Showing total 50 results

1. Quantifying Variability in Four US Streams Using a Long-Term Data Set: Patterns in Water Quality Endpoints.

Author

McLaughlin DB and Flinders CA

Subjects

Conservation of Natural Resources, Decision Making, Ecosystem, Environmental Monitoring, Nitrogen analysis, Paper, Phosphorus analysis, United States, Rivers chemistry, Water Pollutants, Chemical analysis, Water Quality

Abstract

Temporal and spatial patterns of variability in aquatic ecosystems can be complex and difficult to quantify or predict. However, understanding this variability is critical to making a wide range of water quality assessment and management decisions effectively. Here we report on the nature and magnitude of spatial and temporal variation observed in conductivity, total phosphorus, and total nitrogen during a 15-year study of four U.S. stream systems receiving pulp and paper mill effluent discharges. Sampling locations included mainstem sites upstream and downstream of effluent discharge, as well as tributary sites. In all four stream systems, variability in conductivity as measured by the coefficient of variation was typically in the range of 10-50%, and was as low or lower than the variability in nutrient endpoints. The effect of effluent discharge was relatively minor overall, except in some site-specific instances. Some relatively large differences between tributary and mainstem variability were also observed. Flow variation tended to have a more consistent and larger effect on conductivity variation compared to the nutrient endpoints. After removing flow effects, significant relatively complex trends over time were observed at several sites. Changes in variability during the study also were observed. This paper highlights the importance of long-term studies to accurately characterize water quality variability used in water quality management decision-making.

Published

2016

2. Tools for water quality monitoring and mapping using paper-based sensors and cell phones.

Author

Sicard C, Glen C, Aubie B, Wallace D, Jahanshahi-Anbuhi S, Pennings K, Daigger GT, Pelton R, Brennan JD, and Filipe CD

Subjects

Colorimetry instrumentation, Image Processing, Computer-Assisted, Microfluidic Analytical Techniques, Organophosphates analysis, Pesticides analysis, Environmental Monitoring instrumentation, Environmental Monitoring methods, Paper, Smartphone, Water Pollutants, Chemical analysis, Water Quality

Abstract

In this paper we describe a combination of paper-based sensors and a novel smart-phone application for on-site quantification of colorimetric readouts as an ultra-low cost solution to monitoring water quality. The system utilizes a paper-based analytical device (μPAD) that produces a colorimetric signal that is dependent on the concentration of a specific target; a cell phone equipped with a camera for capturing images of two μPADs - one tested with a water sample and the other tested with clean water that is used as a control; and an on-site image processing app that uses a novel algorithm for quantifying color intensity and relating this to contaminant concentration. The cell phone app utilizes a pixel counting algorithm that performs with less bias and user subjectivity than the typically used lab-based software, ImageJ. The use of a test and control strip reduces bias from variations in ambient lighting, making it possible to acquire and process images on-site. The cell phone is also able to GPS tag the location of the test, and transmit results to a newly developed website, WaterMap.ca, that displays the quantitative results from the water samples on a map. We demonstrate our approach using a previously developed μPAD that detects the presence of organophosphate pesticides based on the inhibition of immobilized acetylcholinesterase by these contaminants. The objective of this paper is to highlight the importance and potential of developing and integrated monitoring system consisting of μPADs, cell-phones and a centralized web portal for low-cost monitoring environmental contaminants at a large-scale., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2015

3. WATER QUALITY CRITERIA FOR EUROPEAN FRESHWATER FISH. REPORT ON FINELY DIVIDED SOLIDS AND INLAND FISHERIES. (EIFAC TECHNICAL PAPER. 1).

Author

STEHMAN M

Subjects

Europe, Fisheries, Fresh Water, Paper, Water Quality

Published

1965

4. EC treatment for reuse of tissue paper wastewater: Aspects that affect energy consumption

Author

Terrazas, Eduardo, Vázquez, Armando, Briones, Roberto, Lázaro, Isabel, and Rodríguez, Israel

Subjects

*COAGULATION (Sewage purification), *TISSUE paper, *ENERGY consumption, *ELECTROCOAGULATION (Chemistry), *TURBIDITY, *WASTEWATER treatment, *ELECTROLYSIS, *WATER quality, *ALUMINUM

Abstract

Abstract: The need for more rational use of water also calls for more efficient usage. An example is the production of tissue paper, where large amounts of water are discharged into the drain because its turbidity does not allow for recirculation. While this is a serious problem, even worse is the fact that the quality of such wastewater makes it difficult not only to recirculate but also to discharge due to environmental law restrictions. In this paper, electrocoagulation is proposed as a suitable technology to meet standards of water discharge, and even better, as a treatment option for removal of turbidity. Since energy consumption has been a drawback for EC applications, relevant aspects that contribute to increase it such as cell voltage and current density have been reviewed. For this purpose a systematic micro-electrolysis study combined with macro-electrolysis experiments have provided evidence that shows it is possible to achieve a turbidity removal of 92% with an energy consumption of 0.68kWh/m3. Thus, the results presented in this paper support the use of EC to obtain water of acceptable quality for reuse in the tissue paper industry. [Copyright &y& Elsevier]

Published

2010

5. Removal performance and water quality analysis of paper machine white water in a full-scale wastewater treatment plant

Author

Shuai Fang, Shuai Shi, Xiaoguang Li, Can Wang, and Minghao Jia

Subjects

Paper, Color, 02 engineering and technology, Wastewater, 010501 environmental sciences, Waste Disposal, Fluid, 01 natural sciences, law.invention, law, Water Quality, Environmental Chemistry, Water Pollutants, Organic matter, Waste Management and Disposal, Filtration, 0105 earth and related environmental sciences, Water Science and Technology, Biological Oxygen Demand Analysis, chemistry.chemical_classification, Pollutant, Suspended solids, Chemical oxygen demand, Environmental engineering, General Medicine, Hydrogen-Ion Concentration, 021001 nanoscience & nanotechnology, chemistry, Environmental science, Sewage treatment, Water quality, 0210 nano-technology

Abstract

Paper machine white water is generally characterized as a high concentration of suspended solids and organic matters. A combined physicochemical-biological and filtration process was used in the study for removing pollutants in the wastewater. The removal efficiency of the pollutant in physicochemical and biological process was evaluated, respectively. Furthermore, advanced technology was used to analyse the water quality before and after the process treatment. Experimental results showed that the removal efficiency of suspend solids (SS) of the system was above 99%, while the physicochemical treatment in the forepart of the system had achieved about 97%. The removal efficiency of chemical oxygen demand (COD) and colour had the similar trend after physicochemical treatment and were corresponding to the proportion of suspended and the near-colloidal organic matter in the wastewater. After biological treatment, the removal efficiency of COD and colour achieved were about 97% and 90%, respectively. Furthermore, molecular weight (MW) distribution analysis showed that after treatment low MW molecules (5 kDa) increased. Three-dimensional excitation-emission matrix fluorescence analysis showed that most humic-like substances were effectively removed during the treatment. The analyses of gas chromatography/mass spectrometry showed that the composition of organic matter in the wastewater was not complicated. Methylsiloxanes were the typical organic components in the raw wastewater and most of them were removed after treatment.

Published

2016

6. Quantifying Variability in Four US Streams Using a Long-Term Data Set: Patterns in Water Quality Endpoints

Author

Camille A. Flinders and Douglas B. McLaughlin

Subjects

Paper, Conservation of Natural Resources, Nitrogen, Decision Making, 0208 environmental biotechnology, 02 engineering and technology, STREAMS, 010501 environmental sciences, 01 natural sciences, Upstream and downstream (DNA), Rivers, Water Quality, Tributary, Environmental monitoring, Effluent, Ecosystem, 0105 earth and related environmental sciences, Hydrology, Global and Planetary Change, geography, geography.geographical_feature_category, Ecology, Phosphorus, Pollution, United States, 020801 environmental engineering, Spatial ecology, Environmental science, Spatial variability, Water quality, Water Pollutants, Chemical, Environmental Monitoring

Abstract

Temporal and spatial patterns of variability in aquatic ecosystems can be complex and difficult to quantify or predict. However, understanding this variability is critical to making a wide range of water quality assessment and management decisions effectively. Here we report on the nature and magnitude of spatial and temporal variation observed in conductivity, total phosphorus, and total nitrogen during a 15-year study of four U.S. stream systems receiving pulp and paper mill effluent discharges. Sampling locations included mainstem sites upstream and downstream of effluent discharge, as well as tributary sites. In all four stream systems, variability in conductivity as measured by the coefficient of variation was typically in the range of 10-50%, and was as low or lower than the variability in nutrient endpoints. The effect of effluent discharge was relatively minor overall, except in some site-specific instances. Some relatively large differences between tributary and mainstem variability were also observed. Flow variation tended to have a more consistent and larger effect on conductivity variation compared to the nutrient endpoints. After removing flow effects, significant relatively complex trends over time were observed at several sites. Changes in variability during the study also were observed. This paper highlights the importance of long-term studies to accurately characterize water quality variability used in water quality management decision-making.

Published

2015

7. A screen-printed paper microbial fuel cell biosensor for detection of toxic compounds in water

Author

Jon, Chouler, Álvaro, Cruz-Izquierdo, Saravanan, Rengaraj, Janet L, Scott, and Mirella, Di Lorenzo

Subjects

Paper, Bioelectric Energy Sources, Formaldehyde, Water Quality, Water, Biosensing Techniques, Equipment Design, Electrodes, Carbon, Water Pollutants, Chemical

Abstract

Access to safe drinking water is a human right, crucial to combat inequalities, reduce poverty and allow sustainable development. In many areas of the world, however, this right is not guaranteed, in part because of the lack of easily deployable diagnostic tools. Low-cost and simple methods to test water supplies onsite can protect vulnerable communities from the impact of contaminants in drinking water. Ideally such devices would also be easy to dispose of so as to leave no trace, or have a detrimental effect on the environment. To this aim, we here report the first paper microbial fuel cell (pMFC) fabricated by screen-printing biodegradable carbon-based electrodes onto a single sheet of paper, and demonstrate its use as a shock sensor for bioactive compounds (e.g. formaldehyde) in water. We also show a simple route to enhance the sensor performance by folding back-to-back two pMFCs electrically connected in parallel. This promising proof of concept work can lead to a revolutionizing way of testing water at point of use, which is not only green, easy-to-operate and rapid, but is also affordable to all.

Published

2017

8. Incorporation of copper nanoparticles into paper for point-of-use water purification

Author

James A. Smith and Theresa A. Dankovich

Subjects

Paper, Hot Temperature, Environmental Engineering, Inorganic chemistry, Metal Nanoparticles, chemistry.chemical_element, Nanoparticle, Portable water purification, Ascorbic Acid, Article, Silver nanoparticle, Water Purification, law.invention, X-Ray Diffraction, law, Water Quality, Escherichia coli, Particle Size, Waste Management and Disposal, Effluent, Water Science and Technology, Civil and Structural Engineering, Chemistry, Spectrophotometry, Atomic, Ecological Modeling, Spectrometry, X-Ray Emission, Ascorbic acid, Pollution, Copper, Microscopy, Electron, Scanning, Water treatment, Atomic absorption spectroscopy, Disinfectants, Nuclear chemistry

Abstract

As a cost-effective alternative to silver nanoparticles, we have investigated the use of copper nanoparticles in paper filters for point-of-use water purification. This work reports an environmentally benign method for the direct in situ preparation of copper nanoparticles (CuNPs) in paper by reducing sorbed copper ions with ascorbic acid. Copper nanoparticles were quickly formed in less than 10 minutes and were well distributed on the paper fiber surfaces. Paper sheets were characterized by x-ray diffraction, scanning electron microscopy, energy dispersive x-ray spectroscopy, and atomic absorption spectroscopy. Antibacterial activity of the CuNP sheets was assessed for by passing Escherichia coli bacteria suspensions through the papers. The effluent was analyzed for viable bacteria and copper release. The CuNP papers with higher copper content showed a high bacteria reduction of log 8.8 for E. coli. The paper sheets containing copper nanoparticles were effective in inactivating the test bacteria as they passed through the paper. The copper levels released in the effluent water were below the recommended limit for copper in drinking water (1 ppm).

Published

2014

9. Pollution Assessment of the Biobío River (Chile): Prioritization of Substances of Concern Under an Ecotoxicological Approach

Author

Ricardo Figueroa, Pilar Castro-Díez, and Álvaro Alonso

Subjects

Pollution, Paper, Geologic Sediments, Watershed, Pentachlorophenol, Heptachlor, media_common.quotation_subject, 0211 other engineering and technologies, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Point source pollution, chemistry.chemical_compound, Rivers, Environmental protection, Ammonia, Water Quality, Chile, Effluent, 0105 earth and related environmental sciences, media_common, Pollutant, 021110 strategic, defence & security studies, Global and Planetary Change, Ecology, Aquatic ecosystem, Agriculture, Forestry, Mercury, Phenanthrenes, chemistry, Environmental science, Water quality, Copper, Water Pollutants, Chemical, Aluminum, Environmental Monitoring

Abstract

The water demand for human activities is rapidly increasing in developing countries. Under these circumstances, preserving aquatic ecosystems should be a priority which requires the development of quality criteria. In this study we perform a preliminary prioritization of the risky substances based on reported ecotoxicological studies and guidelines for the Biobio watershed (Central Chile). Our specific aims are (1) reviewing the scientific information on the aquatic pollution of this watershed, (2) determining the presence and concentration of potential toxic substances in water, sediment and effluents, (3) searching for quality criteria developed by other countries for the selected substances and (4) prioritizing the most risky substances by means of deterministic ecotoxicological risk assessment. We found that paper and mill industries were the main sources of point pollution, while forestry and agriculture were mostly responsible for non-point pollution. The most risky organic substances in the water column were pentachlorophenol and heptachlor, while the most relevant inorganic ones were aluminum, copper, unionized ammonia and mercury. The most risky organic and inorganic substances in the sediment were phenanthrene and mercury, respectively. Our review highlights that an important effort has been done to monitor pollution in the Biobio watershed. However there are emerging pollutants and banned compounds—especially in sediments—that require to be monitored. We suggest that site-specific water quality criteria and sediment quality criteria should be developed for the Biobio watershed, considering the toxicity of mixtures of chemicals to endemic species, and the high natural background level of aluminum in the Biobio.

Published

2016

10. Urban groundwater quality in sub-Saharan Africa: current status and implications for water security and public health

Author

Marianne E. Stuart, Dan Lapworth, D.C.W. Nkhuwa, Moshood N. Tijani, James S. Wright, S. Pedley, and Joseph Okotto-Okotto

Subjects

Paper, Resource (biology), 0208 environmental biotechnology, Population, Aquifer, 02 engineering and technology, 010501 environmental sciences, Nitrate, 01 natural sciences, 12. Responsible consumption, Groundwater quality, 11. Sustainability, Earth and Planetary Sciences (miscellaneous), Microbiological contamination, education, Environmental planning, 0105 earth and related environmental sciences, Water Science and Technology, 2. Zero hunger, geography, education.field_of_study, geography.geographical_feature_category, Sub-Saharan Africa, Environmental engineering, Livelihood, 6. Clean water, 020801 environmental engineering, Water security, 13. Climate action, Health, Sustainability, Urban groundwater, Water quality, Groundwater

Abstract

Groundwater resources are important sources of drinking water in Africa, and they are hugely important in sustaining urban livelihoods and supporting a diverse range of commercial and agricultural activities. Groundwater has an important role in improving health in sub-Saharan Africa (SSA). An estimated 250 million people (40% of the total) live in urban centres across SSA. SSA has experienced a rapid expansion in urban populations since the 1950s, with increased population densities as well as expanding geographical coverage. Estimates suggest that the urban population in SSA will double between 2000 and 2030. The quality status of shallow urban groundwater resources is often very poor due to inadequate waste management and source protection, and poses a significant health risk to users, while deeper borehole sources often provide an important source of good quality drinking water. Given the growth in future demand from this finite resource, as well as potential changes in future climate in this region, a detailed understanding of both water quantity and quality is required to use this resource sustainably. This paper provides a comprehensive assessment of the water quality status, both microbial and chemical, of urban groundwater in SSA across a range of hydrogeological terrains and different groundwater point types. Lower storage basement terrains, which underlie a significant proportion of urban centres in SSA, are particularly vulnerable to contamination. The relationship between mean nitrate concentration and intrinsic aquifer pollution risk is assessed for urban centres across SSA. Current knowledge gaps are identified and future research needs highlighted.Les ressources en eaux souterraines sont des sources importantes d’eau potable en Afrique, et elles sont d’une énorme importance pour les êtres vivants en milieu urbain et pour le soutien d’une gamme diversifiée d’activités commerciales et agricoles. Les eaux souterraines jouent un rôle important en améliorant la santé en Afrique sub-saharienne (ASS). 250 millions de personnes environ (40% du total) vivent dans des centres urbains à travers l’ASS. L’ASS a connu une expansion rapide de ses populations urbaines depuis les années 1950, avec une augmentation à la fois des densités de population et de leur extension géographique. Les estimations prévoient un doublement de la population urbaine de l’ASS entre 2000 et 2030. L’état qualitatif des ressources en eau souterraine urbaines peu profondes est souvent très pauvre du fait de l’insuffisance de la gestion des déchets et de la protection de la ressource, et pose un risque sanitaire significatif pour les utilisateurs, alors que des ressources plus profondes captées par forage fournissent souvent une source importante d’eau potable de bonne qualité. Etant donné la croissance de la demande future de cette ressource limitée, ainsi que le changement climatique potentiel dans cette région dans le futur, une compréhension détaillée de la quantité et la qualité de cette ressource est exigée pour son utilisation durable. Cet article fournit une évaluation complète de l’état qualitatif, à la fois microbien et chimique, des eaux souterraines urbaines en ASS à travers une gamme de contextes hydrogéologiques et de différents types de point d’eaux souterraines. Les terrains du sous-sol de faible emmagasinement, qui sont situés sous une proportion significative de centres urbains en ASS, sont particulièrement vulnérables à la contamination. Le rapport entre la concentration moyenne en nitrate et le risque intrinsèque de pollution des aquifères est évalué pour les centres urbains de l’ASS. Des lacunes actuelles en matière de connaissances sont identifiées et les besoins de recherches futurs sont mis en évidence.Los recursos hídricos subterráneos son una fuente importante de agua potable en África y son sumamente importantes para mantener los medios de subsistencia urbanos y para apoyar una amplia gama de actividades comerciales y agrícolas. El agua subterránea tiene un papel importante en la mejora de la salud en el África Subsahariana (SSA). Se calcula que 250 millones de personas (40% del total) viven en centros urbanos en el África Subsahariana. El SSA ha experimentado una rápida expansión en las poblaciones urbanas desde la década de 1950, con el aumento de la densidad de población, así como la ampliación de la cobertura geográfica. Las estimaciones sugieren que la población urbana en África Subsahariana se duplicará entre 2000 y 2030. El estado de calidad del agua subterránea somera es a menudo muy pobre debido a la gestión inadecuada de los desechos y de la protección de las fuentes, representando un riesgo significativo para los usuarios, mientras que los pozos más profundos proporcionan una fuente importante de agua potable de buena calidad. Dado el crecimiento de la demanda futura de este recurso finito, así como los cambios potenciales en el clima futuro en esta región, una comprensión detallada de su cantidad y calidad es necesaria para utilizar este recurso de manera sostenible. Este artículo ofrece una evaluación integral del estado de la calidad del agua, tanto microbiana como química, del agua subterránea urbana en el SSA a lo largo de una serie de terrenos hidrogeológicos y diferentes tipos de puntos de agua subterránea. Los basamentos de bajo almacenamiento, que subyacen a una proporción significativa de los centros urbanos del África Subsahariana, son particularmente vulnerables a la contaminación. Se evalúa la relación entre la concentración media de nitratos y el riesgo intrínseco de contaminación acuífera para los centros urbanos a través de la SSA. Se identifican las deficiencias actuales de conocimientos y se destacan las necesidades de futuras investigaciones.地下水资源是非洲重要的饮用水源,在维系城市生计和支撑各种商业和农业活动中至关重要。地下水在改善撒哈拉以南非洲民众健康方面发挥着重要作用。在撒哈拉以南非洲,预计有2.5亿人居住在城市地区(占总数的40 %)。自从上世纪50年代,本区域城市人口快速膨胀,密度不断增加,面积不断扩大。估测结果显示,撒哈拉以南非洲的城市人口在2000年至2030年间将翻一番。由于废物管理不当及水源污染,城市浅层地下水源水质常常非常差,对用水者产生很大的健康风险,而较深钻井水源常常提供重要的高质量饮水水源。考虑到此有限水源的基础上将来需求的增长以及本地区将来的气候潜在变化,需要详细了解水量和水质状况,以便可持续利用水源。本文从微生物和化学上综合评价了撒哈拉以南非洲各种水质状况地形及不同地下水水点类型的水质状况。在撒哈拉以南非洲,水存储量低的基岩地形在城市中心占有很大的比例,特别容易受到污染。对整个撒哈拉以南非洲的城市中心平均硝酸盐含量和固有的含水层污染风险之间的关系进行了评价。明确了目前的认识空白,并强调了将来的研究需求。.As águas subterrâneas são fontes importantes de água para consumo na África, e são amplamente importantes para sustentar o modo de vida urbano e dar suporte a uma amplitude diversa de atividades comerciais e agrícolas. As águas subterrâneas têm um papel importante no desenvolvimento da saúde na África subsaariana (ASS). São estimadas 250 milhões de pessoas (40% do total) vivendo nos centros urbanos na ASS. ASS tem vivenciado uma rápida expansão na população urbana desde os anos 50, com aumento das densidades populacionais assim como expansão da cobertura geográfica. As estimativas sugerem que a população urbana na ASS dobrará entre 2000 e 2030. As condições de qualidade dos aquíferos livres em áreas urbanas estão frequentemente muito pobres por causa do gerenciamento de perdas e proteção das fontes inadequados, e apresenta um risco significativo à saúde dos usuários, enquanto poços mais profundos frequentemente fornecem fontes importantes de água potável de boa qualidade. Dado o crescimento na demanda futura desse recurso finito, assim como mudanças potenciais no clima futuro da região, um entendimento detalhado da sua quantidade e qualidade é necessário para o uso sustentável deste recurso. Esse estudo fornece uma avaliação compreensiva das condições de qualidade da água, tanto microbiológica quanto química, das águas subterrâneas urbanas na ASS por uma gama de terrenos hidrogeológicos e diferentes tipos pontuais de águas subterrâneas. Terrenos de menor armazenamento de base, que fundamentam uma porção significante dos centros urbanos da ASS, são particularmente vulneráveis a contaminação. A relação entre a concentração média de nitrato e o risco intrínseco de poluição do aquífero é avaliado para os centros urbanos na ASS. Lacunas do conhecimento atual foram identificadas e destaca-se a necessidade de pesquisas futuras.

Published

2016

11. Investigating the link between pulp mill effluent and endocrine disruption: Attempts to explain the presence of intersex fish in the Wabigoon River, Ontario, Canada

Author

Richard Schryer, Michael S. Pollock, and Monique G. Dubé

Subjects

Male, Paper, Pulp mill, Health, Toxicology and Mutagenesis, Disorders of Sex Development, Industrial Waste, Endocrine Disruptors, Biology, Mesocosm, Fish Diseases, Animal science, Rivers, Species Specificity, Animals, Environmental Chemistry, Gonadal Steroid Hormones, Hypoxia, Effluent, business.industry, Reproduction, Fishes, Hypoxia (environmental), Aquatic animal, Paper mill, Environmental chemistry, Female, Water quality, Pimephales promelas, business, Water Pollutants, Chemical

Abstract

The ability of some pulp mill effluents (PME) to act as reproductive and endocrine disrupters in fish is well documented in the literature. However, changes are not always consistent with regard to species, gender, hormones, or reproductive effects. In the present study, the presence of the first intersexed fish that, to our knowledge, has been found in a Canadian river exposed to PME, is reported. A field survey of the Wabigoon River near Dryden, Ontario, in the fall of 2000 found intersexed walleye (Sander vitreus vitreus) with significantly altered hormone levels and reduced gonad size. The Wabigoon River receives discharge from a bleached kraft pulp and paper mill and a municipal wastewater (MWW) plant. It also has historical sediment contamination (wood fiber mats) contributing to extended periods of low dissolved oxygen under low flow, drought conditions. A mesocosm-based partial life cycle test exposing fathead minnows (Pimephales promelas) to reference water, 20% effluent volume to river volume (v/v), 40% (v/v), or 60% (v/v) PME as well as a field survey of the walleye in the Wabigoon River were conducted. The only change in our mesocosm exposure was a decrease in testosterone in males with increasing effluent concentration and vitellogenin induction in males exposed to 60% (v/v) effluent. These results did not reflect the magnitude of endocrine disruption seen in the wild fish survey. Several hypotheses that may explain these discrepancies are proposed. Specifically, evidence is offered from published studies indicating that either hypoxia or MWW, alone or in combination with PME, may explain the discrepancy between our field experiment and the wild fish survey. The present study illustrates the complexities of multistressor receiving environments and the need for the development of cumulative effects assessment approaches. Environ. Toxicol. Chem. 2010;29:952–965. © 2010 SETAC

Published

2010

12. Effects of pulp and paper mill effluent on fish: A temporal assessment of fish health across sampling cycles

Author

Kelly R. Munkittrick, Timothy J. Barrett, Richard B. Lowell, and Maureen Tingley

Subjects

Male, Paper, Ecology, business.industry, Health, Toxicology and Mutagenesis, Sentinel species, Fishes, Industrial Waste, Paper mill, Risk Assessment, Monitoring program, Toxicology, Nutrient, Meta-Analysis as Topic, Animals, Environmental Chemistry, Environmental science, Female, Water quality, Water pollution, business, Effluent, Population dynamics of fisheries, Water Pollutants, Chemical

Abstract

The Canadian environmental effects monitoring (EEM) program is a regulated, cyclical, industry-funded program designed to determine whether receiving water impacts exist when a mill is in compliance with its discharge limits. The results from three cycles of the fish monitoring program (1992 to 2004) are available from over 200 surveys of fish compared between sites located upstream and downstream of pulp and paper mill effluent outfalls. Previous meta-analyses have shown a national average response pattern across cycles characterized by an increase in endpoints measuring energy storage and growth and a decrease in a reproductive endpoint, consistent with a response of nutrient enrichment in combination with some form of metabolic disruption. Although the national average pattern of effects was temporally consistent, there was some variability in the magnitude of effects among cycles. Questions were raised as to whether the intercycle variability was due to changes in effluent quality or due, at least in part, to other factors. The present study compares responses over the first three cycles, and shows that the choice of sentinel species is likely to be a major contributing factor to the variability in observed effects. Subset analyses using studies from mills that used the same sentinel species across cycles reveal fairly uniform responses and little evidence of significant improvements in overall fish health from cycles one to three. However, a meta-analysis using 1991 data collected from 10 mills before the implementation of the EEM program and data from the same mills collected during cycles one to three of the program reveal significantly reduced effects on relative liver weight and potential improvements in other endpoints. Environ. Toxicol. Chem. 2010;29:440–452. © 2009 SETAC

Published

2009

13. Water resource use and management by the United States forest products industry

Author

B. J. Malmberg, G. G. Ice, C. A. Flinders, P. S. Wiegand, and R. P. Fisher

Subjects

Paper, Conservation of Natural Resources, Time Factors, Environmental Engineering, Surface Properties, Forest management, Water supply, Fresh Water, Waste Disposal, Fluid, Trees, Water conservation, Water Supply, Industry, Raw water, Effluent, Ecosystem, Water Science and Technology, Land use, business.industry, Environmental engineering, Forestry, Wood, United States, Water resources, Environmental science, Water quality, business

Abstract

The connections between forest products operations and water resources in the United States is considered and, where possible, quantified. Manufacture of wood, pulp, and paper products and the influences of forest management and forest products manufacture on water quality are discussed. Most fresh water in the US originates in forested areas. Responsible harvesting strategies, best management practices, and forest re-growth combine to minimize or eliminate changes in water availability and degradation of water quality due to harvesting. Relative to alternative land uses and large-scale disturbance events, forested areas produce the highest quality of fresh water. Water inputs for the manufacture of forest products total about 5.8 billion m3 per year, an amount equal about 0.4% of the surface and groundwater yield from timberland. Approximately 88% of water used in manufacturing is treated and returned directly to surface waters, about 11% is converted to water vapor and released during the manufacturing process, and 1% is imparted to products or solid residuals. Extensive study and continued monitoring of treated effluents suggest few or no concerns regarding the compatibility of current effluents with healthy aquatic systems.

Published

2009

14. Analytical and chemometric characterization of the Cruces River in South Chile

Author

Jürgen W. Einax and Kristin Schaefer

Subjects

Paper, Pollution, Geologic Sediments, Time Factors, Health, Toxicology and Mutagenesis, media_common.quotation_subject, Industrial Waste, Sewage, Wetland, Rivers, Water Supply, Dissolved organic carbon, Industry, Environmental Chemistry, Chile, Organic Chemicals, Ecosystem, Humic Substances, media_common, Total organic carbon, Hydrology, geography, Suspended solids, geography.geographical_feature_category, Geography, business.industry, Sediment, General Medicine, Carbon, Metals, Environmental chemistry, Multivariate Analysis, Environmental science, Seasons, Water quality, Water Microbiology, business, Water Pollutants, Chemical

Abstract

The Cruces River, which is located in southwest Chile, suffered from dramatic changes after the opening of a large pulp mill in 2004. A large mass mortality of the vegetation occurred. In particular, the Brazilian elodea (Egeria densa), which is the main food source of many water birds in this ecosystem, disappeared. Because of this damage, different investigations took place and the goal of this research was a description of the water quality, including filtrate, suspended matter, and sediment. In this research, inorganic parameters were the main point of interest. Furthermore, finding relations between the sampling sites and the measured parameters by applying chemometric methods was another aim of this investigation. Water and sediment samples were collected from 19 sampling sites at the Cruces River in summer (February) 2007. Fifteen elements were analyzed by atomic spectroscopic methods in filtrate, suspended matter, and sediment. Furthermore, the dissolved organic carbon, humic acids, and microbiological parameters were examined. The quantitative description of the three different compartments indicates little influence of the pulp mill on the Cruces River. The comparison of the results with the Databank for Ecotoxicological Effect Data and Quality Targets illustrates the good quality of the water in the sanctuary. All quality targets, except for copper, are achieved. The amount of suspended matter increases with the beginning of the wetland. The multivariate statistical data analysis classifies the relations between the objects and variables. The influence of the sewage, which is blamed to be the reason for increased amount of suspended matter, cannot be evaluated by this investigation. The slight increase of the concentrations of the earth alkaline and alkaline metals might cause changes in the chemical equilibrium and, therefore, the amount of suspended matter increases. Applying cluster analysis separates sampling sites by the determination of similarities between these sampling sites by means of the variables. Space–time factor analysis revealed relations between the examined parameters. The sewage of the pulp mill is not significantly polluted by the analyzed parameters and a negative influence to the ecosystem cannot be proved. The impact of copper should be examined in further investigations. The Pichoy River, with high concentrations of iron in the filtrate, should be examined as well. Studies about the chemical equilibrium of iron and manganese oxides in relation to the alkaline and earth alkaline elements should take place.

Published

2009

15. Efficient water use in industries: Cases from the Indian agro-based pulp and paper mills

Author

Vidya S. Batra, P.K. Tewari, and Malini Balakrishnan

Subjects

Paper, Conservation of Natural Resources, Engineering, Environmental Engineering, Natural resource economics, Hydraulic engineering, media_common.quotation_subject, India, Efficiency, Management, Monitoring, Policy and Law, Reuse, Waste Disposal, Fluid, Scarcity, Waste Management, Industry, Raw water, Waste Management and Disposal, Effluent, media_common, Waste management, business.industry, Water, Agriculture, Paper mill, General Medicine, Water quality, business, Water use

Abstract

Agro-based pulp and paper mills in India are one of the most polluting industries; in addition, they are high consumers of raw water. Growing scarcity of high quality freshwater as well as stringent regulatory standards is compelling these units to explore appropriate water management options. Based on data obtained through a questionnaire survey and plant visits, this work provides an overview of the water use and effluent treatment status in Indian agro-residue and recycled pulp and paper mills. The challenges faced by this sector are reviewed and practices adopted by progressive units to minimize freshwater use are illustrated through case studies.

Published

2009

16. Semipermeable membrane device (SPMD) for monitoring PCDD and PCDF levels from a paper mill effluent in the Androscoggin River, Maine, USA

Author

David L. Courtemanch, Aria Amirbahman, Lucner Charlestra, and Howard H. Patterson

Subjects

Paper, Polychlorinated Dibenzodioxins, Environmental Engineering, Health, Toxicology and Mutagenesis, Industrial Waste, Rivers, Environmental Chemistry, Maine, Water pollution, SPMD, Effluent, Benzofurans, Persistent organic pollutant, Geography, business.industry, Chemistry, Public Health, Environmental and Occupational Health, Paper mill, General Medicine, General Chemistry, Dibenzofurans, Polychlorinated, Pollution, Environmental chemistry, Water quality, business, Surface water, Water Pollutants, Chemical, Polychlorinated dibenzofurans, Environmental Monitoring

Abstract

Paper mill effluents may contain polychlorinated dibenzo-p-dioxins (PCDDs) and polychlorinated dibenzofurans (PCDFs) that are normally generated due to chlorinated bleaching of pulp and paper. We used the semipermeable membrane device (SPMD) to monitor PCDD/F levels upstream and downstream of a paper mill on the Androscoggin River, in Jay (ME). Following the 36 day deployment, SPMD dialysis and cleanup, the samples were analyzed by HRGC/HRMS. Total concentrations of PCDD/Fs in SPMDs (sum of all tetra-through octachlorinated congeners) ranged from 4.71 pg g(-1) to 26.26 pg g(-1). Five out of the targeted 17 toxic congeners were detected, including: 2,3,7,8-TCDF; 1,2,3,7,8-PeCDF; 2,3,4,7,8-PeCDF; 1,2,3,4,6,7,8-HpCDD and OCDD. Permeability reference compounds (PRCs) were used for in situ calibration of the SPMD sampling rate (Rs). In all sites, water concentrations were the highest for OCDD (0.081-0.103 pg l(-1)), and the lowest for 1,2,3,7,8-PeCDF (0.005-0.009 pg l(-1)). There was not a consistent pattern of upstream-downstream gradient in the PCDD/F levels. This suggested that processes other than the mill in Jay (multiple sources, river dynamics) governed the flux of PCDD/Fs in the sampling locations. The SPMD results were validated by comparison to other studies on the Androscoggin River and elsewhere, confirming the potential of the device as a useful monitoring technique for PCDD/Fs in large river systems.

Published

2008

17. Effectiveness of Treatment Technologies for Wastewater Pollution Generated by Indian Pulp Mills

Author

V. P. Singh, Deepa K Tiku, Rita N. Kumar, S. Sawhney, and Anil Kumar

Subjects

Paper, Pollution, Engineering, Waste management, business.industry, Pulp (paper), media_common.quotation_subject, Water Pollution, Industrial Waste, Paper mill, General Medicine, Management, Monitoring, Policy and Law, engineering.material, Raw material, Wastewater, Mill, Water Pollutants, Water quality, business, Effluent, Environmental Restoration and Remediation, General Environmental Science, media_common

Abstract

India has a large number of paper manufacturing units, with mills varying in size of operations and type of product, scattered all over the length and breadth of the country. Present study deals with the survey of four different pulp and paper mills (Mill A, Mill B, Mill C and Mill D) in India, differing in their scale of operation as well as raw material usage. Physico-chemical characterization of wastewaters produced by different processing units like digestor house liquors, bleaching section, paper machine backwaters, combined inlet to the ETP and outlet to ETP, for all the four mills, was conducted. Different parameters like pH, Color, COD, BOD, percent Na, SAR, TDS and Total hardness were analyzed and compared. Highly significant differences were thus found between all the processing units of all four mills with p values < 0.01. This evaluation showed that though these mills have effluent treatment facilities installed in their premises, improvements are still needed to increase their efficiencies for treating the discharged wastewaters.

Published

2007

18. Support to Government of India for Implementation of National Urban Sanitation Policy

Author

World Bank

Subjects

SANITATION INITIATIVES, DRAINAGE, SEPTIC TANKS, WASTE, COMMUNITY TOILET, DRAINS, SANITATION POLICIES, BOD, POLLUTION CONTROL, OXYGEN, EFFLUENT DISCHARGE, OXYGEN DEMAND, DISPOSAL OF WASTEWATER, URBAN HOUSEHOLDS, WATER SOURCES, WATER, PUBLIC SANITATION FACILITIES, SEWERAGE NETWORKS, DISPOSAL OF SLUDGE, SANITARY INSTALLATIONS, DISPOSAL SYSTEM, EMISSIONS, SEWERAGE, SLUM DWELLER, SANITATION INDICATORS, SANITATION POLICY, SEWAGE TREATMENT FACILITIES, WATER RESOURCE, SEWAGE, SANITATION FACILITY, PUBLIC TOILETS, LATRINES, SEWERAGE NETWORK, WATER SOURCE, FERTILIZERS, PITS, WATER TARIFFS, SEWERAGE SYSTEMS, USERS, TREATED WASTEWATER, SOLID WASTE, WASTEWATER MANAGEMENT, AGRICULTURAL IRRIGATION, LEAD, SANITATION IN CITIES, SANITATION, POLLUTION, CONNECTIONS, SANITATION SECTOR, TREATMENT PLANT, ADEQUATE WATER SUPPLY, SEPTIC TANK SYSTEMS, SANITATION SOLUTIONS, SLUDGE, BASIC SANITATION, WASTEWATER COLLECTION, ENERGY RECOVERY, METERS, PUMPING STATIONS, WATER SUPPLIES, URBAN LOCAL, DRINKING WATER, SANITATION SYSTEMS, PUBLIC SANITATION, LARGE CITIES, WASTE MANAGEMENT, SANITATION PROGRAMS, SEPTIC TANK SLUDGE, URBAN WASTEWATER, HOUSEHOLD SANITATION, PAPER, TOILET FACILITIES, SERVICE CONNECTION, DEMAND FOR WATER, GROUNDWATER, WASTEWATER TREATMENT, SEWERS, CROP GROWTH, SANITATION FACILITIES, ACCESS TO SANITATION, NUTRIENTS, HOUSE CONNECTIONS, ELECTRICITY, INDUSTRIAL CUSTOMERS, SANITATION MANAGEMENT, IRRIGATION, WASTEWATER TREATMENT INFRASTRUCTURE, SANITATION SERVICES, NETWORK, DRAINAGE SYSTEMS, SERVICE CONNECTIONS, SANITATION ACCESS, TARIFFS, TOILETS, SEWAGE TREATMENT, PIT LATRINES, TOILET BLOCK, COMMUNITY SANITATION, SCAVENGING, INDUSTRIAL WATER, URBAN CENTERS, DESALINATION, PUBLIC HEALTH, HYGIENE, SEWER SYSTEMS, TREATMENT FACILITIES, BIOCHEMICAL OXYGEN DEMAND, WASTEWATER, RECYCLING, SANITATION INTERVENTIONS, URBAN WATER, EXCRETA, HUMAN EXCRETA, UNTREATED SEWAGE, PLUMBING, CONNECTION, UTILITIES, WASTEWATER INFRASTRUCTURE, DIARRHEAL DISEASE, LATRINE, SEWAGE TREATMENT PLANT, IRRIGATION WATER, SURFACE WATERS, URBAN WATER SUPPLY, QUALITY OF DRINKING WATER, SEWAGE TREATMENT PLANTS, SEPTIC TANK, WASTES, COMMUNITY TOILETS, SAFE DISPOSAL, WATER QUALITY, WATER SUPPLY, TARIFF SETTING, SANITATION PROGRAM, WASTEWATER RECYCLING, MSW, TANKS, SANITATION INFRASTRUCTURE, SOLID WASTE MANAGEMENT, WATER RESOURCES, FILTRATION, QUALITY OF WASTEWATER, URBAN AREAS, SANITATION SERVICE, MUNICIPAL WASTEWATER, URBAN SANITATION, TOILET

Abstract

This synthesis report details the process, outputs and intermediate outcomes of the World Bank’s Water and Sanitation Program (WSP) Technical Assistance (TA) to Support Government of India for implementation of the National Urban Sanitation Policy (P131963). The objective of this TA was to (i) strengthen urban sanitation services and target the urban poor by development of strategies for regulation, funds allocation, improved accountability mechanisms and implementation of inclusive sanitation policies at national level and in at least five states, with two of these low-income states (LIS). This was to be supplemented with (ii) enabling design and use of improved performance monitoring systems by Government of India, 3 states and 300 urban local bodies by 2015, and (iii) strengthen capacity of local urban government institutions to provide improved – inclusive and sustainable – sanitation services for all. This TA provides the building blocks for sustainable sanitation improvements which are being adopted and implemented as part of another TA (P131967) in Madhya Pradesh and Tripura to pilot and operationalize City Sanitation Plans (CSPs) towards outcome oriented sector improvements. The areas addressed in this TA include the following specific goals of the NUSP: open defecation free cities, and integrated city-wide sanitation. The TA provided assistance to central government and the states in putting in place various elements identified as necessary for sector improvement, including planning, provisioning and monitoring processes. The TA also identified the need for the cities to see opportunities for financial recovery of investments through reuse and recycle strategies, to strengthen the incentive for investment in sanitation improvements.

Published

2015

19. Groundwater Quality in Paper Mill Effluent Irrigated Area with Special Reference to Organochlorine Residues and Heavy Metals

Author

D. D. Vimala, Kishore Kumar Krishnani, V. Parimala, P. N. Rekha, and N. K. Ambujam

Subjects

Paper, Conservation of Natural Resources, Insecticides, Irrigation, Health, Toxicology and Mutagenesis, Industrial Waste, Toxicology, Waste Disposal, Fluid, Organochlorine residue, Water Supply, Metals, Heavy, Hydrocarbons, Chlorinated, Water Pollutants, Effluent, business.industry, Environmental engineering, Agriculture, Paper mill, Heavy metals, General Medicine, Pollution, Environmental science, Water quality, Groundwater quality, business, Groundwater, Environmental Monitoring

Published

2004

20. Purification of Pulp and Paper Mill Effluent UsingEichornia Crassipes

Author

A. Mitra, Sudhakar Yedla, and M. Bandyopadhyay

Subjects

Paper, Biochemical oxygen demand, Survival, Industrial Waste, engineering.material, Waste Disposal, Fluid, complex mixtures, Water Purification, chemistry.chemical_compound, Animals, Environmental Chemistry, Waste Management and Disposal, Effluent, Water Science and Technology, Lime, Waste management, business.industry, Alum, Chemical oxygen demand, Oxides, Paper mill, General Medicine, Calcium Compounds, Silicon Dioxide, Oxygen, Eichhornia, Wastewater, chemistry, engineering, Alum Compounds, Environmental science, Water quality, business, Filtration, Tilapia

Abstract

Konark Pulp and Paper Industries Private Limited is a medium size industry producing 1600 m3 of wastewater a day. The existing water treatment system of the industry was found to be ineffective both in performance and economy. In the present study, a new system of treatment has been developed using water hyacinth Eichornia crassipes, coagulation by lime and alum, followed by rapid sand filtration. The performance efficiency of each unit viz. Eichornia treatment; coagulation with lime, with alum, and with lime:alum combinations, and filtration was studied. Water quality parameters considered were Biological Oxygen Demand, Chemical Oxygen Demand, Dissolve Oxygen, Total Dissolved Solids, turbidity, percentage transmission, and water colour. Based on the individual performance of each unit, a continuous system has been designed and was tested. The new system of treatment could treat the wastewater to the discharge standards and also was found economically feasible. Testing culture of fish (tilapia) proved that the treated water could be safely discharged into natural waters. All fish tested, survived and remained healthy throughout the period of testing. Culture of fish further improved the water quality.

Published

2002

21. Discrimination of Aerial Deposition Sources of Polychlorinated Dibenzo-p-Dioxin and Polychlorinated Dibenzofuran Downwind from a Pulp Mill near Ketchikan, Alaska

Author

Walter J. Shields, Lisa J. Yost, Daniel C. Peek, Matthew K. Butcher, and John A. Maloy

Subjects

Paper, Pulp mill, Geologic Sediments, Polychlorinated Dibenzodioxins, Incineration, Combustion, chemistry.chemical_compound, Water Supply, Industry, Soil Pollutants, Environmental Chemistry, Water pollution, Benzofurans, Air Pollutants, Waste management, business.industry, Paper mill, General Chemistry, Dibenzofurans, Polychlorinated, Refuse Disposal, Dibenzofuran, chemistry, Fly ash, Environmental chemistry, Water quality, business, Alaska, Polychlorinated dibenzofurans, Environmental Monitoring

Abstract

Drinking water is supplied by individual roof-catchment systems for homes and businesses near a dissolving sulfite pulp mill (now closed) located just north of Ketchikan in southeast Alaska. This study was conducted to determine if polychlorinated dibenzo-p-dioxins and polychlorinated dibenzofurans (PCDDs/Fs) found in the sediments of the roof-catchment cisterns resulted from historical deposition of stack emissions from the pulp mill's multi-fuel power boilers. Fly ash from the power boilers had maximum total PCDD/F concentrations of 3.08 x 10(5)-3.10 x 10(6) ng/kg, which resulted from combustion of bleach plant wastewater sludge and saltwater-soaked wood waste. Cistern sediments had maximum total PCDD/F concentrations of 7.71 x 10(4) ng/kg. Potential sources of PCDDs/Fs in the cistern sediments were considered to be automobile exhaust, heating oil combustion, and private trash burning as well as pulp mill boiler emissions. Discriminant analysis was used to analyze differences between profiles of tetra through octa homologue classes of PCDDs/ Fs (defined as proportional contributions to total concentration) from different source terms. Homologue profiles of potential sources from Ketchikan included in this analysis were fly ash collected from the mill's power boilers and soils collected from background areas (areas with similar PCDD/F sources as the residences [e.g., auto exhaust and burn barrels] near the mill but beyond the zone of aerial deposition of emissions from the mill). Profiles for emissions from automobile exhaust, fertilizers, oil heating, residential trash burning, and residential wood heating were also included in the source "training" data set (for the discriminant analysis) using data from published literature. The classification rules developed from the discriminant analysis were applied to the following test media sampled at Ketchikan: roof-catchment cistern sediments and soils collected from areas in the vicinity of the mill's power boilers (i.e., nearby residential or commercial [developed] areas, on the mill property, and nearby forestlands). The homologue profiles of cistern sediment and nearby developed area soil samples were similar to background soils, whereas the profiles for the forestland soil samples (influenced by emissions from the mill but not other anthropogenic sources) closely matched the fly ash pattern. The homologue profiles of the emission sources from published data were more similar to one another than either background soils or fly ash. Soil samples from the mill property were classified as members of all source groups. On the basis of these analyses, the composition of PCDDs/Fs detected in the cistern sediments is typical of Ketchikan background conditions and not reflective of mill emissions.

Published

2002

22. Assessing and monitoring the ecotoxicity of pulp and paper wastewater for irrigating reed fields using the polyurethane foam unit method based on monitoring protozoal communities

Author

Jinlong Yan, Tianming Chen, Li Zhaoxia, and Cheng Ding

Subjects

Paper, China, Agricultural Irrigation, Health, Toxicology and Mutagenesis, Polyurethanes, engineering.material, Wastewater, Ecotoxicology, Poaceae, stomatognathic system, Environmental Chemistry, Animals, Water pollution, Pulp (paper), Environmental engineering, General Medicine, Pollution, Invertebrates, Bioaccumulation, Wetlands, Maximum acceptable toxicant concentration, engineering, Environmental science, Sewage treatment, Water quality, Ecotoxicity, Environmental Monitoring

Abstract

Using the standardized polyurethane foam unit (PFU) method, a preliminary investigation was carried out on the bioaccumulation and the ecotoxic effects of the pulp and paper wastewater for irrigating reed fields. Static ectoxicity test had shown protozoal communities were very sensitive to variations in toxin time and effective concentration (EC) of the pulp and paper wastewater. Shannon-Wiener diversity index (H) was a more suitable indicator of the extent of water pollution than Gleason and Margalef diversity index (d), Simpson's diversity index (D), and Pielou's index (J). The regression equation between S eq and EC was S eq = - 0.118EC + 18.554. The relatively safe concentration and maximum acceptable toxicant concentration (MATC) of the wastewater for the protozoal communities were about 20 % and 42 %, respectively. To safely use this wastewater for irrigation, more than 58 % of the toxins must be removed or diluted by further processing. Monitoring of the wastewater in representative irrigated reed fields showed that the regularity of the protozoal colonization process was similar to the static ectoxicity, indicating that the toxicity of the irrigating pulp and paper wastewater was not lethal to protozoal communities in the reed fields. This study demonstrated the applicability of the PFU method in monitoring the ecotoxic effects of pulp and paper wastewater on the level of microbial communities and may guide the supervision and control of pulp and paper wastewater irrigating within the reed fields ecological system (RFES).

Published

2014

23. Tools for water quality monitoring and mapping using paper-based sensors and cell phones

Author

Dan Wallace, Sana Jahanshahi-Anbuhi, Robert Pelton, Brandon Aubie, Kevin Pennings, Chad Glen, Glen T. Daigger, Carlos D. M. Filipe, Clémence Sicard, and John D. Brennan

Subjects

Paper, Engineering, Environmental Engineering, Real-time computing, Image processing, Signal, Software, Phone, Water Quality, Web page, Image Processing, Computer-Assisted, Pesticides, Waste Management and Disposal, Simulation, Water Science and Technology, Civil and Structural Engineering, Pixel, business.industry, Ecological Modeling, Process (computing), Microfluidic Analytical Techniques, Pollution, 6. Clean water, Organophosphates, Global Positioning System, Colorimetry, Smartphone, business, Water Pollutants, Chemical, Environmental Monitoring

Abstract

In this paper we describe a combination of paper-based sensors and a novel smart-phone application for on-site quantification of colorimetric readouts as an ultra-low cost solution to monitoring water quality. The system utilizes a paper-based analytical device (μPAD) that produces a colorimetric signal that is dependent on the concentration of a specific target; a cell phone equipped with a camera for capturing images of two μPADs – one tested with a water sample and the other tested with clean water that is used as a control; and an on-site image processing app that uses a novel algorithm for quantifying color intensity and relating this to contaminant concentration. The cell phone app utilizes a pixel counting algorithm that performs with less bias and user subjectivity than the typically used lab-based software, ImageJ . The use of a test and control strip reduces bias from variations in ambient lighting, making it possible to acquire and process images on-site. The cell phone is also able to GPS tag the location of the test, and transmit results to a newly developed website, WaterMap.ca™, that displays the quantitative results from the water samples on a map. We demonstrate our approach using a previously developed μPAD that detects the presence of organophosphate pesticides based on the inhibition of immobilized acetylcholinesterase by these contaminants. The objective of this paper is to highlight the importance and potential of developing and integrated monitoring system consisting of μPADs, cell-phones and a centralized web portal for low-cost monitoring environmental contaminants at a large-scale.

Published

2014

24. Handmade paper and cardboard industries: in health perspectives

Author

Nupur Mathur, Shweta Kulshreshtha, and Pradeep Bhatnagar

Subjects

Paper, Salmonella typhimurium, Health, Toxicology and Mutagenesis, India, Industrial Waste, Toxicology, Humans, Effluent, Dose-Response Relationship, Drug, business.industry, Mutagenicity Tests, Significant difference, Public Health, Environmental and Occupational Health, cardboard, Pulp and paper industry, Industrial effluent, Biotechnology, Water body, visual_art, visual_art.visual_art_medium, Water quality, Business, Water Pollutants, Chemical, DNA Damage, Environmental Monitoring, Mutagens

Abstract

Generally, handmade paper industries are considered as eco-friendly industries. These industries are known to use vegetable dyes which are thought to be safe and non-toxic. However, cardboard industries are considered as pollution-causing industries. The present study focuses on the genotoxic assessment of handmade paper and cardboard industry’s effluent by Ames test using Salmonella typhimurium TA 98 and TA 100 strains. On mutagenicity analysis, effluents of both industries were found to be mutagenic with either one strain of Salmonella typhimurium or with both. Besides this, no significant difference was observed in effluent of both small-scale and large-scale handmade paper industries. Moreover, mutagenic compounds reach the nearby water body i.e. Amani Shah Drainage through connecting drain. Discharging of untreated effluent not only deteriorates the water quality but also reaches the food chain when used for irrigating nearby fields. Workers of these industries may suffer various health hazards when they are exposed to mutagenic effluent without having any information about it. Hence, discharging of effluents should thus be restricted or the workers while handling mutagenic substances should at least take proper precautions.

Published

2011

25. Effluent carbonaceous biochemical oxygen demand (CBOD) characterization for modern pulp and paper facilities

Author

L. Eppstein, James E. Palumbo, C. V. Maltby, and Linfield C. Brown

Subjects

Biological Oxygen Demand Analysis, Paper, Environmental Engineering, Models, Statistical, Carbonaceous biochemical oxygen demand, business.industry, Chemistry, Pulp (paper), Environmental engineering, Industrial Waste, engineering.material, First order, Kinetics, Models, Chemical, engineering, Water quality, Process engineering, business, Effluent, Water Science and Technology

Abstract

As receiving water quality models are being used to address dissolved oxygen issues requiring an increased degree of resolution, a more refined characterization of effluent CBOD can become an important aspect of the analysis. The selection and use of kinetic models to identify effluent specific parameters can have a significant impact on this characterization. This study modeled effluents from six pulp and paper facilities in order to reassess the kinetic models, the data, and experimental design used for a typical effluent characterization. The dual first order model fit these effluents with significantly less error than the traditional first order model suggesting a significant fraction of the CBOD is slowly degradable. Because the dual first order model produces a more refined characterization of CBOD kinetics than the first order model, it places an increased demand upon the data used to inform the parameter estimates. Therefore, analysis of the precision of the parameter estimates and methods for improving estimation precision via experimental design are also discussed.

Published

2010

26. Replacement of fresh water use by final effluent recovery in a highly optimized 100% recovered paper mill

Author

Ruth Ordóñez, Angeles Blanco, Daphne Hermosilla, and I. San Pío

Subjects

Paper, Engineering, Environmental Engineering, Industrial Waste, Fresh Water, Pilot Projects, 02 engineering and technology, 010501 environmental sciences, Waste Disposal, Fluid, 01 natural sciences, complex mixtures, 12. Responsible consumption, Química industrial, Reverse osmosis, Effluent, 0105 earth and related environmental sciences, Water Science and Technology, Waste management, business.industry, Water Pollution, digestive, oral, and skin physiology, Paper mill, Ingeniería química, Agua, 021001 nanoscience & nanotechnology, 6. Clean water, Industria del papel, Wastewater, Medio ambiente, Sewage treatment, Water treatment, Water quality, 0210 nano-technology, business, Water use

Abstract

A further closure of the water circuit in paper mills with a relative high optimization of their water network is limited by the increase of contamination in the water and runnability problems of the paper machine. Therefore, new strategies for saving water must be focussed on the treatment of final effluents of the paper mill, aiming to obtain high quality water that may replace fresh water use in some applications. An appropriate treatment train performed at pilot scale, consisting on a previous clarification stage followed by anaerobic and aerobic treatments, ultrafiltration, and reverse osmosis, made possible producing the highest water quality from the final effluent of the mill. Anaerobic pre-treatment showed very good performance assisting the aerobic stage on removing organics and sulphates, besides it produced enough biogas for being considered as cost-effective. Permeate recovery depended on the silica content of the paper mill effluent, and it was limited to a 50–60%. The reject of the membranes fully met the legislation requirements imposed to effluents arriving to municipal wastewater treatment plants.

Published

2010

27. Impact of using paper mill sludge for surface-mine reclamation on runoff water quality and plant growth

Author

Martin J. Shipitalo and James V. Bonta

Subjects

Paper, Conservation of Natural Resources, Environmental Engineering, Time Factors, Chemistry, Chemical oxygen demand, Industrial Waste, Plant Development, Soil carbon, Management, Monitoring, Policy and Law, engineering.material, Pollution, Mining, Water Purification, Nutrient, Agronomy, engineering, Water Movements, Water quality, Mine reclamation, Water pollution, Surface runoff, Waste Management and Disposal, Water Science and Technology, Lime

Abstract

Paper mills generate large amounts of solid waste consisting of fibrous cellulose, clay, and lime. Paper mill Sludge (PMS) can improve reclamation of surface-coal mines where low pH and organic-carbon levels in the spoil cover material can inhibit revegetation. When applied at high rates, however, PMS may adversely impact the quality of surface runoff. Therefore, we applied PMS at 0, 224, and 672 dry Mg ha{sup -1} to 22.1 x 4.6-m plots at a recently mined site and monitored runoff for a total of 13 mo. The zero-rate plots served as controls and received standard reclamation consisting of mulching with hay and fertilization at planting. Compared to the control plots, PMS reduced runoff fourfold to sixfold and decreased erosion from 47 Mg ha{sup -1} to < 1 Mg ha{sup -1}. Most of the reduction occurred in the 2.5 mo before the plots were planted. Flow-weighted average dissolved oxygen concentrations in runoff from plots at the 224 and 672 Mg ha{sup -1} rates, however, were much lower ({

Published

2008

28. Spatial and temporal patterns of periphyton chlorophyll a related to pulp and paper mill discharges in four US receiving streams

Author

Camille A Flinders, Timothy J Hall, John H. Rodgers, and G. Wayne Minshall

Subjects

Chlorophyll, Paper, Chlorophyll a, River ecosystem, Geography, Planning and Development, Industrial Waste, STREAMS, Waste Disposal, Fluid, chemistry.chemical_compound, Rivers, medicine, Water Movements, Animals, Periphyton, Ecosystem, General Environmental Science, Hydrology, Bacteria, Ecology, Chlorophyll A, General Medicine, Seasonality, Plants, medicine.disease, United States, chemistry, Environmental science, Spatial variability, Water quality, Water Pollutants, Chemical, Waste disposal, Environmental Monitoring

Abstract

Nutrients in pulp and paper mill effluent (PPME) have been implicated in increased periphyton chlorophyll a (chl a) downstream of discharges. These findings are largely based on short-term studies conducted in artificial stream channels or mesocosms and often in oligotrophic systems, and it is unclear if long-term chl a patterns in higher-nutrient systems would show similar response. We conducted a long-term study of 4 receiving waters (Codorus Creek, Pennsylvania; the Leaf River, Mississippi; and the McKenzie and Willamette rivers, Oregon) in which periphyton samples and associated data on water quality (nitrogen and phosphorus concentrations, pH, color, and conductivity) and 2 physical habitat variables (depth and current velocity) were collected over an 8-y period from multiple sites upstream and downstream of PPME discharges. Study streams represented different ecoregions, warm- and coldwater systems, gradients of in-stream effluent concentration (

Published

2008

29. Patterns of macroinvertebrate assemblages in a long-term watershed-scale study to address the effects of pulp and paper mill discharges in four US receiving streams

Author

Timothy J Hall, Camille A. Flinders, Renee L. Ragsdale, and G. Wayne Minshall

Subjects

Paper, Geography, Planning and Development, Industrial Waste, Bray–Curtis dissimilarity, STREAMS, Waste Disposal, Fluid, Mesocosm, Rivers, medicine, Water Movements, Animals, Ecosystem, General Environmental Science, Ecology, business.industry, Community structure, Paper mill, General Medicine, Seasonality, medicine.disease, Invertebrates, United States, Environmental science, Spatial variability, Water quality, business, Water Pollutants, Chemical, Environmental Monitoring

Abstract

Changes in macroinvertebrate communities exposed to pulp and paper mill effluent (PPME) have been seen in mesocosm and short-term field studies. However, long-term patterns of macroinvertebrates in PPME receiving streams have not been examined. We conducted a study of 4 PPME receiving streams (Codorus Creek, PA; the Leaf River, MS; and the McKenzie and Willamette rivers, OR) over 9 y to assess temporal patterns in macroinvertebrate community structure and metrics related to PPME discharge. Study streams represented different ecoregions, warm-/cold-water systems, gradients of PPME concentration (1%-33%), and mill process types. Bray-Curtis similarity and nonmetric multidimensional scaling showed significant community differences across sites in Codorus Creek, but differences were related to stream temperature patterns and not PPME. In the other study streams, seasonal community differences across years were greater than differences across sites. General linear models were used to examine spatial and temporal variation in macroinvertebrate metric response (% dominant taxa, density, richness, Hilsenhoff Biotic Index [HBI], Simpson's Index, and ash-free dry mass). Mean HBI scores indicated that the macroinvertebrate community reflected fair to very good water quality conditions, with water quality typically classified as "good" at most sites. Significant site differences in macroinvertebrate metric response were uncommon in the Leaf, McKenzie, and Willamette rivers but were seen in all metrics in Codorus Creek, where metric response was spatially variable. In the McKenzie River, there was an increase in mean HBI scores at sites downstream of the mill relative to 1 of the 2 upstream sites. However, significant differences were seen only between 1 upstream and downstream site, and HBI scores at all downstream sites consistently reflected "good" water quality. Significant annual differences in metric response were typical in all rivers. Water quality (pH, conductivity, total nitrogen) and habitat (velocity, depth, substrate composition) variables explained community structure patterns in the Leaf and McKenzie rivers, but macroinvertebrate-environment relationships were weak in the other 2 streams. The results of this study indicate that macroinvertebrate community structure is temporally variable and reiterate the importance of long-term studies for accurate determination of the effects of point sources such as PPME on receiving systems.

Published

2008

30. A long-term, multitrophic level study to assess pulp and paper mill effluent effects on aquatic communities in four US receiving waters: characteristics of the study streams, sample sites, mills, and mill effluents

Author

Renee L. Ragsdale, Timothy J Hall, William J. Arthurs, Dennis L Borton, Joan Ikoma, and Diana L Cook

Subjects

Paper, Geography, Planning and Development, Population, Cyprinidae, Industrial Waste, Waste Disposal, Fluid, Rivers, Crustacea, Tributary, Water Movements, Animals, Periphyton, education, Effluent, Ecosystem, General Environmental Science, geography, education.field_of_study, geography.geographical_feature_category, biology, business.industry, Environmental engineering, Ceriodaphnia dubia, Paper mill, General Medicine, Plants, biology.organism_classification, United States, Environmental science, Water quality, business, Waste disposal, Environmental Monitoring

Abstract

Watershed characteristics, study streams, sample sites, mills, and mill effluents are provided for 4 streams included in a long-term study to assess potential effects of pulp and paper mill effluents on US receiving waters. The study streams are Codorus Creek (Pennsylvania, USA), Leaf River (Mississippi, USA) and McKenzie and Willamette rivers (Oregon, USA) and were chosen to represent a blend of mill process types, effluent concentrations, and coldwater/warmwater stream systems. The described effluent quality, water quality, and habitat data sets encompass the initial 7 to 8 y of a study anticipated to continue >10 y and provide a backdrop to a series of articles describing periphyton, macroinvertebrate, and fish community properties in these same streams. The mean in-stream waste concentration (IWC) for these 4 effluent discharges was 32.4%, 2.0%, 0.5%, and 0.2% v/v for Codorus Creek and Leaf, McKenzie, and Willamette rivers, respectively, as compared with a median of 0.4% for US mills. Effluent quality measurements included Selenastrum capricornutum, Ceriodaphnia dubia, and Pimephales promelas chronic bioassays as sanctioned by the US Environmental Protection Agency for estimating effluent effects on receiving-water aquatic communities. Based on mean bioassay inhibition concentration for a 25% effect and on mean IWC, a margin of safety against adverse biological effects of 2, 25, 137, and 150 times was indicated for Codorus Creek and Leaf, McKenzie, and Willamette rivers, respectively. Habitat and water quality assessment was carried out over a gradient of sample sites above and below the effluent discharge to determine nonmill-related conditions that might interfere with interpretation of effluent effects. Noneffluent related localized differences in conditions for some parameters, including current velocity (McKenzie River), and surface incident photosynthetically active radiation (Codorus Creek and Willamette River) occurred at the sample stations immediately upstream or downstream of the effluent discharge. In addition, broader watershed differences were evident on Codorus Creek, where a relatively rich riparian corridor and stream structure occurred upstream in contrast to areas of canopy and stream-structure loss in the downstream urban area. The mill effluent discharges contributed to increases in receiving-water color and conductivity, although upstream tributaries contributed additional conductivity to Codorus Creek and color to the Leaf River. The McKenzie River provided the only example of a nutrient increase immediately downstream of a mill discharge. This increase in total nitrogen (0.11 vs 0.16 mg/L) could not, however, be differentiated with respect to whether it was of mill effluent or tributary stream origin. Tributary streams were potentially important total nitrogen contributors on Codorus Creek and the Willamette River. As an integrated study, the effluent quality and physical/chemical watershed descriptions provided here represent 1 component of the broader study addressing potential point-source effluent effects within the context of the larger watershed and a multiyear timescale. The absence of effluent-related in-stream chemical/physical responses, other than increases in conductivity and color, and a considerable bioassay-based margin of safety, provides for a working hypothesis that there will be no effluent-related biological population/community responses from these 4 mill discharges. This hypothesis, as it relates to periphyton, macroinvertebrate, and fish communities, will be addressed in other articles in this series.

Published

2008

31. A long-term, multitrophic level study to assess pulp and paper mill effluent effects on aquatic communities in four US receiving waters: background and status

Author

G. Wayne Minshall, John H. Rodgers, Monique G. Dubé, Robert P Fisher, Timothy J Hall, Dennis L Borton, Wayne G. Landis, Tibor Kovacs, Barry K Firth, and Thomas L Deardorff

Subjects

Paper, Conservation of Natural Resources, Geography, Planning and Development, Population, Industrial Waste, STREAMS, Waste Disposal, Fluid, Rivers, Environmental monitoring, Mill, Periphyton, education, Effluent, Ecosystem, General Environmental Science, education.field_of_study, business.industry, Environmental resource management, Environmental engineering, Paper mill, General Medicine, United States, Environmental science, Water quality, business, Water Pollutants, Chemical, Environmental Monitoring

Abstract

An industry-funded, long-term, receiving water study was initiated in 1998/1999 to adress questions about the potential effects of pulp and paper mill effluent discharges on US receiving waters. Although the study continues, the knowledge gained to date provides an opportunity to reflect on the study development process, its progress, and its outcomes. As a backdrop to a series of articles in this special issue describing study results, this article describes the process by which study information objectives were identified as well as the process by which the experimental design was developed. A review of past literature and research identified gaps in long-term population/community data about effluent effects and that, consequently, emerged as a primary information objective. The selected streams for study included 1) Codorus Creek (Pennsylvania, USA), 2) Leaf River (Mississippi, USA), 3) McKenzie River (Oregon, USA), and 4) Willamette River (Oregon) represent a blend of mill process types, coldwater and warmwater stream types, and a range of effluent concentrations. Measurements included numbers of periphyton, macroinvertebrate, and fish communities; the assessment of water and effluent quality; laboratory bioassays; and fish full-life-cycle assays. Information objectives included addressing natural variability and, consequently, the study included long-term temporal (>10 y) and watershed-scale spatial frameworks. Regional-scale ecological risk assessments were performed for each site that aided in placing each site in an ecological and regulatory context. An adaptive-management process is described that allowed for modifications over time as a result of lessons learned as the study progressed. Results from the initial 7 to 8 y of monitoring, as described in the series of articles in this special issue, provide a unique data set with respect to addressing point-source pulp and paper mill effluent discharge concerns and may serve as a template for others to use in developing monitoring or management programs to assess or address water quality conditions or concerns.

Published

2008

32. A long-term, multitrophic level study to assess pulp and paper mill effluent effects on aquatic communities in four US receiving waters: lessons learned

Author

Robert P Fisher, John H. Rodgers, Camille A Flinders, Wayne G. Landis, Tibor Kovacs, Timothy J Hall, Dennis L Borton, Thomas L Deardorff, Barry K Firth, G. Wayne Minshall, and Monique G Dubé

Subjects

Paper, Watershed, Time Factors, Geography, Planning and Development, Population, Industrial Waste, Waste Disposal, Fluid, Rivers, Water Movements, Animals, Periphyton, education, Effluent, Ecosystem, General Environmental Science, education.field_of_study, Bacteria, business.industry, Environmental engineering, Fishes, Paper mill, General Medicine, Plants, Monitoring program, United States, Fishery, Research Design, Environmental science, Water quality, business, Water Pollutants, Chemical, Waste disposal, Environmental Monitoring

Abstract

Lessons learned from the development, implementation, and initial 8 y of study findings from a long-term study to assess the effects of pulp and paper mill effluents on receiving waters are summarized as a conclusion to a series of articles (this issue) on study findings. The study, based on industry-defined information needs, was developed via a science-based experimental design into a long-term (>10 y) watershed-scale monitoring program that integrated in-stream population/community assessment, laboratory chronic bioassays, and fathead minnow full life-cycle assays as well as water quality and effluent quality monitoring and habitat assessment in addressing the presence of effluent effects. The 4 study streams (Codorus Creek, PA; Leaf River, MS; and the McKenzie and Willamette rivers, OR) represented both bleached and unbleached kraft mill processes and effluent concentrations that ranged from near typical for the United States (0.4%) to very high (Codorus Creek = 32%). Following 8 y of monitoring, the weight of evidence suggests an absence of biological differences at stations downstream of the mill discharges for periphyton or macroinvertebrates and, with the exception of 1 of 9 large-bodied fish and 1 of 7 small-bodied fish community structure metrics for 1 river (McKenzie), an absence of differences for fish communities. Laboratory bioassay and fathead minnow full-life cycle tests supported a substantial “margin of safety” in that, depending on the effluent, adverse responses did not occur until effluent concentrations were from 2 times to more than 150 times in-stream concentrations. The incorporation of a watershed spatial scale illustrated that each sample site tended to be unique over the 28 to 50 km monitored segments with respect to habitat and that knowledge of these variables permitted accurate evaluations of effluent effects. Similarly, the multiyear study framework provided information regarding the natural seasonal and year-to-year variability in fish communities and consequently a better understanding of how potential effluent effects signals could be expressed within this variability. The study incorporated an adaptive management strategy that provided for study design and monitoring modifications over time as a way of benefiting from practical experience and knowledge gained through time and to optimize the use of study resources. Results from this initial 8 y of monitoring, to our knowledge, represent the longest-known population/community-level assessment of the in-stream effects of pulp and paper mill effluents. Beyond the lessons learned with respect to effluent effects are those related to the design and conduct of long-term watershed-scale studies that may be of use to others in developing watershed assessment or management programs.

Published

2008

33. Enhanced adsorption and regeneration with lignocellulose-based phosphorus removal media using molecular coating nanotechnology

Author

Juyoung Kim, Justin D. Mann, and Soonjo Kwon

Subjects

Pollution, Paper, Environmental Engineering, media_common.quotation_subject, chemistry.chemical_element, Lignin, Water Purification, Point source pollution, Adsorption, Nanotechnology, Water Pollutants, Water pollution, Cellulose, Nonpoint source pollution, media_common, Gossypium, Waste management, Phosphorus, General Medicine, Pelletizing, Wood, chemistry, Environmental science, Water quality

Abstract

The removal of phosphorus in point and non-point-source pollution has become one of the leading problems in water quality since the beginning of the 21st century. Several natural, domestic, and industrial treatment systems already exist, but with very limited efficiencies and serious procedural defects. Lignocellulose-based Anion Removal Media (LAM) was developed in association with iron nanocoating technology as means of phosphorus adsorption from various concentrations of contaminated water. Results revealed that trivalent iron coated lignocellulose pellets can be used to effectively remove phosphorus contaminants from point and non-point-source polluted water. Removal capacities of pelletized cotton media surpass existing materials for phosphorus removal by at least 22 times, while remaining both efficient and cost effective. The materials were also investigated for regeneration, yielding high removal capacities even after the fifth regeneration. Treatment methodology and outlines are proposed, and procedural mechanisms are explored in this study. An economic evaluation of this technology is also assessed for a practical application of LAM to point/non-point-source polluted water.

Published

2006

34. Effects of pulp and paper mill effluents on the microplankton and microbial self-purification capabilities of the Biobío River, Chile

Author

Claudio A. Zaror, Oscar Parra, Roberto Urrutia, M. Mehrens, Hernan J. Cid, Claudio Valdovinos, Bernhard Karrasch, and Patricia Pacheco

Subjects

Pulp mill, Chlorophyll, Paper, Environmental Engineering, Industrial Waste, Biology, Lignin, Waste Disposal, Fluid, chemistry.chemical_compound, Nitrate, Rivers, Environmental Chemistry, Animals, Chile, Water pollution, Waste Management and Disposal, Effluent, Bacteria, business.industry, Chlorophyll A, Environmental engineering, Eukaryota, Paper mill, Plankton, Pollution, chemistry, Environmental chemistry, Water quality, business, Water Microbiology, Surface water, Tannins, Water Pollutants, Chemical, Waste disposal

Abstract

Most studies focus on the ecotoxicity of pulp and paper mill effluents, rather than on how they affect the physicochemical and biological structure and the intrinsic ecological capabilities of the receiving watercourses. We investigated the impact of such effluents on the water quality, microplankton system and microbial self-purification capacity (degradation of polymeric organic compounds via extracellular enzymes) of the Biobio River in Chile. The physicochemical impact on the water quality was indicated by raised conductivity, by the pollution of the water body with nitrate, nitrite and soluble reactive phosphorus, by the appearance of tannin and lignin, and by the steady accumulation of inorganic and organic suspended matter (SPM) along the river. From the biological structure of the microplankton system, very low and declining concentrations of chlorophyll a and heterotrophic flagellate densities were determined. The pulp and paper mill effluents introduced high bacterial abundances and biomass concentrations into the river water. This reflects the effective use made of the abundantly available inorganic and organic nutrients within this industrial and municipal process water by bacteria adapted to these extreme environments, additionally supported by concomitant low grazing pressure derivable from low heterotrophic flagellate abundances. Indeed, in one section of the river affected by a pulp mill, the plant was found to significantly contribute to the self-cleaning capacity of the river. However, this elevated degradation capacity was not enough to compensate for the additionally discharged organic material which, together with the toxic effects of the paper plant effluents, significantly interferes with the ecological status of the Biobio River.

Published

2004

35. A comparison of the sensitivity of stream benthic community indices to effects associated with mines, pulp and paper mills, and urbanization

Author

Keith M. Somers, David R. Barton, and Bruce W. Kilgour

Subjects

Paper, Quality Control, Multivariate statistics, Health, Toxicology and Mutagenesis, Population Dynamics, Industrial Waste, Sensitivity and Specificity, Correspondence analysis, Mining, Reference Values, Environmental Chemistry, Animals, Water Pollutants, Biotic index, Ecology, Replicate, Models, Theoretical, Invertebrates, Benthic zone, Multivariate Analysis, Environmental science, Species evenness, Ordination, Water quality, Physical geography, Environmental Monitoring

Abstract

This study examined the relative sensitivities of seven commonly used indices of stream benthic community composition and three multivariate indices to effects associated with mines, pulp and paper mills, and urbanization. The indices included total abundance, number of taxa, diversity (H'), evenness, Hilsenhoff's biotic index (HBI), the BioMAP water quality index (WQI), the percent model affinity (PMA), and the first three ordination axes from a correspondence analysis. The second objective of the study was to determine the degree of redundancy among these indices. Six data sets (two from each of the three types of development) were used to address the objectives. In each data set, replicate benthic samples were collected from reference areas as well as one or more downstream areas exposed to a point-source or non-point-source discharge. The PMA approach and the ordination axes indicated significant differences between the reference and downstream communities for all six data sets (p0.05). With the exception of H', each of the other metrics revealed significant effects associated with one or two, but not all three, types of development. For example, the HBI and WQI indicated significant effects associated with pulp and paper mills and urbanization, but not mining. In all studies, effect sizes (i.e., the standardized difference between means for the reference and exposed areas expressed in units of standard deviations [SDs]) exceeded 2 SDs. However, effect sizes for the PMA and the first or second ordination axis scores were generally larger than effect sizes for the other metrics, indicating that these indices were often the most sensitive indicators of development. In addition, a high degree of redundancy was found among the various metrics, perhaps because the effects were large (i.e.,2 SDs). The greater sensitivity of the ordination axes and the PMA approach emphasizes their value as indices of benthic community composition. As a result, we recommend that any suite of indices used for assessing benthic communities should include these types of multivariate metrics.

Published

2004

36. Effects of pollution on freshwater fish

Author

Snarski, V

Published

1980

37. National Pollutant Discharge Elimination System adjudicatory hearing proceedings: decisions of the administrator and decisions of the general counsel. Volume 1. September 1974--December 1975

Published

1976

38. Regional Risk Assessment as a Part of the Long-Term Receiving Water Study

Author

Jill F. Thomas and Wayne G. Landis

Subjects

Paper, Watershed, Geography, Planning and Development, Industrial Waste, Context (language use), Waste Disposal, Fluid, Rivers, Risk Factors, Sampling design, Water Movements, Human Activities, Recreation, Ecosystem, General Environmental Science, Land use, business.industry, Environmental resource management, Environmental engineering, General Medicine, United States, Geography, Relative risk, Water quality, Risk assessment, business, Water Pollutants, Chemical, Environmental Monitoring

Abstract

A regional-scale watershed assessment using the relative risk model has now been performed on each of the watersheds that are part of the Long-Term Receiving Waters Study (LTRWS) to generate patterns of risk at each study site. The watersheds assessed included the lower McKenzie and mid-Willamette rivers in Oregon, USA; Codorus Creek in Pennsylvania, USA; and the Leaf River in Mississippi, USA. In each case, the goal was to put the LTRWS into a watershed and regional context, including multiple sources, stressors, habitats, and assessment endpoints. In each instance, the relative risk model provided measures of relative risk and testable hypotheses about patterns within the watersheds. There were similarities among the 3 risk studies. First, land use within the watershed was the most important driver of risk in each instance, even compared with point sources. Second, the list of endpoints was similar for each risk assessment. Water quality was held as important, along with populations critical to recreation or commercial use. At each site, data from the LTRWS and other sources could be used to support the risk patterns predicted from the risk assessment process. However, the sampling design of the LTRWS prevented the confirmation of specific cause-effect relationships. A fundamental conclusion is that risk assessment, using an adaptation of the relative risk model, should be performed as an integral part of any watershed assessment and management effort. These initial watershed risk assessments have led to similar assessments across the world.

Published

2009

39. Mutagens in a river heavily polluted with paper recycling wastes: Results of field and laboratory mutagen assays

Author

Ed Klekowski and David E. Levin

Subjects

Paper, Pollution, Municipal solid waste, Health, Toxicology and Mutagenesis, media_common.quotation_subject, Population, Industrial Waste, Mutagen, medicine.disease_cause, Genetics, medicine, Water Pollutants, Water pollution, education, media_common, Chromosome Aberrations, education.field_of_study, Mutagenicity Tests, fungi, food and beverages, Plants, Contamination, Paper recycling, Environmental chemistry, Environmental science, Water quality, Mutagens

Abstract

Paper recycling industries generate considerable quantities of waterborne wastes, and thus water pollution constitutes the greatest environmental problem associated with this industrial activity [Hunt and Franklin, 1973]. Generally the impact of this water pollution is considered in terms of aesthetic blight and deterioration of water quality. We present data that document another aspect of this pollution, the environmental contamination of an aquatic ecosystem with mutagenic materials. A natural population of the fern Osmunda regalis growing in a river heavily polluted with paper recycling wastes had a high incidence of chromosome mutations. This population was monitored for four years for the frequency of two-break chromosome mutations. These mutations were postzygotic in origin and suggested the presence of mutagens in the river water. The fern population is downstream from the outfalls of a paper recycling mill, which was discharging 13.3 ± 106 liters of untreated paper recycling waste per day. In 1977 a waste-water-treatment facility was constructed to remove the solid waste previously discharged into the river. This facility generates 69,300 kg of solid waste daily, which is taken to a landfill. Periodic samples of this solid waste were collected from the waste-treatment facility in the summer of 1978, extracted with various solvents, and the extracts tested for mutagenic activity with the Salmonella/mammalian microsome mutagenicity test [Ames et al, 1975]. A majority of the solid waste samples contained mutagenic materials, but in all cases S-9 activation was required for mutagenic activity. The samples also were assayed with the soybean mitotic crossing-over assay [Vig, 1975]. Four out of six samples were positive. These results document the presence of mutagens in the solid waste generated by a paper recycling industry and the genetic impact of these mutagens on the local biota.

Published

1979

40. WATER QUALITY CRITERIA FOR EUROPEAN FRESHWATER FISH. REPORT ON FINELY DIVIDED SOLIDS AND INLAND FISHERIES. (EIFAC TECHNICAL PAPER. 1)

Author

M, STEHMAN

Subjects

Europe, Paper, Water Quality, Fisheries, Fresh Water

Published

1965

41. Status of Water Quality Modeling in the Pulp and Paper Industry

Author

Firth, Barry K.

Published

1984

42. A Review of the 1970 Literature on Wastewater and Water Pollution Control

Author

WPCF Research Committee, Weiss, C. M., and Engelbrecht, R. S.

Published

1971

43. A Review of the 1969 Literature on Wastewater and Water Pollution Control

Author

Weiss, C. M., Engelbrecht, R. S., Alspaugh, T. A., Andelman, J. B., Azad, H. S., Banerji, S. K., Boyer,, J. F., Boyle, W. C., Bunch, R. L., Cohen, J. M., Coutant, C. C., Dick, R. I., Eye, J. D., Faber, H., Feng, T. H., Foehrenbach, J., Gaudy,, A. F., Geldreich, E. E., Gellman, I., Gove, G. W., Gross, S. P., Grune, W. N., Hall, M. W., Jensen, L. D., Katz, M., Keinath, T. M., Keup, L. E., Kinman, R. N., Lau, L. S., Lefke, L. W., Litchfield, J. H., Loucks, D. P., Mackenthun, K. M., Miner, J. R., Mytelka, A. I., Pohland, F. G., Porges, R., Reish, D. J., Richter, G. A., Selleck, R. E., Skrinde, R. T., Smith, S. E., Soderquist, M. R., Sorg, T. J., Straub, C. P., Takagi, J., Tenney, M. W., Tofflemire, T. J., Touhill, C. J., Tsivoglou, E. C., Voshel, Doris, Walker, W. R., Walters, J. V., Weber,, W. J., Weiner, D. J., Whipple, W., Whittle, G. P., and Williams, Authala

Published

1970

44. A Review of the Literature of 1967 on Wastewater and Water Pollution Control

Author

Weiss, C. M., Engelbrecht, R. S., Alspaugh, T. A., Banerji, S. K., Boyer, J. F., Boyle, W. C., Bunch, R. L., Christman, R. F., Cohen, J. M., Coutant, C. C., Dick, R. I., Ewing, B. B., Faber, H., Feng, T-H, Foehrenbach, J., Gates, W. E., Gaudy,, A. F., Geldreich, E. E., Gellman, I., Gove, G. W., Grune, W., Harding, H. G., Jensen, L. D., Katz, M., Keup, L. E., Kinman, R. N., Kittrell, F. W., Lau, L. S., Lefke, L. W., Litchfield, J. H., Loucks, D. P., Lynn, W. R., Mackenthun, K. M., Mancy, K. H., McJunkin, F. E., Miner, J. R., Mulik, J., Mytelka, A. I., Pailthorp, R. E., Pipes, W. O., Pohland, F. G., Porges, R., Reish, D. J., Selleck, R. E., Smith, S. E., Sparks, A. K., Straub, C. P., Tsivoglou, E. C., Voshel, D., Walters, C. F., Walters, J. V., Weber,, W. J., Weiner, D. J., and Whittle, G. P.

Published

1968

45. A Review of the Literature of 1968 on Wastewater and Water Pollution Control

Author

Weiss, C. M., Engelbrecht, R. S., Alspaugh, T. A., Azad, H. S., Banerji, S. K., Boyer, J. F., Boyle, W. C., Bunch, R. L., Cohen, J. M., Coutant, C. C., Dick, R. I., Faber, H., Feng, T. H., Foehrenbach, J., Gates, W. E., Gaudy,, A. F., Geldreich, E. E., Gellman, I., Gove, G. W., Grune, W. N., Hall, M. W., Jensen, L. D., Katz, M., Keup, L. E., Kinman, R., Lau, L. S., Lefke, L. W., Litchfield, J. H., Loucks, D. P., Mackenthun, K. M., McJunkin, F. E., Miner, J. R., Mytelka, A. I., Pailthorp, R. E., Pipes, W. O., Pohland, F. G., Porges, R., Reish, D. J., Selleck, R. E., Skrinde, R. T., Smith, S. E., Sparks, A. K., Straub, C. P., Tenney, M. W., Tsivoglou, E. C., Voshel, D., Walters, J. V., Weber,, W. J., Weiner, D. J., and Whittle, G. P.

Published

1969

46. Report on Publications: For the Year Ending December 31, 1953

Author

Johnson, Eric F.

Published

1954

47. Report on Publications: For the Year Ending December 31, 1955

Author

Johnson, Eric F.

Published

1956

48. Report on Publications: For the Year Ending December 31, 1951

Published

1952

49. Report on Publications: For the Year Ending December 31, 1950

Published

1951

50. Report of the Editor: For the Year Ending December 31, 1947

Published

1948