Eichhornia crassipes)原产南美洲,被列为世界十大恶性杂草之一,现已入侵了非洲、亚洲、北美洲、大洋州、甚至欧洲等5个大洲,至少62个国家和地区都受到了凤眼莲入侵的危害。凤眼莲的入侵已经引起了一系列的生态、经济、社会问题：首先,它改变了当地水体生态系统的物理、化学环境,进而影响水体生态系统的生物多样性,破坏食物链、物质循环等生态过程的正常运行;其次,凤眼莲造成当地经济的重大损失,航运、渔业、水利等都受到了危害;再次,凤眼莲的入侵爆发也对当地居民饮水、健康等造成威胁。目前,对于凤眼莲的控制及其治理主要有物理的、化学的、以及生物的等3种方法。利用天敌、病菌、以及化感作用等的生物控制被许多专家和学者推崇,同时,利用生物控制凤眼莲入侵也日益成为研究的热点。但是,综合目前对于凤眼莲的认识和研究,仍然具有片面性,需要从生物特性、种群生态、生态系统等方面深入研究凤眼莲入侵机制。而利用生物控制凤眼莲的研究和技术尚不完善,需要进行种间竞争、捕食及遗传变异等方面的探讨和研究。通过总结控制凤眼莲各种方法的长处和不足,最后指出利用生物的方法,并结合污水治理、水系宏观调控及监测等方法,综合治理凤眼莲,是十分必要的,而且也是最具有前景的。     

The Effects of Temperature, Nitrogen, and Phosphorus on the Encystment of Peridinium cinctum, Stein (Dinophyta)

For avoiding the unfavorable environmental conditions several aquatic microorganisms are capable of forming specialized resistance cells like akinets, hypnospores, statospores, etc. Recognition of the important role of cysts in the life cycles of dinoflagellates increased the need to study their role in the ecology of phytoplanktons, and this, combined with the knowledge of chemical and biological characteristics of the water, may lead to a better understanding of the spatial and temporal dynamics of dinoflagellates. This paper reports on the effects of temperature, nitrogen, and phosphorus on the percentage of encystment of the dinoflagellate Peridinum cinctum Stein. The phosphorus content of the medium affected encystment only at the highest temperature applied (22 °C). Nitrogen content and temperature were the most important factors controlling the encystment.     

Quantitative 3-dimensional Image Analysis of Mineral Surface Modifications—Chemical,Mechanical and Biological

Three principally different mechanisms contribute to the wear-down process of mineral aggregates in sedimentary environments: (1) mechanical abrasion by forces of wind and water and by floating or saltating neighbouring grains, (2) chemical attack and dissolution by fluids, and (3) physical bioerosion and chemical biocorrosion. It is however, difficult to attribute the specific surface changes to specific environments and processes. Quartz sand grains from subaerial and subaquatic environments were analysed by atomic force microscopy (AFM) for traces of natural and experimental aeolian, aquatic and biological wear-down processes. Quantitative topographical parameters of surface alterations were extracted from topography data by non-linear methods derived from digital image analysis. These parameters were examined by multivariate statistic, yielding three well-distinguishable groups. Morphological surface alterations dominated by subaerial, subaquatic and by biological impact could be differentiated. The method may also be used for the detection of aeolian, subaquatic, and biological modification of sedimentary grains and rock surfaces in extraterrestrial environments, and for assessment of environmental damage on monuments and buildings.     

A SYSTEMATIC STUDY OF GIGAR-TINACEAE FROM PACIFIC NORTH AMERICA BASED ON MOLECULAR AND MORPHOLOGICAL EVIDENCE

Frequent episodes of algal-related tastes and odors (T & O) in drinking waters in metropolitan Phoenix, Arizona prompted initiation of a three-year project in July 1999 to investigate the occurrence of T & O metabolites and to develop a comprehensive management strategy to reduce the problems in drinking water supplies in arid environments. Two metabolites, 2-methylisoborneol (MIB) and geosmin, have been identified as compounds responsible for the earthy-musty tastes and odors in water supplies. Both were detected in the water supply system, including source rivers, reservoirs, canal delivery system and water treatment plants. Higher concentrations of MIB and geosmin occurred in distribution canals than in the upstream reservoirs indicating that significant production of the T & O compounds occurs within the canal system. A baseline-monitoring program has been established for the complex water supply system, with special emphasis on the canal system. Efforts are underway to investigate possible correlations between physical/chemical parameters, algal composition and biomass, with the occurrence of MIB and geosmin. In addition, several physical and chemical treatments are planned for the canal system to reduce algal growth and related MIB and geosmin concentrations.