water quality essay

Essay on Water Quality

Students are often asked to write an essay on Water Quality in their schools and colleges. And if you’re also looking for the same, we have created 100-word, 250-word, and 500-word essays on the topic.

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100 Words Essay on Water Quality

What is water quality.

Water quality tells us how clean or dirty water is. It is important because it affects the health of people, animals, and plants. Clean water is safe to drink and supports life.

Why Water Quality Matters

Good water quality is crucial for our health. Drinking dirty water can make us very sick. It also matters for fish and other water animals to live.

Things That Pollute Water

Many things can make water dirty. Chemicals from factories, waste from homes, and oil spills are big problems. These pollutants harm water quality.

Keeping Water Clean

To keep water clean, we should not throw trash or chemicals into water. Everyone can help by being careful about what goes down the drain.

250 Words Essay on Water Quality

Water quality: the foundation of life, water is the elixir of life, sustaining all living organisms on our planet. its quality directly impacts our health and well-being. good water quality ensures clean drinking water, healthy ecosystems, and thriving communities., sources of water pollution, numerous factors contribute to water pollution. industrial waste, agricultural runoff, sewage discharge, and littering are major culprits. these pollutants contaminate water sources, making them unsafe for consumption and damaging aquatic life., consequences of poor water quality, poor water quality leads to a range of health issues, including waterborne diseases like cholera, typhoid, and dysentery. contaminated water also affects aquatic ecosystems, leading to biodiversity loss and disrupting the food chain. additionally, it hinders economic activities like fishing and tourism, which rely on clean water., water treatment and conservation, to ensure access to clean water, water treatment facilities employ various methods like filtration, disinfection, and reverse osmosis. these processes remove impurities and harmful substances, making water safe for consumption. water conservation practices such as rainwater harvesting, leak detection, and efficient irrigation techniques help reduce demand and preserve water resources., individual and collective action, improving water quality requires collective efforts. as individuals, we can reduce our water footprint by taking shorter showers, fixing leaky faucets, and using water-saving appliances. additionally, supporting policies that promote water conservation, pollution control, and sustainable development is crucial. in conclusion, water quality is paramount to life on earth. by understanding the sources of pollution, its consequences, and the importance of water treatment and conservation, we can work together to protect this vital resource and ensure a healthy future for generations to come., 500 words essay on water quality.

Various human activities contribute to water pollution, contaminating our precious water sources. Industrial waste, agricultural runoff, sewage discharge, and littering are major culprits. These pollutants, when released into water bodies, can cause severe damage to aquatic ecosystems and pose health risks to humans.

Effects of Water Pollution

Polluted water has numerous detrimental effects. It can cause a range of waterborne diseases, such as diarrhea, typhoid, and cholera, when consumed. Additionally, it harms aquatic life, leading to a decline in biodiversity and disruption of the food chain. Water pollution also affects the aesthetics of water bodies, making them unpleasant for recreational activities like swimming and fishing.

Importance of Water Quality

Maintaining good water quality is essential for several reasons. It ensures safe drinking water, preventing waterborne diseases and promoting public health. Healthy water bodies support thriving aquatic ecosystems, providing habitat for diverse plants and animals. Clean water is also vital for various economic activities, including agriculture, fishing, and tourism, contributing to sustainable livelihoods.

Water Quality Monitoring

Monitoring water quality is crucial for assessing its health and taking appropriate action to protect it. Regular testing for various parameters, such as pH, dissolved oxygen, and the presence of pollutants, helps identify potential problems and track water quality trends over time. This information is essential for developing effective water management and pollution control strategies.

Water Conservation and Preservation

Conserving water and preventing pollution are critical steps in maintaining water quality. Reducing water consumption, using water-efficient appliances, and fixing leaky faucets can help conserve precious water resources. Additionally, implementing pollution control measures, such as wastewater treatment plants and proper waste disposal systems, helps minimize the discharge of pollutants into water bodies.

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130 Water Quality Essay Topic Ideas & Examples

Inside This Article

Water quality is a crucial aspect of environmental health and sustainability. As our planet continues to face challenges such as pollution, climate change, and resource depletion, it is more important than ever to raise awareness about the importance of clean water. One way to do this is by writing essays that highlight various water quality topics. To help you get started, here are 130 water quality essay topic ideas and examples:

• The impact of industrial pollution on water quality
• The role of agricultural practices in water pollution
• The importance of clean drinking water for public health
• The effects of plastic pollution on marine water quality
• The relationship between water quality and biodiversity
• The impact of climate change on water quality
• The significance of water quality testing and monitoring
• The connection between water quality and human rights
• The role of government regulations in protecting water quality
• The benefits of investing in water treatment facilities
• The challenges of managing water quality in developing countries
• The effects of fracking on water quality
• The importance of protecting groundwater quality
• The impact of urbanization on water quality
• The role of community engagement in improving water quality
• The effects of nutrient pollution on water quality
• The relationship between water quality and economic development
• The significance of preserving natural water sources
• The connection between water quality and recreational activities
• The benefits of sustainable water management practices
• The impact of microplastics on water quality
• The role of education in promoting water quality awareness
• The challenges of addressing water quality issues in rural areas
• The effects of pharmaceutical pollution on water quality
• The importance of protecting water quality in marine ecosystems
• The connection between water quality and wildlife conservation
• The significance of addressing microbead pollution in water systems
• The role of technology in improving water quality monitoring
• The benefits of investing in water quality research
• The impact of invasive species on water quality
• The relationship between water quality and food security
• The significance of community-based water quality initiatives
• The effects of mining activities on water quality
• The importance of maintaining water quality standards
• The challenges of addressing legacy pollution in water systems
• The role of citizen science in monitoring water quality
• The benefits of using natural filtration systems to improve water quality
• The impact of plastic bottle pollution on water quality
• The connection between water quality and climate resilience
• The significance of addressing pollution hotspots in water systems
• The effects of pesticide contamination on water quality
• The importance of protecting wetlands for water quality
• The relationship between water quality and social equity
• The role of indigenous knowledge in improving water quality
• The benefits of using green infrastructure to enhance water quality
• The impact of industrial discharges on water quality
• The significance of addressing stormwater runoff in urban areas
• The connection between water quality and environmental justice
• The effects of oil spills on water quality
• The importance of protecting watersheds for water quality
• The role of public-private partnerships in improving water quality
• The benefits of using biofiltration systems to enhance water quality
• The impact of agricultural runoff on water quality
• The relationship between water quality and waterborne diseases
• The significance of addressing pharmaceuticals in water systems
• The effects of mercury contamination on water quality
• The importance of protecting drinking water sources from pollution
• The connection between water quality and aquatic habitat
• The benefits of using natural floodplains to improve water quality
• The impact of microplastic pollution on freshwater ecosystems
• The role of environmental education in promoting water quality awareness
• The challenges of addressing nutrient pollution in water systems
• The effects of heavy metal contamination on water quality
• The significance of addressing combined sewer overflows for water quality
• The connection between water quality and agricultural productivity
• The benefits of using green roofs to enhance water quality
• The impact of urban sprawl on water quality
• The relationship between water quality and public health outcomes
• The importance of protecting water quality in coastal areas
• The role of green infrastructure in improving urban water quality
• The benefits of using constructed wetlands to enhance water quality
• The impact of sea level rise on coastal water quality
• The significance of addressing plastic pollution in rivers and lakes
• The connection between water quality and sustainable fisheries
• The effects of mining waste on water quality
• The importance of protecting coral reefs for water quality
• The relationship between water quality and tourism
• The benefits of using rain gardens to improve water quality
• The impact of pesticide runoff on water quality
• The significance of addressing pharmaceutical residues in wastewater
• The connection between water quality and biodiversity conservation
• The effects of oil and gas drilling on water quality
• The role of green chemistry in reducing water pollution
• The benefits of using natural water filters to improve water quality
• The impact of urban heat islands on water quality
• The significance of addressing plastic pollution in oceans
• The connection between water quality and ecosystem services
• The effects of industrial chemicals on water quality
• The importance of protecting mangrove forests for water quality
• The relationship between water quality and climate change adaptation
• The benefits of using biochar to enhance water quality
• The impact of urban runoff on water quality
• The significance of addressing microplastic pollution in groundwater
• The connection between water quality and land use planning
• The effects of agricultural chemicals on water quality
• The importance of protecting estuaries for water quality
• The role of green infrastructure in reducing urban water pollution
• The benefits of using floating wetlands to improve water quality
• The impact of oil spills on river and lake ecosystems
• The significance of addressing plastic pollution in wetlands
• The connection between water quality and community resilience
• The effects of industrial waste on water quality
• The importance of protecting seagrass beds for water quality
• The relationship between water quality and coastal erosion
• The benefits of using biofilters to enhance water quality
• The impact of wastewater discharges on water quality
• The significance of addressing microplastic pollution in estuaries
• The connection between water quality and disaster risk reduction
• The effects of urban pollution on water quality
• The importance of protecting riparian zones for water quality
• The role of green infrastructure in improving water quality in cities
• The benefits of using floating islands to enhance water quality
• The impact of agricultural runoff on coral reef health
• The significance of addressing plastic pollution in lakes
• The connection between water quality and sustainable development
• The effects of oil spills on marine biodiversity
• The importance of protecting freshwater ecosystems for water quality
• The relationship between water quality and flood resilience
• The benefits of using biofiltration ponds to improve water quality
• The impact of mining activities on river health
• The significance of addressing microplastic pollution in coastal waters
• The connection between water quality and disaster recovery
• The effects of urbanization on water quality in developing countries
• The importance of protecting river deltas for water quality
• The role of green infrastructure in reducing water pollution in rural areas
• The benefits of using floating treatment wetlands to enhance water quality
• The impact of agricultural pesticides on river ecosystems
• The significance of addressing plastic pollution in mangrove forests
• The connection between water quality and sustainable tourism
• The effects of oil spills on coastal water quality

In conclusion, these water quality essay topics cover a wide range of issues related to the importance of clean water and the challenges facing our planet. By writing essays on these topics, you can help raise awareness about the need to protect and preserve our water resources for future generations. So, pick a topic that interests you and start writing to make a difference in the world!

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• Int J Environ Res Public Health

Drinking Water Quality and Human Health: An Editorial

Patrick levallois.

1 Direction de la santé environnementale et de la toxicologie, Institut national de la santé publique du Québec, QC G1V 5B3, Canada

2 Département de médecine sociale et préventive, Faculté de médecine, Université Laval, Québec, QC G1V 0A6, Canada

Cristina M. Villanueva

3 ISGlobal, 08003 Barcelona, Spain; [email protected]

4 Universitat Pompeu Fabra (UPF), 08002 Barcelona, Spain

5 Consortium for Biomedical Research in Epidemiology and Public Health (CIBERESP), Carlos III Institute of Health, 28029 Madrid, Spain

6 IMIM (Hospital del Mar Medical Research Institute), 08003 Barcelona, Spain

Drinking water quality is paramount for public health. Despite improvements in recent decades, access to good quality drinking water remains a critical issue. The World Health Organization estimates that almost 10% of the population in the world do not have access to improved drinking water sources [ 1 ], and one of the United Nations Sustainable Development Goals is to ensure universal access to water and sanitation by 2030 [ 2 ]. Among other diseases, waterborne infections cause diarrhea, which kills nearly one million people every year. Most are children under the age of five [ 1 ]. At the same time, chemical pollution is an ongoing concern, particularly in industrialized countries and increasingly in low and medium income countries (LMICs). Exposure to chemicals in drinking water may lead to a range of chronic diseases (e.g., cancer and cardiovascular disease), adverse reproductive outcomes and effects on children’s health (e.g., neurodevelopment), among other health effects [ 3 ].

Although drinking water quality is regulated and monitored in many countries, increasing knowledge leads to the need for reviewing standards and guidelines on a nearly permanent basis, both for regulated and newly identified contaminants. Drinking water standards are mostly based on animal toxicity data, and more robust epidemiologic studies with an accurate exposure assessment are rare. The current risk assessment paradigm dealing mostly with one-by-one chemicals dismisses potential synergisms or interactions from exposures to mixtures of contaminants, particularly at the low-exposure range. Thus, evidence is needed on exposure and health effects of mixtures of contaminants in drinking water [ 4 ].

In a special issue on “Drinking Water Quality and Human Health” IJERPH [ 5 ], 20 papers were recently published on different topics related to drinking water. Eight papers were on microbiological contamination, 11 papers on chemical contamination, and one on radioactivity. Five of the eight papers were on microbiology and the one on radioactivity concerned developing countries, but none on chemical quality. In fact, all the papers on chemical contamination were from industrialized countries, illustrating that microbial quality is still the priority in LMICs. However, chemical pollution from a diversity of sources may also affect these settings and research will be necessary in the future.

Concerning microbiological contamination, one paper deals with the quality of well water in Maryland, USA [ 6 ], and it confirms the frequent contamination by fecal indicators and recommends continuous monitoring of such unregulated water. Another paper did a review of Vibrio pathogens, which are an ongoing concern in rural sub-Saharan Africa [ 7 ]. Two papers focus on the importance of global primary prevention. One investigated the effectiveness of Water Safety Plans (WSP) implemented in 12 countries of the Asia-Pacific region [ 8 ]. The other evaluated the lack of intervention to improve Water, Sanitation and Hygiene (WASH) in Nigerian communities and its effect on the frequency of common childhood diseases (mainly diarrhea) in children [ 9 ]. The efficacies of two types of intervention were also presented. One was a cost-effective household treatment in a village in South Africa [ 10 ], the other a community intervention in mid-western Nepal [ 11 ]. Finally, two epidemiological studies were conducted in industrialized countries. A time-series study evaluated the association between general indicators of drinking water quality (mainly turbidity) and the occurrence of gastroenteritis in 17 urban sites in the USA and Europe. [ 12 ] The other evaluated the performance of an algorithm to predict the occurrence of waterborne disease outbreaks in France [ 13 ].

On the eleven papers on chemical contamination, three focused on the descriptive characteristics of the contamination: one on nitrite seasonality in Finland [ 14 ], the second on geogenic cation (Na, K, Mg, and Ca) stability in Denmark [ 15 ] and the third on historical variation of THM concentrations in french water networks [ 16 ]. Another paper focused on fluoride exposure assessments using biomonitoring data in the Canadian population [ 17 ]. The other papers targeted the health effects associated with drinking water contamination. An extensive up-to-date review was provided regarding the health effects of nitrate [ 18 ]. A more limited review was on heterogeneity in studies on cancer and disinfection by-products [ 19 ]. A thorough epidemiological study on adverse birth outcomes and atrazine exposure in Ohio found a small link with lower birth weight [ 20 ]. Another more geographical study, found a link between some characteristics of drinking water in Taiwan and chronic kidney diseases [ 21 ]. Finally, the other papers discuss the methods of deriving drinking water standards. One focuses on manganese in Quebec, Canada [ 22 ], another on the screening values for pharmaceuticals in drinking water, in Minnesota, USA [ 23 ]. The latter developed the methodology used in Minnesota to derive guidelines—taking the enhanced exposure of young babies to water chemicals into particular consideration [ 24 ]. Finally, the paper on radioactivity presented a description of Polonium 210 water contamination in Malaysia [ 25 ].

In conclusion, despite several constraints (e.g., time schedule, fees, etc.), co-editors were satisfied to gather 20 papers by worldwide teams on such important topics. Our small experience demonstrates the variety and importance of microbiological and chemical contamination of drinking water and their possible health effects.

Acknowledgments

Authors want to acknowledge the important work of the IJERPH staff and of numbers of anonymous reviewers.

Author Contributions

P.L. wrote a first draft of the editorial and approved the final version. C.M.V. did a critical review and added important complementary information to finalize this editorial.

This editorial work received no special funding.

Conflicts of Interest

The authors declare no conflict of interest.

A comprehensive review of water quality indices (WQIs): history, models, attempts and perspectives

• Review paper
• Published: 11 March 2023
• Volume 22 , pages 349–395, ( 2023 )

Cite this article

• Sandra Chidiac   ORCID: orcid.org/0000-0002-1822-119X 1 ,
• Paula El Najjar 1 , 2 ,
• Naim Ouaini 1 ,
• Youssef El Rayess 1 &
• Desiree El Azzi 1 , 3  

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Water quality index (WQI) is one of the most used tools to describe water quality. It is based on physical, chemical, and biological factors that are combined into a single value that ranges from 0 to 100 and involves 4 processes: (1) parameter selection, (2) transformation of the raw data into common scale, (3) providing weights and (4) aggregation of sub-index values. The background of WQI is presented in this review study. the stages of development, the progression of the field of study, the various WQIs, the benefits and drawbacks of each approach, and the most recent attempts at WQI studies. In order to grow and elaborate the index in several ways, WQIs should be linked to scientific breakthroughs (example: ecologically). Consequently, a sophisticated WQI that takes into account statistical methods, interactions between parameters, and scientific and technological improvement should be created in order to be used in future investigations.

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1 Introduction

Water is the vital natural resource with social and economic values for human beings (Kumar 2018 ). Without water, existence of man would be threatened (Zhang 2017 ). The most important drinking sources in the world are surface water and groundwater (Paun et al. 2016 ).

Currently, more than 1.1 billion people do not have access to clean drinking water and it is estimated that nearly two-thirds of all nations will experience water stress by the year 2025 (Kumar 2018 ).

With the extensive social and economic growth, such as human factors, climate and hydrology may lead to accumulation of pollutants in the surface water that may result in gradual change of the water source quality (Shan 2011 ).

The optimal quantity and acceptable quality of water is one of the essential needs to survive as mentioned earlier, but the maintenance of an acceptable quality of water is a challenge in the sector of water resources management (Mukate et al. 2019 ). Accordingly, the water quality of water bodies can be tested through changes in physical, chemical and biological characteristics related to anthropogenic or natural phenomena (Britto et al. 2018 ).

Therefore, water quality of any specific water body can be tested using physical, chemical and biological parameters also called variables, by collecting samples and obtaining data at specific locations (Britto et al. 2018 ; Tyagi et al. 2013 ).

To that end, the suitability of water sources for human consumption has been described in terms of Water Quality Index (WQI), which is one of the most effective ways to describe the quality of water, by reducing the bulk of information into a single value ranging between 0 and 100 (Tyagi et al. 2013 ).

Hence, the objective of the study is to review the WQI concept by listing some of the important water quality indices used worldwide for water quality assessment, listing the advantages and disadvantages of the selected indices and finally reviewing some water quality studies worldwide.

2 Water quality index

2.1 history of water quality concept.

In the last decade of the twentieth century, many organizations involved in water control, used the water quality indices for water quality assessment (Paun et al. 2016 ). In the 1960’s, the water quality indices was introduced to assess the water quality in rivers (Hamlat et al. 2017 ).

Horton ( 1965 ), initially developed a system for rating water quality through index numbers, offering a tool for water pollution abatement, since the terms “water quality” and “pollution” are related. The first step to develop an index is to select a list of 10 variables for the index’s construction, which are: sewage treatment, dissolved oxygen (DO), pH, coliforms, electroconductivity (EC), carbon chloroform extract (CCE), alkalinity, chloride, temperature and obvious pollution. The next step is to assign a scale value between zero and 100 for each variable depending on the quality or concentration. The last step, is to designate to each variable is a relative weighting factor to show their importance and influence on the quality index (the higher the assigned weight, the more impact it has on the water quality index, consequently it is more important) (Horton 1965 ).

Later on, Brown et al. ( 1970 ) established a new water quality index (WQI) with nine variables: DO, coliforms, pH, temperature, biochemical oxygen demand (BOD), total phosphate, nitrate concentrations, turbidity and solid content based on a basic arithmetic weighting using arithmetic mean to calculate the rating of each variable. These rates are then converted not temporary weights. Finally, each temporary weight is divided by the sum of all the temporary weights in order to get the final weight of each variable (Kachroud et al. 2019a ; Shah and Joshi 2017 ). In 1973, Brown et al., considered that a geometric aggregation (a way to aggregate variables, and being more sensitive when a variable exceeds the norm) is better than an arithmetic one. The National Sanitation Foundation (NSF) supported this effort (Kachroud et al. 2019a ; Shah and Joshi 2017 ).

Steinhart et al. ( 1982 ) developed a novel environmental quality index (EQI) for the Great Lakes ecosystem in North America. Nine variables were selected for this index: biological, physical, chemical and toxic. These variables were: specific conductance or electroconductivity, chloride, total phosphorus, fecal Coliforms, chlorophyll a , suspended solids, obvious pollution (aesthetic state), toxic inorganic contaminants, and toxic organic contaminants. Raw data were converted to subindex and each subindex was multiplied by a weighting factor (a value of 0.1 for chemical, physical and biological factors but 0.15 for toxic substances). The final score ranged between 0 (poor quality) and 100 (best quality) (Lumb et al. 2011a ; Tirkey et al. 2015 ).

Dinius ( 1987 ), developed a WQI based on multiplicative aggregation having a scale expressed with values as percentage, where 100% expressed a perfect water quality (Shah and Joshi 2017 ).

In the mid 90’s, a new WQI was introduced to Canada by the province of British Columbia, and used as an increasing index to evaluate water quality (Lumb et al. 2011b ; Shah and Joshi 2017 ). A while after, the Water Quality Guidelines Task Group of the Canadian Council of Ministers of the Environment (CCME) modified the original British Columbia Water Quality Index (BCWQI) and endorsed it as the CCME WQI in 2001(Bharti and Katyal 2011 ; Lumb et al. 2011b ).

In 1996, the Watershed Enhancement Program (WEPWQI) was established in Dayton Ohio, including water quality variables, flow measurements and water clarity or turbidity. Taking into consideration pesticide and Polycyclic Aromatic Hydrocarbon (PAH) contamination, is what distinguished this index from the NSFWQI (Kachroud et al. 2019a , b ).

Liou et al. (2003) established a WQI in Taiwan on the Keya River. The index employed thirteen variables: Fecal coliforms, DO, ammonia nitrogen, BOD, suspended solids, turbidity, temperature, pH, toxicity, cadmium (Cd), lead (Pb), copper (Cu) and zinc (Zn). These variables were downsized to nine based on environmental and health significance: Fecal coliforms, DO, ammonia nitrogen, BOD, suspended solids, turbidity, temperature, pH and toxicity. Each variable was converted into an actual value ranging on a scale from 0 to 100 (worst to highest). This index is based on the geometric means (an aggregation function that could eliminate the ambiguous caused from smaller weightings) of the standardized values (Akhtar et al. 2021 ; Liou et al. 2004 ; Uddin et al. 2021 ).

Said et al. ( 2004 ) implemented a new WQI using the logarithmic aggregation applied in streams waterbodies in Florida (USA), based on only 5 variables: DO, total phosphate, turbidity, fecal coliforms and specific conductance. The main idea was to decrease the number of variables and change the aggregation method using the logarithmic aggregation (this function does not require any sub-indices and any standardization of the variables). This index ranged from 0 to 3, the latter being the ideal value (Akhtar et al. 2021 ; Kachroud et al. 2019a , b ; Said et al. 2004 ; Uddin et al. 2021 ).

The Malaysian WQI (MWQI) was carried out in 2007, including six variables: DO, BOD, Chemical Oxygen Demand (COD), Ammonia Nitrogen, suspended solids and pH. For each variable, a curve was established to transform the actual value of the variable into a non-dimensional sub-index value.

The next step is to determine the weighting of the variables by considering the experts panel opinions. The final score is determined using the additive aggregation formula (where sub-indices values and their weightings are summed), extending from 0 (polluted) to 100 (clean) (Uddin et al. 2021 ).

The Hanh and Almeida indices were established respectively in 2010 on surface water in Vietnam and 2012 on the Potrero de los Funes in Argentina, based on 8 (color, suspended solids, DO, BOD, COD, chloride, total coliforms and orthophosphate) and 10 (color, pH, COD, fecal coliforms, total coliforms, total phosphate, nitrates, detergent, enterococci and Escherichia coli .) water quality variables. Both indices were based on rating curve- based sum-indexing system (Uddin et al. 2021 ).

The most recent developed WQI model in the literature was carried out in 2017. This index tried to reduce uncertainty present in other water quality indices. The West Java Water Quality Index (WJWQI) applied in the Java Sea in Indonesia was based on thirteen crucial water quality variables: temperature, suspended solids, COD, DO, nitrite, total phosphate, detergent, phenol, chloride, Zn, Pb, mercury (Hg) and fecal coliforms. Using two screening steps (based on statistical assessment), parameter (variable) redundancy was determined to only 9: temperature, suspended solids, COD, DO, nitrite, total phosphate, detergent, phenol and chloride. Sub-indices were obtained for those nine variables and weights were allocated based on expert opinions, using the same multiplicative aggregation as the NSFWQI. The WJWQI suggested 5 quality classes ranging from poor (5–25) to excellent (90–100) (Uddin et al. 2021 ).

2.2 Phases of WQI development

Mainly, WQI concept is based on many factors as displayed in Fig.  1 and described in the following steps:

Phases of WQI development

Parameter selection for measurement of water quality (Shah and Joshi 2017 ):

The selection is carried out based on the management objectives and the environmental characteristics of the research area (Yan et al. 2015 ). Many variables are recommended, since they have a considerable impact on water quality and derive from 5 classes namely, oxygen level, eutrophication, health aspects, physical characteristics and dissolved substances (Tyagi et al. 2013 ).

Transformation of the raw data parameter into a common scale (Paun et al. 2016 ):

Different statistical approach can be used for transformation, all parameters are transformed from raw data that have different dimensions and units (ppm, saturation, percentage etc.) into a common scale, a non-dimensional scale and sub-indices are generated (Poonam et al. 2013 ; Tirkey et al. 2015 ).

Providing weights to the parameters (Tripathi and Singal 2019 ):

Weights are assigned to each parameter according to their importance and their impact on water quality, expert opinion is needed to assign weights (Tirkey et al. 2015 ). Weightage depends on the permissible limits assigned by International and National agencies in water drinking (Shah and Joshi 2017 ).

Aggregation of sub-index values to obtain the final WQI:

WQI is the sum of rating and weightage of all the parameters (Tripathi and Singal 2019 ).

It is important to note that in some indices, statistical approaches are commonly used such as factor analysis (FA), principal component analysis (PCA), discriminant analysis (DA) and cluster analysis (CA). Using these statistical approaches improves accuracy of the index and reduce subjective assumptions (Tirkey et al. 2015 ).

2.3 Evolution of WQI research

2.3.1 per year.

According to Scopus ( 2022 ), the yearly evolution of WQI's research is illustrated in Fig.  2 (from 1978 till 2022).

Evolution of WQI research per year (Scopus 2022 )

Overall, it is clear that the number of research has grown over time, especially in the most recent years. The number of studies remained shy between 1975 and 1988 (ranging from 1 to 13 research). In 1998, the number improved to 46 studies and increased gradually to 466 publications in 2011.The WQI's studies have grown significantly over the past decade, demonstrating that the WQI has become a significant research topic with the goal of reaching its maximum in 2022 (1316 studies) (Scopus, 2022 ).

2.3.2 Per country

In Fig.  3 , the development of WQI research is depicted visually per country from 1975 to 2022.

Evolution of WQI research per country (Scopus 2022 )

According to Scopus ( 2022 ), the top three countries were China, India and the United States, with 2356, 1678 and 1241 studies, respectively. Iran, Brazil, and Italy occupy the fourth, fifth, and sixth spots, respectively (409, 375 and 336 study). Malaysia and Spain have approximately the same number of studies, respectively 321 and 320 study. The studies in the remaining countries decrease gradually from 303 document in Spain to 210 documents in Turkey. This demonstrates that developing nations, like India, place a high value on the development of water quality protection even though they lack strong economic power, cutting-edge technology, and a top-notch scientific research team. This is because water quality is crucial to the long-term social and economic development of those nations (Zhang 2019 ).

2.4 Different methods for WQI determination

Water quality indices are tools to determine water quality. Those indices demand basic concepts and knowledge about water issues (Singh et al. 2013 ). There are many water quality indices such as the: National Sanitation Foundation Water Quality Index (NSFWQI), Canadian Council of Ministers of Environment Water Quality Index (CCMEWQI), Oregon Water Quality Index (OWQI), and Weight Arithmetic Water Quality Index (WAWQI) (Paun et al. 2016 ).

These water quality indices are applied in particular areas, based on many parameters compared to specific regional standards. Moreover, they are used to illustrate annual cycles, spatio-temporal variations and trends in water quality (Paun et al. 2016 ). That is to say that, these indices reflect the rank of water quality in lakes, streams, rivers, and reservoirs (Kizar 2018 ).

Accordingly, in this section a general review of available worldwide used indices is presented.

2.4.1 National sanitation foundation (NSFWQI)

The NSFWQI was developed in 1970 by the National Sanitation Foundation (NSF) of the United States (Hamlat et al. 2017 ; Samadi et al. 2015 ). This WQI has been widely field tested and is used to calculate and evaluate the WQI of many water bodies (Hamlat et al. 2017 ). However, this index belongs to the public indices group. It represents a general water quality and does not take into account the water’s use capacities, furthermore, it ignores all types of water consumption in the evaluation process (Bharti and Katyal 2011 ; Ewaid 2017 ).

The NSFWQI has been widely applied and accepted in Asian, African and European countries (Singh et al. 2013 ), and is based on the analysis of nine variables or parameters, such as, BOD, DO, Nitrate (NO 3 ), Total Phosphate (PO 4 ), Temperature, Turbidity, Total Solids(TS), pH, and Fecal Coliforms (FC).

Some of the index parameters have different importance, therefore, a weighted mean for each parameter is assigned, based on expert opinion which have grounded their opinions on the environmental significance, the recommended principles and uses of water body and the sum of these weights is equal to 1 (Table 1 ) (Ewaid 2017 ; Uddin et al. 2021 ).

Due to environmental issues, the NSFWQI has changed overtime. The TS parameter was substituted by the Total Dissolved Solids (TDS) or Total Suspended Solids (TSS), the Total Phosphate by orthophosphate, and the FC by E. coli (Oliveira et al. 2019 ).

The mathematical expression of the NSFWQI is given by the following Eq. ( 1 ) (Tyagi et al. 2013 ):

where, Qi is the sub-index for ith water quality parameter. Wi is the weight associated with ith water quality parameter. n is the number of water quality parameters.

This method ranges from 0 to 100, where 100 represents perfect water quality conditions, while zero indicates water that is not suitable for the use and needs further treatment (Samadi et al. 2015 ).

The ratings are defined in the following Table 2 .

In 1972, the Dinius index (DWQI) happened to be the second modified version of the NSF (USA). Expended in 1987 using the Delphi method, the DWQI included twelve parameters (with their assigned weights): Temperature (0.077), color (0.063), pH (0.077), DO (0.109), BOD (0.097), EC (0.079), alkalinity (0.063), chloride (0.074), coliform count (0.090), E. coli (0.116). total hardness (0.065) and nitrate (0.090). Without any conversion process, the DWQI used the measured variable concentrations directly as the sub-index values (Kachroud et al. 2019b ; Uddin et al. 2021 ).

Sukmawati and Rusni assessed in 2018 the water quality in Beratan lake (Bali), choosing five representative stations for water sampling representing each side of the lake, using the NSFWQI. NSFWQI’s nine parameters mentioned above were measured in each station. The findings indicated that the NSFWQI for the Beratan lake was seventy-eight suggesting a good water quality. Despite this, both pH and FC were below the required score (Sukmawati and Rusni 2019 ).

The NSFWQI indicated a good water quality while having an inadequate value for fecal coliforms and pH. For that reason, WQIs must be adapted and developed so that any minor change in the value of any parameter affects the total value of the water quality index.

A study conducted by Zhan et al. ( 2021 ) , concerning the monitoring of water quality and examining WQI trends of raw water in Macao (China) was established from 2002 to 2019 adopting the NSFWQI. NSFWQI's initial model included nine parameters (DO, FC, pH, BOD, temperature, total phosphates, and nitrates), each parameter was given a weight and the parameters used had a significant impact on the WQI calculation outcomes. Two sets of possible parameters were investigated in this study in order to determine the impact of various parameters. The first option was to keep the original 9-parameter model, however, in the second scenario, up to twenty-one parameters were chosen, selected by Principal Component Analysis (PCA).

The latter statistical method was used to learn more about the primary elements that contributed to water quality variations, and to calculate the impact of each attribute on the quality of raw water. Based on the PCA results, the 21-parameter model was chosen. The results showed that the quality of raw water in Macao has been relatively stable in the period of interest and appeared an upward trend overall. Furthermore, the outcome of environmental elements, such as natural events, the region's hydrology and meteorology, can have a significant impact on water quality. On the other hand, Macao's raw water quality met China's Class III water quality requirements and the raw water pollution was relatively low. Consequently, human activities didn’t have a significant impact on water quality due to effective treatment and protection measures (Zhan et al. 2021 ).

Tampo et al. ( 2022 ) undertook a recent study in Adjougba (Togo), in the valley of Zio River. Water samples were collected from the surface water (SW), ground water (GW) and treated wastewater (TWW), intending to compare the water quality of these resources for irrigation and domestic use.

Hence, WQIs, water suitability indicators for irrigation purposes (WSI-IPs) and raw water quality parameters were compared using statistical analysis (factor analysis and Spearman’s correlation).

Moreover, the results proposed that he water resources are suitable for irrigation and domestic use: TWW suitable for irrigation use, GW suitable for domestic use and SW suitable for irrigation use.

The NSFWQI and overall index of pollution (OPI) parameters were tested, and the results demonstrated that the sodium absorption ratio, EC, residual sodium carbonate, Chloride and FC are the most effective parameters for determining if water is suitable for irrigation.

On the other hand, EC, DO, pH, turbidity, COD, hardness, FC, nitrates, national sanitation foundation's water quality index (NSFWQI), and overall index of pollution (OPI) are the most reliable in the detection of water suitability for domestic use (Tampo et al. 2022 ).

Following these studies, it is worth examining the NSFWQI. This index can be used with other WQI models in studies on rivers, lakes etc., since one index can show different results than another index, in view of the fact that some indices might be affected by other variations such as seasonal variation.

Additionally, the NSFWQI should be developed and adapted to each river, so that any change in any value will affect the entire water quality. It is unhelpful to have a good water quality yet a low score of a parameter that can affect human health (case of FC).

2.4.2 Canadian council of ministers of the environment water quality index (CCMEWQI)

The Canadian Water Quality Index adopted the conceptual model of the British Colombia Water Quality Index (BCWQI), based on relative sub-indices (Kizar 2018 ).

The CCMEWQI provides a water quality assessment for the suitability of water bodies, to support aquatic life in specific monitoring sites in Canada (Paun et al. 2016 ). In addition, this index gives information about the water quality for both management and the public. It can furthermore be applied in many water agencies in various countries with slight modification (Tyagi et al. 2013 ).

The CCMEWQI method simplifies the complex and technical data. It tests the multi-variable water quality data and compares the data to benchmarks determined by the user (Tirkey et al. 2015 ). The sampling protocol requires at least four parameters sampled at least four times but does not indicate which ones should be used; the user must decide ( Uddin et al. 2021 ). Yet, the parameters may vary from one station to another (Tyagi et al. 2013 ).

After the water body, the objective and the period of time have been defined the three factors of the CWQI are calculated (Baghapour et al. 2013 ; Canadian Council of Ministers of the Environment 1999 ):

The scope (F1) represents the percentage of variables that failed to meet the objective (above or below the acceptable range of the selected parameter) at least once (failed variables), relative to the total number of variables.

The frequency (F2) represents the percentage of tests which do not meet the objectives (above or below the acceptable range of the selected parameter) (failed tests).

The amplitude represents the amount by which failed tests values did not meet their objectives (above or below the acceptable range of the selected parameter). It is calculated in three steps.

The excursion is termed each time the number of an individual parameter is further than (when the objective is a minimum, less than) the objective and is calculated by two Eqs. ( 4 , 5 ) referring to two cases. In case the test value must not exceed the objective:

For the cases in which the test value must not fall below the objective:

The normalized sum of excursions, or nse , is calculated by summing the excursions of individual tests from their objectives and diving by the total number of tests (both meetings and not meeting their objectives):

F3 is then calculated an asymptotic function that scales the normalized sum of the excursions from objectives (nse) to yield a range between 0 and 100:

Finally, the CMEWQI can be obtained from the following equation, where the index changes in direct proportion to changes in all three factors.

where 1.732 is a scaling factor and normalizes the resultant values to a range between 0 and 100, where 0 refers to the worst quality and one hundred represents the best water quality.

Once the CCME WQI value has been determined, water quality in ranked as shown in Table 3

Ramírez-Morales et al. ( 2021 ) investigated in their study the measuring of pesticides and water quality indices in three agriculturally impacted micro catchments in Costa Rica between 2012 and 2014. Surface water and sediment samples were obtained during the monitoring experiment.

The specifications of the water included: Pesticides, temperature, DO, oxygen saturation, BOD, TP, NO3, sulfate, ammonium, COD, conductivity, pH and TSS.

Sediment parameters included forty-two pesticides with different families including carbamate, triazine, organophosphate, phthalimide, pyrethroid, uracil, benzimidazole, substituted urea, organochlorine, imidazole, oxadiazole, diphenyl ether and bridged diphenyl.

WQIs are effective tools since they combine information from several variables into a broad picture of the water body's state. Two WQIs were calculated using the physicochemical parameters: The Canadian Council of Ministers of the Environment (CCME) WQI and the National Sanitation Foundation (NSF) WQI.

These were chosen since they are both extensively used and use different criteria to determine water quality: The NSF WQI has fixed parameters, weights, and threshold values, whereas the CCME has parameters and threshold values that are customizable.

The assessment of water quality using physico-chemical characteristics and the WQI revealed that the CCME WQI and the NSF WQI have distinct criteria. CCME WQI categorized sampling point as marginal/bad quality, while most sampling locations were categorized as good quality in the NSF WQI. Seemingly, the water quality classifications appeared to be affected by seasonal variations: during the wet season, the majority of the CCME WQI values deteriorated, implying that precipitation and runoff introduced debris into the riverbed. Thus, it’s crucial to compare WQIs because they use various factors, criteria, and threshold values, which might lead to different outcomes (Ramírez-Morales et al. 2021 ).

Yotova et al. ( 2021 ) directed an analysis on the Mesta River located between Greece and Bulgaria. The Bulgarian section of the Mesta River basin, which is under the supervision of the West-Aegean Region Basin Directorate, was being researched. The goal was to evaluate the surface water quality of ten points of the river using a novel approach that combines composite WQI developed by the CCME and Self organizing map (SOM) on the required monitoring data that include: DO, pH, EC, ammonium, nitrite, nitrate, total phosphate, BOD and TSS.

The use of WQI factors in SOM calculations allows for the identification of specific WQI profiles for various object groups and identifying groupings of river basin which have similar sampling conditions. The use of both could reveal and estimate the origin and magnitude of anthropogenic pressure. In addition, it might be determined that untreated residential wastewaters are to blame for deviations from high quality requirements in the Mesta River catchment.

Interestingly, this study reveals that WQI appear more accurate and specific when combined with a statistical test such as the SOM (Yotova et al. 2021 ).

2.4.3 Oregon water quality index (OWQI)

The Oregon Water Quality Index is a single number that creates a score to evaluate the water quality of Oregon’s stream and apply this method in other geographical region (Hamlat et al. 2017 ; Singh et al. 2013 ). The OWQI was widely accepted and applied in Oregon (USA) and Idaho (USA) (Sutadian et al. 2016 ).

Additionally, the OWQI is a variant of the NSFWQI, and is used to assess water quality for swimming and fishing, it is also used to manage major streams (Lumb et al. 2011b ). Since the introduction of the OWQI in 1970, the science of water quality has improved noticeably, and since 1978, index developers have benefited from increasing understanding of stream functionality (Bharti and Katyal 2011 ). The Oregon index belongs to the specific consumption indices group. It is a water classification based on the kind of consumption and application such as drinking, industrial, etc. (Shah and Joshi 2017 ).

The original OWQI dropped off in 1983, due to excessive resources required for calculating and reporting results. However, improvement in software and computer hardware availability, in addition to the desire for an accessible water quality information, renewed interest in the index (Cude 2001 ).

Simplicity, availability of required quality parameters, and the determination of sub-indexes by curve or analytical relations are some advantages of this approach (Darvishi et al. 2016a ). The process combines eight variables including temperature, dissolved oxygen (percent saturation and concentration), biochemical oxygen demand (BOD), pH, total solids, ammonia and nitrate nitrogen, total phosphorous and bacteria (Brown 2019 ). Equal weight parameters were used for this index and has the same effect on the final factor (Darvishi et al. 2016a ; Sutadian et al. 2016 ).

The Oregon index is calculated by the following Eq.  9 (Darvishi et al. 2016a ):

where,n is the number of parameters (n = 8) SI i is the value of parameter i.

Furthermore, the OWQI scores range from 10 for the worse case to 100 as the ideal water quality illustrated in the following Table 4 (Brown 2019 ).

Kareem et al. ( 2021 ) using three water quality indices, attempted to analyze the Euphrates River (Iraq) water quality for irrigation purposes in three different stations: WAWQI, CCMEWQI AND OWQI.

For fifteen parameters, the annual average value was calculated, which included: pH, BOD, Turbidity, orthophosphate, Total Hardness, Sulphate, Nitrate, Alkalinity, Potassium Sodium, Magnesium, Chloride, DO, Calcium and TDS.

The OWQI showed that the river is “very poor”, and since the sub-index of the OWQI does not rely on standard-parameter compliance, there are no differences between the two inclusion and exclusion scenarios, which is not the case in both WAWQI and CCMEWQI (Kareem et al. 2021 ).

Similarly, the OWQI showed a very bad quality category, and it is unfit for human consumption, compared to the NSFWQI and Wilcox indices who both showed a better quality of water in Darvishi et al., study conducted on the Talar River (Iran) (Darvishi et al. 2016b ).

2.4.4 Weighted arithmetic water quality index (WAWQI)

The weighted arithmetic index is used to calculate the treated water quality index, in other terms, this method classifies the water quality according to the degree of purity by using the most commonly measured water quality variables (Kizar 2018 ; Paun et al. 2016 ).This procedure has been widely used by scientists (Singh et al. 2013 ).

Three steps are essential in order to calculate the WAWQI:

Further quality rating or sub-index was calculated using the following equation (Jena et al. 2013 ):

Qn is the quality rating for the nth water quality parameter.

Vn is the observed value of the nth parameter at a given sampling station.

Vo is the ideal value of the nth parameter in a pure water.

Sn is the standard permissible value of the nth parameter.

The quality rating or sub index corresponding to nth parameter is a number reflecting the relative value of this parameter in polluted water with respect to its permissible standard value (Yogendra & Puttaiah 2008 ).

The unit weight was calculated by a value inversely proportional to the recommended standard values (Sn) of the corresponding parameters (Jena et al. 2013 ):

Wn is the unit weight for the nth parameter.

K is the constant of proportionality.

Sn is the standard value of the nth parameter.

The overall WQI is the aggregation of the quality rating (Qn) and the unit weight (Wn) linearly (Jena et al. 2013 ):

After calculating the WQI, the measurement scale classifies the water quality from “unsuitable water” to “excellent water quality” as given in the following Table 5 .

Sarwar et al. ( 2020 ) carried out a study in Chaugachcha and Manirampur Upazila of Jashore District (Bangladesh). The goal of this study was to determine the quality of groundwater and its appropriateness for drinking, using the WAWQI including nine parameters: turbidity, EC, pH, TDS, nitrate, ammonium, sodium, potassium and iron. Many samplings point was taken from Chaugachcha and Manirampur, and WQI differences were indicated (ranging from very poor to excellent). These variations in WQI were very certainly attributable to variances in geographical location. Another possibility could be variations in the parent materials from which the soil was created, which should be confirmed using experimental data. It is worth mentioning that every selected parameter was taken into consideration during calculation. Similarly, the water quality differed in Manirampur due to the elements contained in the water samples that had a big impact on the water quality (Sarwar et al. 2020 ).

In 2021, García-Ávila et al. undertook a comparative study between the CCMEWQI and WAWQI for the purpose of determining the water quality in the city of Azogues (Ecuador). Twelve parameters were analyzed: pH, turbidity, color, total dissolved solids, electrical conductivity, total hardness, alkalinity, nitrates, phosphates, sulfates, chlorides and residual chlorine over 6 months. The average WAWQI value was calculated suggesting that 16.67% of the distribution system was of 'excellent' quality and 83.33% was of 'good' quality, while the CCMEWQI indicated that 100% of the system was of ‘excellent’ quality.

This difference designated that the parameters having a low maximum allowable concentration have an impact on WAWQI and that WAWQI is a valuable tool to determine the quality of drinking water and have a better understanding of it (García-Ávila et al. 2022a , b ).

2.4.5 Additional water quality indices

The earliest WQI was based on a mathematical function that sums up all sub-indices, as detailed in the 2.1. History of water quality concept section (Aljanabi et al. 2021 ). The Dinius index (1972), the OWQI (1980), and the West Java index (2017) were later modified from the Horton index, which served as a paradigm for later WQI development (Banda and Kumarasamy 2020 ).

Based on eleven physical, chemical, organic, and microbiological factors, the Scottish Research Development Department (SRDDWQI) created in 1976 was based on the NSFWQI and Delphi methods used in Iran, Romania, and Portugal. Modified into the Bascaron index (1979) in Spain, which was based on 26 parameters that were unevenly weighted with a subjective representation that allowed an overestimation of the contamination level. The House index (1989) in the UK valued the parameters directly as sub-indices. The altered version was adopted as Croatia's Dalmatian index in 1999.

The Ross WQI (1977) was created in the USA using only 4 parameters and did not develop into any further indices.

In 1982, the Dalmatian and House WQI were used to create the Environmental Quality Index, which is detailed in Sect.  2.1 . This index continues to be difficult to understand and less powerful than other indices (Lumb et al. 2011a ; Uddin et al. 2021 ).

The Smith index (1990), is based on 7 factors and the Delphi technique in New Zealand, attempts to eliminate eclipsing difficulties and does not apply any weighting, raising concerns about the index's accuracy (Aljanabi et al. 2021 ; Banda and Kumarasamy 2020 ; Uddin et al. 2021 ).

The Dojildo index (1994) was based on 26 flexible, unweighted parameters and does not represent the water's total quality.

With the absence of essential parameters, the eclipse problem is a type of fixed-parameter selection. The Liou index (2004) was established in Taiwan to evaluate the Keya River based on 6 water characteristics that were immediately used into sub-index values. Additionally, because of the aggregation function, uncertainty is unrelated to the lowest sub-index ranking (Banda and Kumarasamy 2020 ; Uddin et al. 2021 ).

Said index (2004) assessed water quality using only 4 parameters, which is thought to be a deficient number for accuracy and a comprehensive picture of the water quality. Furthermore, a fixed parameter system prevents the addition of any new parameters.

Later, the Hanh index (2010), which used hybrid aggregation methods and gave an ambiguous final result, was developed from the Said index.

In addition to eliminating hazardous and biological indicators, the Malaysia River WQI (MRWQI developed in the 2.1 section) (2007) was an unfair and closed system that was relied on an expert's judgment, which is seen as being subjective and may produce ambiguous findings (Banda and Kumarasamy 2020 ; Uddin et al. 2021 ).

Table illustrated the main data of the studies published during 2020–2022 on water quality assessments and their major findings:

2.5 Advantages and disadvantages of the selected water quality indices

A comparison of the selected indices is done by listing the advantages and disadvantages of every index listed in the Table 7 below.

2.6 New attempts of WQI studies

Many studies were conducted to test the water quality of rivers, dams, groundwater, etc. using multiple water quality indices throughout the years. Various studies have been portrayed here in.

Massoud ( 2012 ) observed during a 5-year monitoring period, in order to classify the spatial and temporal variability and classify the water quality along a recreational section of the Damour river using a weighted WQI from nine physicochemical parameters measured during dry season. The WWQI scale ranged between “very bad” if the WQI falls in the range 0–25, to “excellent” if it falls in the range 91–100. The results revealed that the water quality of the Damour river if generally affected by the activities taking place along the watershed. The best quality was found in the upper sites and the worst at the estuary, due to recreational activities. If the Damour river is to be utilized it will require treatment prior any utilization (Massoud 2012 ).

Rubio-Arias et al. ( 2012 ) conducted a study in the Luis L. Leon dam located in Mexico. Monthly samples were collected at 10 random points of the dam at different depths, a total of 220 samples were collected and analyzed. Eleven parameters were considered for the WQI calculation, and WQI was calculated using the Weighted WQI equation and could be classified according to the following ranges: < 2.3 poor; from 2.3 to 2.8 good; and > 2.8 excellent. Rubio-Arias et al., remarked that the water could be categorized as good during the entire year. Nonetheless, some water points could be classified as poor due to some anthropogenic activities such as intensive farming, agricultural practices, dynamic urban growth, etc. This study confirms that water quality declined after the rainy season (Rubio-Arias et al. 2012 ).

In the same way, Haydar et al. ( 2014 ) evaluated the physical, chemical and microbiological characteristics of water in the upper and lower Litani basin, as well as in the lake of Qaraaoun. The samples were collected during the seasons of 2011–2012 from the determined sites and analyzed by PCA and the statistical computations of the physico-chemical parameters to extract correlation between variables. Thus, the statistical computations of the physico-chemical parameters showed a correlation between some parameters such as TDS, EC, Ammonium, Nitrate, Potassium and Phosphate. Different seasons revealed the presence of either mineral or anthropogenic or both sources of pollution caused by human interference from municipal wastewater and agricultural purposes discharged into the river. In addition, temporal effects were associated with seasonal variations of river flow, which caused the dilution if pollutants and, hence, variations in water quality (Haydar et al. 2014 ).

Another study conducted by Chaurasia et al., ( 2018 ), proposed a groundwater quality assessment in India using the WAWQI. Twenty-two parameters were taken into consideration for this assessment, however, only eight important parameters were chosen to calculate the WQI. The rating of water quality shows that the ground water in 20% of the study area is not suitable for drinking purpose and pollution load is comparatively high during rainy and summer seasons. Additionally, the study suggests that priority should be given to water quality monitoring and its management to protect the groundwater resource from contamination as well as provide technology to make the groundwater fit for domestic and drinking (Chaurasia et al. 2018 ).

Daou et al. ( 2018 ) evaluated the water quality of four major Lebanese rivers located in the four corners of Lebanon: Damour, Ibrahim, Kadisha and Orontes during the four seasons of the year 2010–2011. The assessment was done through the monitoring of a wide range of physical, chemical and microbiological parameters, these parameters were screened using PCA. PCA was able to discriminate each of the four rivers according to a different trophic state. The Ibrahim River polluted by mineral discharge from marble industries in its surroundings, as well as anthropogenic pollutants, and the Kadisha river polluted by anthropogenic wastes seemed to have the worst water quality. This large-scale evaluation of these four Lebanese rivers can serve as a water mass reference model (Daou et al. 2018 ).

Moreover, some studies compared many WQI methods. Kizar ( 2018 ), carried out a study on Shatt Al-Kufa in Iraq, nine locations and twelve parameters were selected. The water quality was calculated using two methods, the WAWQI and CWQI. The results revealed the same ranking of the river for both methods, in both methods the index decreased in winter and improved in other seasons (Kizar 2018 ).

On the other hand, Zotou et al. ( 2018 ), undertook a research on the Polyphytos Reservoir in Greece, taking into consideration thirteen water parameters and applying 5 WQIs: Prati’s Index of Pollution (developed in 1971, based on thirteen parameter and mathematical functions to convert the pollution concentration into new units. The results of PI classified water quality into medium classes (Gupta and Gupta 2021 ). Bhargava’s WQI (established in 1983, the BWQI categorize the parameters according to their type: bacterial indicators, heavy metals and toxins, physical parameters and organic and inorganic substances. The BWQI tends to classify the water quality into higher quality classes, which is the case in the mentioned study (Gupta and Gupta 2021 ). Oregon WQI, Dinius second index, Weighted Arithmetic WQI, in addition to the NSF and CCMEWQI. The results showed that Bhargava and NSF indices tend to classify the reservoir into superior quality classes, Prati’s and Dinius indices fall mainly into the middle classes of the quality ranking, while CCME and Oregon could be considered as “stricter” since they give results which range steadily between the lower quality classes (Zotou et al. 2018 ).

In their study, Ugochukwu et al. ( 2019 ) investigated the effects of acid mine drainage, waste discharge into the Ekulu River in Nigeria and other anthropogenic activities on the water quality of the river. The study was performed between two seasons, the rainy and dry season. Samples were collected in both seasons, furthermore, the physic-chemistry parameters and the heavy metals were analyzed. WQI procedure was estimated by assigning weights and relative weights to the parameters, ranking from “excellent water” (< 50) to “unsuitable for drinking” (> 300). The results showed the presence of heavy metals such as lead and cadmium deriving from acid mine drainage. In addition, the water quality index for all the locations in both seasons showed that the water ranked from “very poor” to “unsuitable for drinking”, therefore the water should be treated before any consumption, and that enough information to guide new implementations for river protection and public health was provided (Ugochukwu et al. 2019 ).

The latest study in Lebanon related to WQI was carried out by El Najjar et al. ( 2019 ), the purpose of the study was to evaluate the water quality of the Ibrahim River, one of the main Lebanese rivers. The samples were collected during fifteen months, and a total of twenty-eight physico-chemical and microbiological parameters were tested. The parameters were reduced to nine using the Principal Component Analysis (PCA) and Pearson Correlation. The Ibrahim WQI (IWQI) was finally calculated using these nine parameters and ranged between 0 and 25 referring to a “very bad” water quality, and between 91 and 100 referring to an “excellent” water quality. The IWQI showed a seasonal variation, with a medium quality during low -water periods and a good one during high-water periods (El Najjar et al. 2019 ).

3 Conclusion

WQI is a simple tool that gives a single value to water quality taking into consideration a specific number of physical, chemical, and biological parameters also called variables in order to represent water quality in an easy and understandable way. Water quality indices are used to assess water quality of different water bodies, and different sources. Each index is used according to the purpose of the assessment. The study reviewed the most important indices used in water quality, their mathematical forms and composition along with their advantages and disadvantages. These indices utilize parameters and are carried out by experts and government agencies globally. Nevertheless, there is no index so far that can be universally applied by water agencies, users and administrators from different countries, despite the efforts of researchers around the world (Paun et al. 2016 ). The study also reviewed some attempts on different water bodies utilizing different water quality indices, and the main studies performed in Lebanon on Lebanese rivers in order to determine the quality of the rivers (Table 6 ).

As mentioned in the article (Table 7 ); WQIs may undergo some limitations. Some indices could be biased, others are not specific, and they may not get affected by the value of an important parameter. Therefore, there is no interaction between the parameters.

Moreover, many studies exhibited a combination between WQIs and statistical techniques and analysis (such as the PCA, Pearson’s correlation etc.). with a view to obtain the relation between the parameters and which parameter might affect the water quality.

In other research, authors compared many WQIs to check the difference of water quality according to each index. Each index can provide different values depending on the sensitivity of the parameter. For that reason, WQIs should be connected to scientific advancements to develop and elaborate the index in many ways (example: ecologically). Therefore, an advanced WQI should be developed including first statistical techniques, such as Pearson correlation and multivariate statistical approach mainly Principal Component Analysis (PCA) and Cluster Analysis (CA), in order to determine secondly the interactions and correlations between the parameters such as TDS and EC, TDS and total alkalinity, total alkalinity and chloride, temperature and bacteriological parameters, consequently, a single parameter could be selected as representative of others. Finally, scientific and technological advancement for future studies such as GIS techniques, fuzzy logic technology to assess and enhance the water quality indices and cellphone-based sensors for water quality monitoring should be used.

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Chidiac, S., El Najjar, P., Ouaini, N. et al. A comprehensive review of water quality indices (WQIs): history, models, attempts and perspectives. Rev Environ Sci Biotechnol 22 , 349–395 (2023). https://doi.org/10.1007/s11157-023-09650-7

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In your essay about water, you might want to focus on water as one of the most valuable natural resources. Consider exploring the issues of water pollution, purification, conservation, or management. Whether you need to prepare an essay, a research paper, or a presentation, our article will be helpful. Here we’ve collected water essay topics and titles. Water essay examples are added to inspire you even more!

• Air and Water Pollution in the Modern World The high number of vehicles in the city has greatly promoted air pollution in the area. Poor sewerage system, high pollution from industries and automobiles are among the major causes of air and water pollutions […]
• Should Bottled Water Be Banned? Plastics is one of the products that are leading in polluting the environment. Plastics are detrimental to the environment; they affect the soil, water, air and eventually lead to climate change and global warming.
• Water Pollution: Causes, Effects and Possible Solutions This is why clean water is required in all the places to make sure the people and all the living creatures in the planet live a good and healthy life.
• Water Recycling Recycled water is obtained from waste water and contaminated water that has been subjected to thorough treatment to ensure that it is proper for use for different purposes.
• Water Purification Process Since the process is aimed at eliminating all the impurities present in the water, it is necessary to apply chemical and physical methods of separation in an orderly manner.
• Water Scarcity as a Global Issue: Causes and Solutions Common causes of water scarcity include overpopulation e in regions that have limited water resources, global warming, destruction of water catchment areas by human activities, and pollution of water sources.
• Masafi Water Company and Al Ain Water Company Manufacturing of Masafi and Al Ain Water: The resource of Masafi water is the mountain and this is why the water is rich in minerals.
• Water Transport Systems in the World The development of the three and four Masted ships in the 16th century was a major event in the history of the water transportation system.
• The Process of the Water Cycle It is the primary process that drives the movement of water from water bodies into the atmosphere in form of water vapor.
• Evian Water Company’s Analysis Due to the popularity of its water, the company managed to expand, and in 1978, it made its way to the market of the United States of America.
• Water Advertisement The waterfall in the background reinforces the psychological need for water and adds to the freshness of the advertisement and water itself.
• The Thematic Concept in Water Names Like the narrator, a reader may think that the story presents a happy ending, as the young woman “went to join the kingdom of her beloved”. The woman wants the girls to find the answer […]
• The Effect of Plastic Water Bottles on the Environment In addition, the proponents of plastic use have argued that recycling is an effective method of mitigating the effects of plastic to the environment.
• Water Pollution: Causes, Effects, and Prevention Farmers should be encouraged to embrace this kind of farming which ensures that the manure used is biodegradable and do not end up accumulating in the water bodies once they are washed off by floods.
• Water Cycle: Lesson Plan for 5th Graders The purpose of the program is to introduce students to the water cycle systems, stages, and importance. The student should be able to define and explain the water cycle stages.
• How Does Water Hyacinth Harm the Local Ecosystem? Water hyacinth Flowers Water hyacinth has great harm on the local ecosystem and affects aquatic life and water quality. The life of other plants and animals is jeopardized by the rapid growth of water hyacinth.
• Accessibility to Safe Drinking Water The first is to dig wells in the rural and arid areas to aid the people to have access to water. The other alternative is to treat water and use it in the home.
• Water Pollution in the Philippines: Metropolitan Manila Area In this brief economic analysis of water pollution in Metro Manila, it is proposed to look at the industrial use of waters and the household use to understand the impact that the population growth and […]
• Fiji Water Strategic Analysis The second alternative could involve the idea of putting underground and sea bed pipes to facilitate the transportation of the water commodity from Fiji to the lucrative international markets, such as the US.
• Water Conservation and Drought Issues in Resorts The idea of the conservation of natural resources and water, in particular, became popular in the previous century. The understanding of the need for nature protection commenced in the 1960s.
• Analysis of Lab: Heat of Fusion of Water In this experiment, information was collected regarding the mass of the calorimeter and bowl, the mass of the empty calorimeter, the water, and the contents: all raw data are shown in Table 1.
• Bottled Water Industry and Aquafina Another reason of the boom in the consumption of bottled water is its taste because a large number of people prefer its taste to that of tap water.
• Saving Water and Methods of Its Protection That is, the plan will effectively manage the water usage at the current state of the company as well as in the future. If protection and conservation of water is not done, there will be […]
• Determination of Quinine in Tonic Water with Fluorescence Spectroscopy In general, luminescence is understood as the glow of substances not accompanied by heat production but initiated by the absorption of photons.
• Thames Water Company’s Pollution Issue and Ecocentrism Fines can be treated as a strong solution to this issue even though it is not presupposed by the ethical theory discussed, as they ensure that some funds can be spent on protecting the environment.
• Sustainability: Domestic Water Usage Much of the hot water is used when cleaning and washing, with the shower making up to 43% of the 41 gallons and washing clothes making up to 29%.
• Water Cycle Process On the reaching the atmosphere water molecules bond together again and come back to the earth surface through the process of precipitation.
• Modern Water Purification Methods for the Middle East In this study, we will learn about the methods of water purification and the need to purify water. The specific purpose of the study is to describe and explain the methods of water purification in […]
• Water Resource Management: How to Save Water Resources We need to address the difficult problems of evaluating and protecting the global commons, which are complicated and interrelated while maintaining the free trade systems of the world.
• Third World War Will Be Over Water The severity of the case of water scarcity can be best explained by the inclusion of the problem of water as one of the main goals of one of the greatest development frameworks in the […]
• Diet and Water as an Overlooked Essential Nutrient Water is a very important nutrient in the body because it maintains homeostasis, and enhances the transport of other nutrients and minerals from their point of absorption to other parts of the body.
• Water: Nature’s Gift to Humanity However, the role of this element is not only in the formation of life but also its maintenance since this seemingly ordinary liquid plays an enormously essential role in the existence of the human and […]
• Water Shortage’ Major Causes and Implication Summary of the article This article is a discussion regarding one major problem that is an issue of concern in the 21st century which according to the author, the world is currently facing a major […]
• People Affected by Fires and Natural Disasters Need Help With Food, Water, Shelter Today, I would like to talk to you about natural disasters and how to minimize their impacts by contributing to charity funds, and how your contribution can make a difference.
• Water & Air Pollution and Health Issues in Brazil The main environmental effects of pollution include the destruction of marine habitats, water scarcity, and anoxia. The conclusion is informative because the writer includes strategies to alleviate the problem of air and water pollution in […]
• Water’s Role in Society and Its Applications The water table is forced higher by a dam to intensify the force of the water’s descent. In the future, water should be modified to act as a source of fuel for different machinery to […]
• Dehydration and Importance of Water There are plenty of fluids in the body that mainly consist of water; one of these is saliva. Water also transports oxygen from the lungs to other parts of the body that are in need […]
• Integrated Sustainable Water Management in the UAE The UAE Water Security Strategy 2036 was unveiled by the Ministry of Energy in 2017 to ensure that access to water during an emergency and normal conditions are sustainable within the internal standards, local regulations, […]
• Coca-Cola India and Water Pollution Issues The first difficulty that the representatives of the Coca-Cola Company happened to face due to their campaign in the territory of India was caused by the concerns of the local government.
• Water Scarcity and Its Effects on the Environment The core objective of this research paper is to examine water scarcity and its effects to the environment. This is because sufficiency of water supply depends on water conservation methods, distribution channels available in the […]
• Environmental Impact of Bottled Water The process of manufacturing the water bottles, such as the dependence on fossil fuels, is causing a lot of direct as well indirect destructing to the environment.
• Tipperary Mineral Water Company In addition, consumers’ desire to lead a healthy lifestyle has greatly increased the market growth and demand for mineral water by a rate of 8. The main consumers of mineral water in this market are […]
• India’s Water Supply Improvement Plan In India, the concept of a “water crisis” is firmly established, and the future of the country largely depends on how it will be possible to dispose of the available sources of fresh water.
• Synopsis of “Water” Short Story by Lee Hoffman From the story it is clearly indicated that, Evan was very disappointed with what Redmor treated the people of this area; and decided to take a ravage especially because his friend Hank was shot.
• Water Quality Importance In a lot of areas, the water available to the public is contaminated; that is it has substances that can be of great harm to public health.
• Anomalous Expansion of Water: A Home Experiment This investigation proves the hypothesis that water expands anomalously when cooled and increases in volume as it nears its freezing point of zero degree Celsius.
• Water Purification in Saudi Arabia The scope of this report is to bring out all sorts of features used for water purification in Saudi Arabia and their effectiveness in providing pure water in all regions of Saudi Arabia. Desalination is […]
• The Documentary Film “Flow: For Love of Water” First, the issue in question is in direct relation to the welfare of the entire planet’s population, and the film makes a convincing case that there are reasons to worry. In the end, I believe […]
• Muslim Civilisation: The Mechanical Water Clock of Ibn Al-Haytham This forth stage is the one that determines the survival of the state, as the society is already discontented with the rule, hence disintegration of the state.
• Water Consumption on the Household Level The specified phenomenon can be explained by the fact that controlling the use of water in the course of taking a shower is quite complicated for most people.
• Marketing Plan for Water Sensitive Nail Polish This part presents the information collected in 2014 as the company focuses on the demand behavior of the new nail polish.
• Fiji Water Report The aim of this report is to analyze the future options of Fiji waters company growing up as a company that will be conscious to the environment and ensure its’ sustainability.
• Water Quality and Treatment The main objective of this paper is to identify the main impurities in water that pose threats to the health of households.
• The Effect of pH on Water Holding Capacity of Chicken In the present laboratory work, the main issue is to investigate the potential relationship between WHC as a measure of moisture content and chicken pH; specifically, the question is to identify the effect of meat […]
• Water-Saving Technologies in the Middle East Our planet is made of 70% water and yet most areas of the world are without water. However, to conserve the cost of this important resource, certain steps are being taken by the respective governments […]
• Fire and Water Symbols in “Sula” by Toni Morrison Water and fire are used by the author as symbols of destruction and purification respectively, which allows the readers to better understand the main characters in the context of the communist oppression.
• Water Quality Report: Overview Water quality reports provide information in regards to the quality of the drinking water, possible contaminants, and ways to reduce risks.
• The Flint Water Crisis From Marxist Perspective To understand the causes of the crisis and ways to prevent such problems in the future, it is possible to employ the Marxist approach.
• Flow: For Love of Water Regardless of the level of awareness and the intentions to study the world around, not many people comprehend how dangerous and life-threatening the lack of water can be.
• Turbidity and Total Suspended Solids of Water: Lentic and Lotic Sites In answering the research question, the objective of the study is to compare the quality of water in the lentic system and the lotic system.
• Pure Home Water Company: Business Model The implementation of the business model will make a significant impact on a serious problem of the modern world. The business model is motivated by a very strong social aim, and it should make various […]
• Dialysis Water Treatment System Heat exchanger: the evaporated water from the boiler is passed through the heat exchanger where it loses heat to the working fluid/feed water in the heat exchanger.
• Biblical Living Water Explained The woman out of the curiosity asks Jesus where He is to get water from where Jesus informs her that He has the living water.
• Providing Access to Clean Water This is why this option should be overlooked by coastal communities that can significantly increase the amount of clean water which is available to them.
• Water Properties as a Solvent: An Experiment Lab In the second part of the work, a mixture of 10 g of solid calcium hydroxide and 50 mL of drinking water in a beaker was initially created.
• Efficient Solar Refrigeration: A Technology Platform for Clean Energy and Water Refrigeration cycle capable to be driven by low grade energy, substituting gas-phase ejector used in conventional mechanical compressor.
• Seawater vs. Brackish Water Reverse Osmosis The concentrations of seawater and brackish water differ considerably; hence, there is a distinction involving the concentrate acquired from seawater desalination plants and brackish water desalination plants.
• Water Pollution in a Community: Mitigation Plan Though for the fact that planet earth is abundant with water and almost two-thirds of the planet is made up of water still it is viewed that in future years, a shortage of water may […]
• Water Resources: History and Potential Impacts The quality of our water resources depends on many factors that include but not limited to; flows, the rate and the timing of run offs, and the ability of water sheds to assimilate wastes and […]
• Water Symbolism in Christianity and Islam Water symbolism in religion is the practice of associating water to particular beliefs that govern the religion’s rules. The raising water continuously lifted the ark preventing the Noah family and other animals from drowning Muslims […]
• Irrigation and Sustainable Water Use for Improved Crop Yield Irrigation refers to the artificial use of water to assist in agriculture and is important in the suppression of weeds especially in grain fields and in the deterrence of soil hardening.
• Water Shortages in the World Management of water supply in developing countries is poor as compared to that of developed world. In addition, pollution of water in developing countries is quite prevalent as compared to that of developed world.
• The Issue of Bottled Water Consumption The steady rise in the demand for bottled water is causing hips of unnecessary garbage and resulting in the consumption of vast quantities of energy according to the report by Earth Policy Institute.
• Increasing Global Access to Clean Water and Sanitation As noticed by researchers, innovative solutions to achieve global clean water and sanitation are needed, and the positive partnership of various organizations and groups from different spheres and levels may help with this task.
• Rainwater Harvesting to Replenish Underground Water in India Due to the increased rates of deforestation in Rajasthan monsoon, rains started to wash down the surface levels of the soil, making the ground less fertile and eroded.
• Effect of Sea Water and Corrosion on Concrete On the other hand, substantial tautness, for instance due to meandering will shatter the tiny firm pattern, ending up in fracturing and disjointing of the concrete.
• Annotated Bibliography on Water Management The importance of water management and its application in the oil industry is the primary focus of Adham et al.in this article.
• Recycled Water – Is It Safe for Drinking? There are a number of barriers that always work against the desire to obtain safe drinking water from recycling plants.
• Solar-Powered Water Cooler System The design of a solar-powered water cooler is based on the normal components and operations of cooling systems. The design of a solar-powered water cooler will help in providing water-cooling services to the people in […]
• Dubai Electricity and Water Authority’s Employees The paper will seek to determine the primary reason for the symptoms indicated by DEWA’s HR staff and to provide recommendations for action to improve the current situation.
• Water Resources’ Quality in the Southwestern United States To understand the importance of the issues of drinking water quality and availability in the Southwestern United States, factors such as local climate, population changes, consumption of local and imported water, wastewater treatment, and recycling […]
• Demo Park Water Administration Project Management In this assignment, the main areas for group work were the creation of a project plan and the identification, as well as the demonstration of its importance.
• Availability of Water Resources in United Arab Emirates This has led to the reduction in the ground water levels and the quality of water. Rainfall is the main source of water in the United Arab Emirates.
• The Hydrologic Cycle and Water on Earth The amount of water molecules in the earth is constant although the motion of water is continuous. It flows along the eastern of the Japanese coast, bends towards the east, and completes the loop as […]
• Drinking Water and Culture in the Valley of Mexico The book A Precious Liquid: Drinking Water and Culture in the Valley of Mexico written by Ennis-Mcmillan reveals a story about the way residents of a small Mexican village manage the water deficiency, but in […]
• Australian, Perth Water Supply Crisis The article Australia’s Water Crisis brings to light the grim effects of the dwindling water resources within the city of Sydney.
• Water Resources in Economic Proposals on the economics’ of water resources FAO states, the escalating responsiveness that water shortage has brought forth the acceptance of the opinion that “water is an economic good” as one of the four Dublin […]
• Mineral and Water Function According to Grosvenor and Smolin, one of the main functions of water is to regulate the body temperatures. Therefore, water is crucial in the whole process of food digestion and transportation of food nutrients and […]
• Water Distribution System in Spain The first river basin agencies were created in the Ebro basin and in the Segura basin in 1926, followed by the Guadalquivir in 1927 and the Eastern Pyrenees in 1929″.
• Visiting Black Rock Water Reclamation Plan Generally, it appears that the Black Rock Water Reclamation Plant seems to be one of the most interesting productions of its kind on the reason of implementation of a row of environment protecting technologies and […]
• Domestication of Water: History of Swimming Pools One of these techniques was the creation of swimming pools, special structures that hold the water and can be used for swimming and leisurely activities.
• Irrigation Water Reduction Using Water-Absorbing Polymers Moreover, Abu Dhabi city acts as both the capital of the country and that of the emirate. This encouraged more people to take on agricultural activities to help boost food and animal production in a […]
• Water Pollution and Management in the UAE The groundwater in UAE meets the needs of 51% of users in terms of quantity mainly for irrigation. Surface water is the source of groundwater and plays a major role in groundwater renewal.
• Fiji Water: A Comprehensive Analysis The paper is analytical in nature and it displays some of the aspects that make the product unique and relevant in the market, some of the challenges that the product’s company encounters, how the company […]
• The Water System: Rivers, Streams and Lakes The techniques used to compare rivers in the world involve an analysis of the size of the drainage area, the length of the main stem and the mean discharge.
• Roman Aqueducts “The Relevance of Water to the Social Political Climate of the Roman” The main question in this paper is: what were the names and functions of the aqueducts in ancient Rome? The need to build aqueducts in Rome was prompted by the need for mass supply of […]
• Water Resources and Usage The stressors that threaten human water security An analysis of the worldwide status of water as a human resource has been limited to the fragments of regional and state based assessments that show varying indicators […]
• Mud Lick Creek Project – Fresh Water Pollution This potential source of pollutants poses significant risks to the quality of water at the creek in terms altering the temperature, pH, dissolved oxygen, and the turbidity of the water.
• Water Quality Issues in Developing Countries According to WHO, the quality of drinking water is a foundation for the prevention and control of waterborne ailments, thus water quality is a critical environmental determinant of health for populations using the water.
• Environmental Science: Smart Water Management Among the essential elements in human life is water, which is required for maintaining the water balance in the body and for cleanliness, as well as for many economic sectors, from agriculture to metallurgy.
• Systemic Effects (Risks) of Water Fluoridation: Fluoridation Assignment Fluoride contributes to teeth development depending on the site where it is applied and the mode of entry into the system. Thus, proponents argue it is one of the safest and most effective solutions to […]
• Ineffective Water Resource Management in the Hotel Industry In the context of the problem of water overuse for service production and revenue generation, the most appropriate type of assessment is a water audit.
• Innovations on Energy and Water Co-Benefits In addition, the number of harmful emissions that are harmful to both people and the planet will be significantly reduced. The introduction of social innovations is to develop strategies that will solve social problems.
• The Himalayan Melting Glacier Contribution to Water Scarcity in Mount Everest Planetary phenomena such as the tilt of the Earth, its distance from the Sun, temperature, and atmospheric cycles belong to the first category.
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• The Article “Where the Water Goes” by David Owen This paper highlights misconceptions about the drying of lake Mead, the importance of the Colorado River, and the causes of its scarcity in Las Vegas.
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• Clouds: The Water Cycle and Social Sciences As a result, when the weight increases and the droplets grow, they are released in the form of precipitations. Moreover, the movement of the water can be applied to a sociological element.
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• Water Consumption and Sleep Hygiene Practices First, I will discuss that safe and sufficient water facilitates the practice of hygiene and well-being and is a critical determining factor for health.
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• Sustainable Development and Water-Food-Energy Nexus in Sweden The Food and Agriculture Organization of the United Nations states that the securities of food, energy, and water are interconnected and depend on each other.
• Water Quality Issues: Case Study Analysis The quality of water is an essential part of the infrastructure of a city or state, which affects the health of the population and the level of well-being.
• America’s Growing Clean Water Crisis and the Resulting Diseases The current water crisis in Flint, Michigan, has focused a lot of attention on the state of water infrastructure. Lastly, there will be a not adequate amount of water to help in dissolving the nutrients […]
• The Sea Water Impact on the Human Cell Hence, consuming it causes a high amount of salt without the human cell, which leads to a steep concentration gradient within the cell, thereby causing water to be drawn out, which is detrimental to the […]
• Factors of the Water Crisis in Flint, Michigan The factors that caused the water crisis in this city can be considered negligence of the authorities, ambiguous and contradictory instructions of environmental protection agencies, and corruption.
• Environmental Racism: The Water Crisis in Flint, Michigan The situation is a manifestation of environmental racism and classism since most of the city’s population is people of color and poor. Thus, the water crisis in Flint, Michigan, is a manifestation of environmental racism […]
• Flint Water Crisis: Municipal Water Supply System The city of Flint was a thriving industrial center in the third quarter of the last century; however, it had economic difficulties due to the closure of several General Motors factories in the 1980s and […]
• The Flint Water Crisis and Its Impact The contaminated water has lead to a number of diseases and disabilities, which, in turn, has left the city’s population with a large number of healthcare bills. In conclusion, the Flint Water Crisis is an […]
• Overcoming Shortage of Drinking Water It is also possible to process saltwater into freshwater, which is the most promising way to solve the problem of water scarcity.
• Financial Attractiveness of Domestic Solar Hot Water Systems: Article Review The peculiarity of the article is that the study of the authors aims to resolve urgent needs by increasing the demand for goods.
• Singapore International Water Week A good example of these conferences is the Singapore International Water Week and it forms the basis for this detailed report The SIWW 2022 brings together professionals, technocrats, and government leaders to share their experiences […]
• The Safe Drinking Water Act 1974: The Main Concept The act also directs EPA to report on the eminence of drinking water in the U. The SDWA calls for the EPA to publish an annual report on the drinking water in the US.
• The Safe Drinking Water Act 1974: Overview The main provisions in this law were to ensure that water supplied from the source to the faucets was free from natural and artificial contaminants through water treatment and consistent supply to the public.
• Is Tap Water Better and Safer for People and the Environment Than Bottled Water? In this study, I have decided to explore if tap water is better and safer for people and the environment than bottled one. Further, I will look at the impact of bottled water on people […]
• Importance of Mercury Water Pollution Problem Solutions The severity of the mercury contamination consequences depends on the age of the person exposed to the contamination, the way of contamination, the health condition, and many other factors.
• The Influence of Water Quality on the Population of Salmonid Fish It is expected that populations of wild salmonid fish may decline rapidly due to water pollution instead of farmed species because the effects of water pollution are deleterious.
• Case Study: Human Body Water Balance Sodium is reabsorbed in the thick climbing appendage of the loop of Henle. The rest of the Na+ retention happens in the distal nephron.
• Typical Reasonably Homogeneous Equilibrium in Water It is important that the diffusion coefficient used to link the iodine concentrations in one phase to that in another account for the existence of iodide and polyiodide salts.
• Creative and Critical Thinking in Case of Lack of Water In order to identify the significance of creative and critical thinking in the situation presented, it is necessary to dwell on the definition of the process of creative thinking.
• Water Scarcity in Africa and Mental Disorders Partially, the reason for the lack of meaningful changes in the policies preventing the causes lies in the social stigma towards patients with mental problems.
• Concept of Water Companies Furthermore, in this market formation, it is assumed that the prices do not control the market, which is contrary to the search for a life partner.
• The Safe Drinking Water Act: The Discussion Post The discussion post acknowledges that the Safe Drinking Water Act has remained a powerful guideline that must be followed by different stakeholders to ensure quality and clean drinking water is available to the greatest number […]
• Dehydration and Water in People’s Life It is of utmost importance since it cannot be stored in the body and replenishing of the water must occur constantly.
• Energy and Air Emission Effects of Water Supply Contemporary systems meant to heat water/air explore both the heat pumps and the solar plates that are combined to form a unit with the aim of optimizing on the energy efficiency as well as solar […]
• Adjustable Speed Drives Improving Circulating Water System This was concluded to be because of the many vortices that were generated as a result of the hindrance in the flow of water due to the shape defect.
• Oil and Water Flow in a Petroleum Reservoir While the physical model is to the scale of the original reservoir’s dimensions, a mathematical model is different. The mathematical model allows one to learn the fluid flow equation without having to develop a laboratory […]
• Behavior Change: More Water, No Coffee By the way, this was the first day when I did not feel any lack of energy due to the lack of coffee.
• Salt and Drinking Water Shortage Therefore, humanity could reveal that given that the salt would not be willing to negotiate, it is possible to extort the water from the Martians as the resources of Earth are not as essential.
• Flint Water Crisis: Environmental Racism and Racial Capitalism The Flint crisis is a result of the neoliberal approach of the local state as opposed to the typical factors of environmental injustice; a polluter or a reckless emitter cutting costs. The two main factors […]
• Oil-Water Separation Techniques in Qatar’s Desalination Plants In many areas of the Middle East, the proper functioning of the vital social mechanism depends on the stable supply of fresh water.
• Remote Sensing Monitoring the Ground Water Quality The overall view of the water quality index of the present study area revealed that most of the study area with > 50 standard rating of water quality index exhibited poor, very poor and unfit […]
• The Consequences of Using Tap and Bottled Water Using the word ‘walking’, the professor means searching for the required information, while ‘talking’ is a dialogue with the authors of the sources.’Cooking’ is implementing the information in the paper to achieve new conclusions, and […]
• Thirstier Mineral Water: Australian Market Analysis Due to the demand of the pure water, a group of students carried out research to come up with a natural drinking mineral water to meet Australian population demands.
• The Health Condition of Water Filtration for the Prevention of Gastroenteritis The medical care authorities prescribe that to lessen the danger of burning-through dirtied or defiled water is satisfactorily sifting water prior to drinking. The properties of the water channel should be checked to ensure that […]
• Marketing of the Bottled Water Industry in the US The growth of the industry can then be attributed to the level of comfort that people have become accustomed to. The bottled water industry is a feasible option for investors who would like to concentrate […]
• Abu Dhabi Water and Electricity Authority The subject of the contract is the performance of construction works by Contractor for ADWEA. The term of the contract includes the time needed to execute and complete all works.
• Proper Water Flow Requirements In order to ascertain the proper flow of water, standard typical sprinkler testing should be carried out on all the established water systems.
• Water Scarcity Problem in Sub-Saharan Africa Since the world has water in abundance, it is necessary that more be done to address the shortage of clean water.
• Anglo American PLC: Water Usage Sustainability Anglo American PLC, which is a well-known mining company operating as the second-largest mining company in the industry, intends to embellish the rate of sustainability to retain its global position in the critical competitive mining […]
• Newark Water Crisis: Water Pollution Problem The main problem was rooted in the fact that lead levels in the drinking water were highly elevated, which is dangerous and detrimental to the population’s health.
• Water Quality and the Water Board Scenario As a member of this water board one first needs to find out the level of quality of water and its source before the eruption of the drought, the clear cause of water shortage, impacts […]
• Water Fluoridation Plant Analysis On the other hand, the flow meter provides the rates of water flow to the dosing facility, which interprets the amount of fluoride needed in the water.
• Determination of M2+ Ions in Mineral Water Titrometry is one of the techniques that chemical analysts use to determine the concentration of metal ions in mineral water. A buffer is necessary to provide suitable pH for the complexing of EDTA with metal.
• House Energy Audit: Water and Energy Consumption Review for the House 265 kWh/kL water supply The actual daily consumption in a period of 8 days of the above-mentioned utilities are calculated and recorded in the following table 2.
• Pre-Construction Design Specifications: Water Piping Sub-System
• Woburn’s Municipal Water Supply System
• Toxicology: Is Water a Toxic Substance?
• The Effects of a High Consumption of Water
• FIJI Water: The Leading Producer of Bottled Water
• The Physical and Chemical Properties of Water
• Biorefinery Processes and Products (Microalgae and Water Hyacinth)
• Water-Absorbing Polymers: Review
• How a Desalination Plant Removes Salts, Minerals From Water
• Water for Environmental Health and Promotion
• Conventional Water Treatment
• Water Supply and Sanitation Systems Devikilum Village
• Reduced Flow of Stream Water
• “Nutrient Water” Type Drinks and Whole Milk: Evidence-Based Claims
• Women Groups in Ikombe County: Water Tanks Delivery Funding
• Parent Purchase Bottled Water
• Designing a Controlled Water Cooling System
• Warm Water and the Characteristics of Plaster
• Aquadaf Technology – High Rate Water Clarification
• Fluoride in Drinking Water, Its Costs and Benefits to Oral Health
• Water Desalination in Saudi Arabia
• Irrigation Water and Carbon Footprint
• Domestic Water Usage Monitoring System
• Nutrition: The Importance of Water for Daily Life
• Water Policy Design in Toronto
• Landscaping Membranes for Oil-Water Separation
• Water Treatment System for Saline Bores in Cape York
• Testing the Safety of Water in Canada
• The Mega Corporation: Clean Water
• Clean Water Change the Lives of People in Developing Countries
• Privatization of Water in St. Louis
• Finance for Drinking Water Infrastructure
• BP: Water Use in Oil and Gas Industry
• Water Scarcity: Industrial Projects of Countries That Affect the External Environment
• Mapping Environmental Justice: Water and Waste Management
• Virtual Water and Water-Energy-Food Nexus
• California and Water Shortage
• Water Policy: The Impacts of Water Trading
• Water Consumption by Individuals and Households
• Water Services and Fire Fighting in Maryland
• Water Service in the UK: History and Sources
• Water Distribution in California
• Bling H2O: Brand of Mineral Water
• Western Region Water Corporation’s Analysis
• Water: The Element of Life
• Water and Energy Requirements of Curcubita Maxima
• 321 Water as a Bottle With a Built-in Filter
• Energy, Water and Capital as Factors Influencing Business
• Water Purification: Process and Other Nuances
• Thomas Cole’s Revelations Through Landscape and Water
• Las Vegas Water Shortage
• Modern Global Issues: Drinking Water Shortage
• Sharjah Electricity & Water Authority’s Creative Improvement Strategies
• Water Pollution: OIL Spills Aspects
• Liquid Waste Disposal and Ground Water Contamination
• Polluted Water and Human Diseases
• Market Analysis of Bottled Water
• Water Efficiency in Food Production: Food Security, and Quality of Life
• Food Distribution and Water Pollution
• Water, Energy and Food Sustainability in Middle East
• Food and Water Access. Human Security Perspective
• Environmental Policy: Water Sanitation
• Masafi Alkalife pH9 Water Advertisement
• The Ongoing Problem of Lead in Drinking Water in Newark, New Jersey
• Jordan’s Water Crisis and Response
• Water and Its Role in Biochemical Processes
• Baja California Water Crisis and Its Impact
• Columbia Roxx Water Company: Operations and Management Plan
• Natural Sciences: Water Expansion During Freezing
• Water Shortage in Somalia: Reasons and Solutions
• Dubai Electricity and Water Authority’s Internship
• Fiji Water’ Environmental Effects
• Bolivian Water Price Determination
• Energy and Water Projects in the Middle East and North Africa
• Public Water Supply System in New York
• Website Usage: Bottled Water Company in Nigeria Case
• All the Water on Europa: Astronomy Picture of the Day
• Battled Water and Jewelry: Product Analysis
• Water Management: Soft-Path Approach in Abu Dhabi
• Integrated Sustainable Water Resource Management
• Heavy Crude Oil Emulsification in Water
• Year-Round Water Access in South Asian Countries
• Dubai Electricity and Water Authority: Sustainable Management
• Dubai Electricity and Water Authority’s Strategic Options
• Trends in Water Supply and Sustainable Consumption
• Best Water Management Practices
• Water Management: Best Practices
• Water Maze Experiment for Hydergine Drugs Testing
• Privatized Kuwaiti Ministry of Electricity and Water
• Abu Dhabi Climate, Water Usage and Food Production
• Chemical Contamination of Ground or Surface Water
• Water Billing IT Solutions Company Business Plan
• Nuclear Magnetic Resonance and Water Quality
• Dubai Electricity and Water Authority’s Tech Innovations
• Dubai Electricity & Water Authority’s Asset Lifecycle
• Dubai Electricity & Water Authority’s Cost Management
• Drinking Water Distribution System
• The Chippewa Cree Tribe’s Water Rights
• Tribal Water Rights and Influence on the State Future
• Water Quality as a Concern for Urban Areas
• Motivations to Choose Bottled Water
• How Saudi Arabia Can Overcome Economic Water Crisis?
• Water Pollution and Associated Health Risks
• California Water Shortages and Long-Term Solutions
• Lake Erie Water Pollution
• Dubai Electricity and Water Authority: Consultation
• Preserving of the Drinkable Water Worldwide
• American Water Company: Users and Systems Specialists Role
• Water Price Hike and Its Effects on the UK Economy
• Water Crisis Resolution and Investments
• Food and Water Quality Testing Device
• UAE Federal Electricity and Water Authority’s Policies
• Water and Soil Resources Issues in the Middle East
• Mountain Valley Spring Water Advertising
• Sunflower Plant Growth With Minimal Water Requirements
• Pure Home Water Company’s Environment
• The Gardens of Islam: Water and Shade
• Water Cycle and Environmental Factors
• Potable Water Supply in the Gulf Region
• The Jordan River Water Issues and Hydropolitics
• Water-Energy Nexus Explained
• Water Pollution in the US: Causes and Control
• Water Control Issue in the United Arab Emirates
• Food and Water Waste Disposal in NYC
• The Water Cube Project and Design-Build Approaches
• Dubai Electricity and Water Authority: Employee Performance
• Importance of Water in Economics: Uses, Pollution, and Sustainable Growth
• Barwon Water Company’s Management and Service Analysis
• Water Transportation Industry’s Impact on Wildlife
• The Nile River: Water Issues and Hydropolitics
• Sustainable Strategies in Water Quality Control
• Water Crisis, Oceans and Sea Turtles Issues
• Sharjah Electricity & Water Authority’s Customer Satisfaction
• Abu Dhabi Water & Electricity Authority’s Pre-Assessment Audit
• EPA Rules Effect on Perchlorate in Drinking Water
• Quality Management of the Dubai Electricity and Water Authority
• Abu Dhabi Water and Electricity Company’ Demand Forecasting
• Environmental Health: Lead Exposure in Water
• The Human Right to Water: History, Meaning and Controversy
• “Vitamin-Enriched” Bottled Water: PEST Analysis
• The Water Nexus Model in the UAE
• Water Related Conflicts in Africa
• Clean Water Problem in Singapore
• Water Paradox: “The Wealth of Nations” by Adam Smith
• Water Scarcity, Marketing, and Privatisation
• Reduce Chemical Spills by Using Green Water Purification
• Reducing Chemical Contamination on Water
• Abu Dhabi Water & Electricity Authority’ Quality Planning
• Water Resources Ecology: Current Issues and Strategies
• Blue Gold: World Water War Documentary
• Thirstier Mineral Water – Marketing
• Safe Drinking Water Importance
• Mars: Water and the Martian Landscape
• Saving Energy Systems: Water Heater Technology
• Jordan River’ Water Issues and Hydropolitics
• Banning Hosepipe Use as a Poor Solution to a Water Shortage
• Criminology: Water Boarding Torture
• Blue Gold: Global Water Crisis
• City of Newark Public Water Supply System
• Environmental Studies: Water Contamination in China
• Is Bottled Water Ethical?
• Kantian Perspective on Water Privatisation
• Water Purification Process
• Water Quality & Drinking Water Treatment
• Kant’s Philosophy: Water and Ethics
• Water Pollution and Its Challenges
• The Three Methods of Water Supply
• Drinking and Bathing Water in Sabah
• Project Management: Sydney Water Company
• Perchlorate in Drinking Water
• Impact of PPP Projects in Energy and Water Sectors in the MENA Region
• Potential Reduction in Irrigation Water Through the Use of Water-Absorbent Polymers in Agriculture in UAE
• Water Pollution Sources, Effects and Control
• Water Resources Deterioration Consequences in the GCC Countries
• Society’s Impact on Water Recourses
• Effects of Lead and Lead Compounds on Soil, Water, and Air
• Knowledge Management: Maroochy Water Services
• Water and Environment Engineering
• Promotional Strategy for the New Water Based Theme Park in Darling Harbor
• Marketing Strategy for Bottled Water in Hong Kong
• Water Boarding as a Form of Criminal Interrogation in the US
• Scarcity of Water in Saudi Arabia, Africa and Australia
• The Ancient and the Medieval Worlds: The Use of Water Power
• Power Water Corporation (PWC): Compiling a Business Strategy
• British Petroleum Company: Deepwater Horizon Oil Spill
• Chloramine Breakdown in Drinking Water and Possible Consequences
• Water Management in Houston
• Cold Water Creek Comprehensive Case
• “Water and Pollution” Class Game
• Global Water Scarcity Causes and Solutions
• Technologies in Improving Air Quality Management Due to Waste Water
• Environmental Justice and Water: Quality, Affordability and Sustainable Use. Facing the Dilemmas of the XXI Century
• Water in Crisis: Public Health Concerns in Africa
• Water War in the Middle East
• Reclamation of Grey Water & Refinery Oily Wastewater Using Bioprocesses Treatment
• Factors Affecting Access to Water Resources in South Asia, the Middle East and the Nile River Basin
• Water War in Bolivia
• Bottled Water: Tropical Spring Water Company
• Can Hot Water Freeze Faster Than Cold Water?
• Water Wars in Bolivia
• Water Consumption in the World
• Key Factors of Competitive Success in the Water Bottling Industry
• Political Ecology and Water Resources
• Design Systems. Water Supply & Sanitation
• Water Usage in University of Ottawa
• Ethics of Bottled Water
• Air and Water Pollution
• Fiji Water Company Analysis
• Critical Book Analysis – Blue Gold: The Battle Against Corporate Theft of the World’s Water by Maude Barlow and Tony Clarke
• Green Buildings and Their Efficiency Water Consumption
• The Planning Action to Bring Water to the Town Population
• The “Bling H2O” as the Luxury Bottled Water
• Privatization of the World’s Water and Wars of Water
• The Effect of Animal Reburial on the Soil Structure and Water
• Analysis of High Recovery Brackish Water Desalination Processes using Fuel Cells by Rajindar Singh
• The Entrance of Bling H2O Into the Bottled Water Market
• Bottled Water Effect on Environment and Culture
• Environmental and Cultural Impact of Bottled Water
• The Privatization or Commodification of Water
• Western Water Company Overview
• Water Regional Police Services Project Implementation
• The Global Water Shortage
• Water Consumption in the UAE: Analyzing the Past Mistakes, Designing the Future Strategy
• Fat- and Water-Soluble Vitamins
• Causes of Water Pollution and the Present Environmental Solution
• Water Balance in Berkeley and Terre Haute
• Water Pollution & Diseases (Undeveloped Nations)
• Trend Analysis: Water Scarcity Issue
• Water and Water Pollution in Point of Economics’ View
• Safety of Recycled Water for Drinking
• Diffusion of Water as the Important Factor in the Development Egypt and in United States
• Environmental Justice Issues Affecting African Americans: Water Pollution
• Threats to Water Availability in Canada
• Economics of Water Bottling
• Dubai Water & Electricity Company
• Pesticide Usage and Water Scarcity
• Why the Water Bears are the Most Appropriate Animals to Send to Mars for Human Research
• Description of the Water Resource Problem (Origins)
• Air and Water Pollution in Los Angeles
• Classification of Water-Related Diseases
• Water Pollution Causes and Climate Impacts
• Como Agua Para Chocolate: Like Water for Chocolate
• Company Profile: Western Water
• Water Crisis in UAE
• Water Pollution Origins and Ways of Resolving
• Comparison of Secondary and Tertiary Waste Water Management
• Housing; Safety of Beach Water Users
• Water Distribution System in Boston
• Water Resources Management
• Does Salt Affect the Freezing Point of Water?
• What Is the Biggest Problem Concerning Water Today?
• Does Too Much Water Help Plants Grow More Rapidly?
• How Can Leaders Tackle With Water Pollution in China?
• How Are Farmers Growing More Crops With Less Water Than Before?
• What Is the Healthiest Type of Water to Drink?
• How Does Human Activity in Watersheds Affect the Water Quality of Lakes?
• Will We Ever Run Out of Water?
• How Does the Temperature of Water Affect How Fast Sugar Can Dissolve?
• How Harmful Can Bottled Water Be?
• What Factors Affect the Cooling of Hot Water in a Container?
• What Are the Two Main Problems With Water?
• Why Diverting Water From the Great Lakes Region Is a Bad Idea?
• What Are the Benefits of Drinking Water?
• How Much Water Should People Drink?
• Why Bottled Water Should Be Free?
• What Is the Proper Way to Drink Water?
• What Is the Best Time to Drink Water?
• Who Is the Biggest Water Company?
• What Are the Challenges for Water Industry?
• What Is the Value of the Water Industry?
• Why Do 785 Million People Lack Access To Clean Water?
• What Is the Best Selling Water?
• Which Type of Water Is the Purest and Safest To Drink?
• How Are Water Companies Funded?
• How Does Drinking Water Pollution Impact the World?
• Air Pollution Research Ideas
• Environment Research Topics
• Agriculture Essay Ideas
• Environmental Protection Titles
• Climate Change Titles
• Hazardous Waste Essay Topics
• Hygiene Essay Topics
• Oceanography Research Ideas
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