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Unclaimed
Miquel Salgot
Environmental Health and Soil Science Unit, Facultat de Farmàcia, Universitat de Barcelona, 08028 Barcelona, Spain

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Review
Published: 29 October 2020 in Sustainability
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An underground aqueduct is usually a canal built in the subsurface to transfer water from a starting point to a distant location. Systems of underground aqueducts have been applied by ancient civilizations to manage different aspects of water supply. This research reviews underground aqueducts from the prehistoric period to modern times to assess the potential of achieving sustainable development of water distribution in the sectors of agriculture and urban management, and provides valuable insights into various types of ancient underground systems and tunnels. The review illustrates how these old structures are a testament of ancient people’s ability to manage water resources using sustainable tools such as aqueducts, where the functionality works by using, besides gravity, only “natural” engineering tools like inverted siphons. The study sheds new light on human’s capability to collect and use water in the past. In addition, it critically analyzes numerous examples of ancient/historic/pre-industrial underground water supply systems that appear to have remained sustainable up until recent times. The sustainability of several underground structures is examined, correlated to their sound construction and regular maintenance. Moreover, several lessons can be learned from the analysis of ancient hydraulic works, particularly now, as many periodically hydrologic crises have occurred recently, overwhelmingly impacted by climate change and/or over-exploitation and degradation of available water resources.

ACS Style

Mohammad Valipour; Abdelkader Ahmed; Georgios Antoniou; Renato Sala; Mario Parise; Miquel Salgot; Negar Bensi; Andreas Angelakis. Sustainability of Underground Hydro-Technologies: From Ancient to Modern Times and toward the Future. Sustainability 2020, 12, 8983 .

AMA Style

Mohammad Valipour, Abdelkader Ahmed, Georgios Antoniou, Renato Sala, Mario Parise, Miquel Salgot, Negar Bensi, Andreas Angelakis. Sustainability of Underground Hydro-Technologies: From Ancient to Modern Times and toward the Future. Sustainability. 2020; 12 (21):8983.

Chicago/Turabian Style

Mohammad Valipour; Abdelkader Ahmed; Georgios Antoniou; Renato Sala; Mario Parise; Miquel Salgot; Negar Bensi; Andreas Angelakis. 2020. "Sustainability of Underground Hydro-Technologies: From Ancient to Modern Times and toward the Future." Sustainability 12, no. 21: 8983.

Book chapter
Published: 11 August 2020 in Wastewater treatment and Reuse – Present and future perspectives in technological developments and management issues
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In Europe, there is a great variety of climates that, together with socio-economic aspects of each country, lead to a marked difference in the availability of water resources among the Member States (MS), where some are affected by water stress conditions. For this reason, some MS and regions of Europe have been issuing specific legislation on the use of reclaimed water, especially for agricultural use. Nevertheless, the lack of common criteria can affect the commercialization in the Common Market of products irrigated with reclaimed water. In this context, the European Union has finally decided to unify the criteria on the minimum requirements for water reuse by issuing a Regulation. In these circumstances, the future of reuse in Europe can evolve in several directions, which will be discussed using four scenarios. The first scenario is the approach to reuse for agriculture, the only use supported at present by the EU regulation. In the second reclaimed water is not limited to agricultural uses but includes a certain number of reuse possibilities. In the third scenario, there is a complete rejection of the reuse concept by a number of Member States and stakeholders, and in the fourth, a complete support to the practice by backing any initiative in this direction and with the availability of funds to support further research is supposed.

ACS Style

Clara Sánchez-Cerdà; Miquel Salgot; Montserrat Folch. Reuse of reclaimed water: What is the direction of its evolution from a European perspective? Wastewater treatment and Reuse – Present and future perspectives in technological developments and management issues 2020, 1 -64.

AMA Style

Clara Sánchez-Cerdà, Miquel Salgot, Montserrat Folch. Reuse of reclaimed water: What is the direction of its evolution from a European perspective? Wastewater treatment and Reuse – Present and future perspectives in technological developments and management issues. 2020; ():1-64.

Chicago/Turabian Style

Clara Sánchez-Cerdà; Miquel Salgot; Montserrat Folch. 2020. "Reuse of reclaimed water: What is the direction of its evolution from a European perspective?" Wastewater treatment and Reuse – Present and future perspectives in technological developments and management issues , no. : 1-64.

Review
Published: 01 May 2020 in Water
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Many agricultural production areas worldwide are characterized by high variability of water supply conditions, or simply lack of water, creating a dependence on irrigation since Neolithic times. The aim of this paper is to provide an overview of the evolution of irrigation of agricultural lands worldwide, based on bibliographical research focusing on ancient water management techniques and ingenious irrigation practices and their associated land management practices. In ancient Egypt, regular flooding by the Nile River meant that early agriculture probably consisted of planting seeds in soils that had been recently covered and fertilized with floodwater and silt deposits. On the other hand, in arid and semi-arid regions farmers made use of perennial springs and seasonal runoff under circumstances altogether different from the river civilizations of Mesopotamia, Egypt, India, and early dynasties in China. We review irrigation practices in all major irrigation regions through the centuries. Emphasis is given to the Bronze Age civilizations (Minoans, Egyptians, and Indus valley), pre-Columbian, civilizations from the historic times (e.g., Chinese, Hellenic, and Roman), late-Columbians (e.g., Aztecs and Incas) and Byzantines, as well as to Ottomans and Arabs. The implications and impacts of irrigation techniques on modern management of water resources, as well as on irrigated agriculture, are also considered and discussed. Finally, some current major agricultural water management challenges are outlined, concluding that ancient practices could be adapted to cope with present challenges in irrigated agriculture for increasing productivity and sustainability.

ACS Style

Andreas N. Angelakιs; Daniele Zaccaria; Jens Krasilnikoff; Miquel Salgot; Mohamed Bazza; Paolo Roccaro; Blanca Jimenez; Arun Kumar; Wang Yinghua; Alper Baba; Jessica Anne Harrison; Andrea Garduno-Jimenez; Elias Fereres. Irrigation of World Agricultural Lands: Evolution through the Millennia. Water 2020, 12, 1285 .

AMA Style

Andreas N. Angelakιs, Daniele Zaccaria, Jens Krasilnikoff, Miquel Salgot, Mohamed Bazza, Paolo Roccaro, Blanca Jimenez, Arun Kumar, Wang Yinghua, Alper Baba, Jessica Anne Harrison, Andrea Garduno-Jimenez, Elias Fereres. Irrigation of World Agricultural Lands: Evolution through the Millennia. Water. 2020; 12 (5):1285.

Chicago/Turabian Style

Andreas N. Angelakιs; Daniele Zaccaria; Jens Krasilnikoff; Miquel Salgot; Mohamed Bazza; Paolo Roccaro; Blanca Jimenez; Arun Kumar; Wang Yinghua; Alper Baba; Jessica Anne Harrison; Andrea Garduno-Jimenez; Elias Fereres. 2020. "Irrigation of World Agricultural Lands: Evolution through the Millennia." Water 12, no. 5: 1285.

Journal article
Published: 01 January 2016 in International Journal of Global Environmental Issues
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A great agricultural development took place in the Llobregat river delta, near Barcelona, during the 19th century in order to fulfil the demand of the growing town and even to export vegetables and fruits to the north of Europe. This demand favoured the transformation of dry land agriculture into irrigated one through the construction of infrastructures for water distribution. In the lower part of the Llobregat river, a canal for supplying water to agricultural fields was built supported by the authorities and landowners. The Infanta Luisa Carlota de Borbón Canal (Infanta Canal) was 17 km long with several complementary minor canals and distribution facilities to irrigate around 3,000 hectares which allowed at least three crops per year. Apart from irrigation and industrial uses, this system was used to generate electricity. Over the years, agriculture disappeared from the area due to industrialisation and urban growth and the canal was partially transformed into a sewer. Its trace has been lost near the Mediterranean Sea, although there are still some remnants. Nowadays, several teams are trying to describe and recover this historical facility.

ACS Style

Jose Luis De La Peña; Miquel Salgot. History of an irrigation canal: the 'Real Canal de la Infanta', Barcelona, Spain. International Journal of Global Environmental Issues 2016, 15, 169 .

AMA Style

Jose Luis De La Peña, Miquel Salgot. History of an irrigation canal: the 'Real Canal de la Infanta', Barcelona, Spain. International Journal of Global Environmental Issues. 2016; 15 (1/2):169.

Chicago/Turabian Style

Jose Luis De La Peña; Miquel Salgot. 2016. "History of an irrigation canal: the 'Real Canal de la Infanta', Barcelona, Spain." International Journal of Global Environmental Issues 15, no. 1/2: 169.

Book chapter
Published: 30 October 2014 in Environmental Indicators
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Reuse of treated wastewater is a favourable direction for solving water shortage problems and meeting environmental quality criteria. Domestic wastewater in isolated communities in arid regions can be treated efficiently in a stabilization pond system. The effluent quality can be further improved when stored in a series of stabilization reservoirs. However the salinity of the wastes in the ponds will increase due to evaporation. There is a series of parameters that characterize the effluent quality for agricultural reuse. The conventional biological parameters include faecal coliforms as a microbial indicator. The use of faecal coliforms does not reflect the viral pollution of the effluent due to the poor correlation with virus occurrence. Therefore, phages are proposed as enteric virus pollution indicators. Phages exhibit similar behaviour and survival in an aquatic environment, and their quantitative assessment is easy and a reliable enteric virus measure. Field results from the treatment plant of the City of Arad (Israel) reveal the possibility of characterizing the effluent quality in stabilization ponds and additional reservoir systems. The field data also allows the type of reactor of which the system consists to be defined, and the kinetic expressions for further forecasting of the treatment system behaviour and removal rate of the pathogens.

ACS Style

Gideon Oron; Laura Alcalde-Sanz; Leonid Gillerman; Yossi Manor; Amos Bick; Miquel Salgot. Risk Management During Effluent Application for Irrigation. Environmental Indicators 2014, 677 -693.

AMA Style

Gideon Oron, Laura Alcalde-Sanz, Leonid Gillerman, Yossi Manor, Amos Bick, Miquel Salgot. Risk Management During Effluent Application for Irrigation. Environmental Indicators. 2014; ():677-693.

Chicago/Turabian Style

Gideon Oron; Laura Alcalde-Sanz; Leonid Gillerman; Yossi Manor; Amos Bick; Miquel Salgot. 2014. "Risk Management During Effluent Application for Irrigation." Environmental Indicators , no. : 677-693.

Journal article
Published: 11 April 2012 in Water
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Controversy regarding the amount of water consumed or saved as a result of human activity is currently paramount in water-scarce areas. In recent decades, golf—a land and water consuming activity—has been implanted in several areas of the Mediterranean basin, where the scarcity of water resources is well-known. As a result, the use of conventional water resources for golf course irrigation is increasingly contested and its replacement by reclaimed water has become essential. This paper examines the wide range of issues involved in its use on golf courses, including hazards—due to the presence of microorganisms and pollutants—and the corresponding risks that can appear. The resulting biological, chemical and physical water quality concerns are analyzed. Legal aspects related to the use of reclaimed water are also discussed and good reuse practices are suggested, including a detailed examination of risk assessment procedures and tools through observation or chemical, physical and microbiological analysis. The HACCP system—which focuses on quality determination in water samples from relevant control points—is described in detail, as it is generally accepted as one of the most scientific ways to detect health problems on a golf course. The paper concludes that, given the increasing availability of treated and reclaimed water and the water needs of golf courses, the future development of the sport in areas without surplus water resources—such as the Mediterranean basin—will predictably depend upon the use of reclaimed water. In recent years, risk assessment or analysis has emerged as an essential tool to guarantee the application of reclaimed water at an acceptable risk level. There certainly have been considerable advances and improvements in the tools that guarantee the safe use of reclaimed water, although current methods available require simplification for their practical application. Nevertheless, protocols applied at present seem to be adequate in order to address the key issue of enhancing the development of reclaimed water use on golf courses.

ACS Style

Miquel Salgot; Gerda K. Priestley; Montserrat Folch. Golf Course Irrigation with Reclaimed Water in the Mediterranean: A Risk Management Matter. Water 2012, 4, 389 -429.

AMA Style

Miquel Salgot, Gerda K. Priestley, Montserrat Folch. Golf Course Irrigation with Reclaimed Water in the Mediterranean: A Risk Management Matter. Water. 2012; 4 (2):389-429.

Chicago/Turabian Style

Miquel Salgot; Gerda K. Priestley; Montserrat Folch. 2012. "Golf Course Irrigation with Reclaimed Water in the Mediterranean: A Risk Management Matter." Water 4, no. 2: 389-429.

Articles
Published: 01 July 2011 in Water International
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This article evaluates the economics of alternative water-allocation strategies involving farmers and urban water users, while also presenting a cost–benefit analysis framework for water reuse and exchange projects at the basin level. Case studies from Spain and Mexico show that such projects at the basin level can be economically efficient and financially feasible.

ACS Style

Ingo Heinz; Miquel Salgot; Javier Mateo-Sagasta Dávila. Evaluating the costs and benefits of water reuse and exchange projects involving cities and farmers. Water International 2011, 36, 455 -466.

AMA Style

Ingo Heinz, Miquel Salgot, Javier Mateo-Sagasta Dávila. Evaluating the costs and benefits of water reuse and exchange projects involving cities and farmers. Water International. 2011; 36 (4):455-466.

Chicago/Turabian Style

Ingo Heinz; Miquel Salgot; Javier Mateo-Sagasta Dávila. 2011. "Evaluating the costs and benefits of water reuse and exchange projects involving cities and farmers." Water International 36, no. 4: 455-466.

Journal article
Published: 01 March 2011 in Water Science and Technology
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Cost–benefit studies on replacing conventional agricultural water resources with reclaimed water in favour of cities are still rare. Some results of a study under auspices of the Food and Agriculture Organisation (FAO) are presented. By means of an illustrative example at Lobregat River basin in Spain, it could be proved that reclaimed water reuse and intersectoral water transfer can result in economic and environmental benefits at the watershed level. The agricultural community faces cost savings in water pumping and fertilising, increases in yields and incomes; the municipality benefits from additional water resources released by farmers. Farmers should be encouraged to participate by implementing adequate economic incentives. Charging farmers with the full cost of water reclamation may discourage farmers from joining water exchange projects. Particularly in regions with water scarcity, investments in reclaimed water reuse and water exchange arrangements usually pay back and are profitable in the long term.

ACS Style

Ingo Heinz; Miquel Salgot; Sasha Koo-Oshima. Water reclamation and intersectoral water transfer between agriculture and cities – a FAO economic wastewater study. Water Science and Technology 2011, 63, 1067 -1073.

AMA Style

Ingo Heinz, Miquel Salgot, Sasha Koo-Oshima. Water reclamation and intersectoral water transfer between agriculture and cities – a FAO economic wastewater study. Water Science and Technology. 2011; 63 (5):1067-1073.

Chicago/Turabian Style

Ingo Heinz; Miquel Salgot; Sasha Koo-Oshima. 2011. "Water reclamation and intersectoral water transfer between agriculture and cities – a FAO economic wastewater study." Water Science and Technology 63, no. 5: 1067-1073.

Journal article
Published: 30 April 2009 in Water Research
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With the aim of improving the quality of the effluent from a waste stabilization pond (WSP) different types of vertical-flow constructed wetlands (VFCWs) and intermittent sand filters (ISFs) were tested at a pilot plant in Aurignac (France). The effectiveness of each design at upgrading the pond effluent was studied over a period of 2 years. Physicochemical parameters were monitored by taking composite samples over 24 h and grab samples every week. The hydraulic behaviour of the filters was studied using (NaCl) tracer tests and monitoring the infiltration rate. This paper describes the influence on the performance of the beds of: (a) the characteristics of the medium (type of sand, depth, and presence of Phragmites); (b) feed modes; and (c) the presence of an algae clogging layer. The study demonstrates the viability of VFCWs and ISFs as means of upgrading effluent from WSPs. For hydraulic loads (HL) of up to 80 cm/day, both technologies effectively retain algae, complete organic matter degradation, and nitrify the pond effluent. The presence of plants did not significantly affect the performance of the filters although it was important in terms of maintenance. The deeper filters presented better removals for all the parameter tested, due to higher hydraulic detention times (HDTs). The dosing regime and resting period duration all affected the hydraulic performance and purification efficiency of the filters.

ACS Style

Antonina Torrens; Pascal Molle; Catherine Boutin; Miquel Salgot. Impact of design and operation variables on the performance of vertical-flow constructed wetlands and intermittent sand filters treating pond effluent. Water Research 2009, 43, 1851 -1858.

AMA Style

Antonina Torrens, Pascal Molle, Catherine Boutin, Miquel Salgot. Impact of design and operation variables on the performance of vertical-flow constructed wetlands and intermittent sand filters treating pond effluent. Water Research. 2009; 43 (7):1851-1858.

Chicago/Turabian Style

Antonina Torrens; Pascal Molle; Catherine Boutin; Miquel Salgot. 2009. "Impact of design and operation variables on the performance of vertical-flow constructed wetlands and intermittent sand filters treating pond effluent." Water Research 43, no. 7: 1851-1858.

Journal article
Published: 01 April 2007 in Water Science and Technology
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The decision on technologies used for reclaiming wastewater appears as important as a consequence of the implications on the economic, environmental and health conditions of societies. The problem arises when deciding how to deal with wastewater in small communities, because the costs of implementing and operating small, intensive wastewater treatment plants are unacceptable and can lead to financing and operation problems. Extensive treatment systems can be a good solution, where space is available. This paper presents the combination of two soft technologies (infiltration–percolation and constructed wetlands) to treat and reclaim wastewater. The obtained results show that the infiltration–percolation effluent presents a quality enough to be reused for irrigation of industrial crops, nurseries, fodder, cereals and oleaginous seeds, ornamental flower production; industrial cooling; impoundments, water bodies, and streams for recreational use in which the public's contact with the water is not permitted; and irrigation of forested areas, landscape areas and restricted access areas. Moreover, the combination of infiltration–percolation and constructed wetlands increases the list of final reclamation to the following: irrigation of pasture for milk or meat animals, crops for canning industry, crops not raw-consumed, fruit trees except by sprinkling, aquaculture; and aquifer recharge by localised percolation through the soil.

ACS Style

E. Huertas; M. Folch; M. Salgot. Wastewater reclamation through a combination of natural systems (infiltration-percolation and constructed wetlands): a solution for small communities. Water Science and Technology 2007, 55, 143 -148.

AMA Style

E. Huertas, M. Folch, M. Salgot. Wastewater reclamation through a combination of natural systems (infiltration-percolation and constructed wetlands): a solution for small communities. Water Science and Technology. 2007; 55 (7):143-148.

Chicago/Turabian Style

E. Huertas; M. Folch; M. Salgot. 2007. "Wastewater reclamation through a combination of natural systems (infiltration-percolation and constructed wetlands): a solution for small communities." Water Science and Technology 55, no. 7: 143-148.

Journal article
Published: 01 April 2007 in Water Science and Technology
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Infiltration percolation (IP) is an extensive technology to treat primary or secondary effluents of small and middle size communities before reuse or disposal to sensitive receiving bodies. Thirteen years of implementation of IP in Spain has highlighted the necessity to abide by defined design and construction rules and operation conditions in order to achieve consistently the treatment objectives and guarantee a long lasting treatment capacity. From this experience, high care should be taken of (i) the characteristics of the sand constituting the filter, (ii) the drainage conditions, (iii) the influent spreading over the infiltration surface and (iv) the risks related to recurrent overloading. Simple monitoring measures are suggested in order to improve the reliability of IP plants.

ACS Style

F. Brissaud; M. Salgot; M. Folch; M. Auset; E. Huertas; A. Torrens. Wastewater infiltration percolation for water reuse and receiving body protection: thirteen years' experience in Spain. Water Science and Technology 2007, 55, 227 -234.

AMA Style

F. Brissaud, M. Salgot, M. Folch, M. Auset, E. Huertas, A. Torrens. Wastewater infiltration percolation for water reuse and receiving body protection: thirteen years' experience in Spain. Water Science and Technology. 2007; 55 (7):227-234.

Chicago/Turabian Style

F. Brissaud; M. Salgot; M. Folch; M. Auset; E. Huertas; A. Torrens. 2007. "Wastewater infiltration percolation for water reuse and receiving body protection: thirteen years' experience in Spain." Water Science and Technology 55, no. 7: 227-234.

Journal article
Published: 01 March 2007 in Water Supply
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The history and water-related features in the Poblet Cistercian Monastery, located in Tarragona province, Spain are described. The study is undertaken with the main purpose of obtaining data for the establishment of an integrated water management system inside the walls of the abbey, which is suffering water scarcity due to increasing demands and the prevalent semiarid conditions.

ACS Style

J.L. De La Pena; M. De La Peña; M. Salgot; Ll. Torcal. The Water in the Royal Monastery of Santa Maria De Poblet, Tarragona, Spain. Water Supply 2007, 7, 261 -267.

AMA Style

J.L. De La Pena, M. De La Peña, M. Salgot, Ll. Torcal. The Water in the Royal Monastery of Santa Maria De Poblet, Tarragona, Spain. Water Supply. 2007; 7 (1):261-267.

Chicago/Turabian Style

J.L. De La Pena; M. De La Peña; M. Salgot; Ll. Torcal. 2007. "The Water in the Royal Monastery of Santa Maria De Poblet, Tarragona, Spain." Water Supply 7, no. 1: 261-267.

Journal article
Published: 01 May 2006 in Tourism and Hospitality Research
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The relationship between golf courses, forced ecosystems and the environment is extremely complex and need to be established carefully because of the social pressures and implications of this type of facilities. The main environmental aspects of golf courses, the way the golf structures exert an influence on the environment, the management practices and the use of pesticides are the main features to be considered. The soil-plant-atmosphere continuum is at the core of the golf and must be managed in an integrated way to reduce environmental impacts of the whole facility. Many golf courses are located in natural areas, where wildlife exists and there is an influence on the course and vice versa. There is also the need to define the relationships between a course and its surrounding environments.

ACS Style

Miquel Salgot; Josefina C. Tapias. Golf Courses: Environmental Impacts. Tourism and Hospitality Research 2006, 6, 218 -226.

AMA Style

Miquel Salgot, Josefina C. Tapias. Golf Courses: Environmental Impacts. Tourism and Hospitality Research. 2006; 6 (3):218-226.

Chicago/Turabian Style

Miquel Salgot; Josefina C. Tapias. 2006. "Golf Courses: Environmental Impacts." Tourism and Hospitality Research 6, no. 3: 218-226.

Journal article
Published: 05 February 2006 in Desalination
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Wastewater reclamation holds promise as an important water resource as the desire to develop arid regions continues to place increasing demands on finite water resources. The debate surrounding the consumption of reclaimed wastewater finds risk managers pondering the question of what types of water quality standards might be set in order to provide the proper level of safety associated with the use of reclaimed wastewater. We propose quality categories for different reuses such as irrigation or indirect aquifer recharge with different requirements towards microbial and chemical parameters. Based on recent existing guidelines and risk estimations, microbial and chemical limits for each category were compiled. Since economic calculations are very important, analytical costs are included and measurements frequency is proposed. Biological parameters have to indicate all potential pathogenic organisms including viruses, bacteria and parasites from different origins. The selected biological indicator parameters most used in rules and regulations are coliforms and E. coli, indicating the occurrence of a former faecal contamination and the possible presence of all pathogens occurring in faeces of warm-blooded animals. In the case of wastewater reuse, biological parameters have to indicate all potential pathogens causing infection diseases and/or intoxication in all living beings including plants and animals. The large number of possible chemical parameters in relation with wastewater reclamation and reuse has to be adapted and minimized with respect to the origin of the sewage, the extent of the treatment process and the intended use. These parameters must cover a broad spectrum of toxicological and ecological risks as well as possible technical disorders. Risk assessment and risk management are also necessary.

ACS Style

M. Salgot; E. Huertas; S. Weber; W. Dott; Juliane Hollender. Wastewater reuse and risk: definition of key objectives. Desalination 2006, 187, 29 -40.

AMA Style

M. Salgot, E. Huertas, S. Weber, W. Dott, Juliane Hollender. Wastewater reuse and risk: definition of key objectives. Desalination. 2006; 187 (1-3):29-40.

Chicago/Turabian Style

M. Salgot; E. Huertas; S. Weber; W. Dott; Juliane Hollender. 2006. "Wastewater reuse and risk: definition of key objectives." Desalination 187, no. 1-3: 29-40.