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[[File:EscherichiaColi NIAID.jpg|thumb|230px|''[[Escherichia coli|E. coli]]'' [[bacteria]] under magnification]]
[[File:EscherichiaColi NIAID.jpg|thumb|230px|''[[Escherichia coli|E. coli]]'' [[bacteria]] under magnification]]


'''Sanitation''' is the [[hygiene|hygienic]] means of [[health promotion|promoting health]] through [[hazard prevention|prevention]] of human contact with the [[hazard]]s of [[waste]]s as well as the treatment and proper disposal of [[sewage]] [[wastewater]]. Hazards can be either physical, [[microbiological]], biological or chemical agents of disease. Wastes that can cause health problems include human and animal feces, solid wastes, domestic wastewater (sewage, sullage, greywater), industrial wastes and agricultural wastes. Hygienic means of prevention can be by using engineering solutions (e.g. sewage and [[wastewater treatment]]), simple technologies (e.g. latrines, septic tanks), or even by personal hygiene practices (e.g. simple [[Hand washing|handwashing]] with soap).
'''Sanitation''' is the [[hygiene|hygienic]] means of [[health promotion|promoting health]] through [[hazard prevention|prevention]] of human contact with the [[hazard]]s of [[waste]]s as well as the treatment and proper disposal of [[sewage]] [[wastewater]]. Hazards can be either physical, [[microbiological]], biological or chemical agents of disease. Wastes that can cause health problems include human and animal feces, solid wastes, domestic wastewater (sewage, sullage, greywater), industrial wastes and agricultural wastes. Hygienic means of prevention can be by using engineering solutions (e.g. sewage and [[wastewater treatment]]), simple technologies (e.g. latrines, septic tanks), or even by personal hygiene practices (e.g. simple [[Hand washing|handwashing]] with [[soap]]).


The [[World Health Organization]] states that:
The [[World Health Organization]] states that:
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| accessdate = 1 March 2008
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==Excessive cleanliness==
See also [[Hygiene#Excessive body hygiene]]<br>
Though a minimum level of sanitation is advisable to avoid serious health problems, excessive cleanliness should be discouraged, especially in children. A growing body of research shows that a lack of exposure to pathogens and [[parasite]]s leads to a defective [[immune system]], because the latter needs to be trained to be effective. Another problem is excessive washing with soap. This has a deleterious effect on the natural microbial [[skin flora]] and the natural layer of skin oil.


==See also==
==See also==

Revision as of 00:27, 30 November 2013

E. coli bacteria under magnification

Sanitation is the hygienic means of promoting health through prevention of human contact with the hazards of wastes as well as the treatment and proper disposal of sewage wastewater. Hazards can be either physical, microbiological, biological or chemical agents of disease. Wastes that can cause health problems include human and animal feces, solid wastes, domestic wastewater (sewage, sullage, greywater), industrial wastes and agricultural wastes. Hygienic means of prevention can be by using engineering solutions (e.g. sewage and wastewater treatment), simple technologies (e.g. latrines, septic tanks), or even by personal hygiene practices (e.g. simple handwashing with soap).

The World Health Organization states that:

"Sanitation generally refers to the provision of facilities and services for the safe disposal of human urine and feces. Inadequate sanitation is a major cause of disease world-wide and improving sanitation is known to have a significant beneficial impact on health both in households and across communities. The word 'sanitation' also refers to the maintenance of hygienic conditions, through services such as garbage collection and wastewater disposal.[1]

The term sanitation is applied to a wide range of subjects such as:

History

The earliest evidence of urban sanitation was seen in Harappa, Mohenjo-daro and the recently discovered Rakhigarhi of Indus Valley civilization. This urban plan included the world's first urban sanitation systems. Within the city, individual homes or groups of homes obtained water from wells. From a room that appears to have been set aside for bathing, waste water was directed to covered drains, which lined the major streets.

Roman cities and Roman villas had elements of sanitation systems, delivering water in the streets of towns such as Pompeii, and building stone and wooden drains to collect and remove wastewater from populated areas - see for instance the Cloaca Maxima into the River Tiber in Rome. But there is little record of other sanitation in most of Europe until the High Middle Ages. Unsanitary conditions and overcrowding were widespread throughout Europe and Asia during the Middle Ages, resulting periodically in cataclysmic pandemics such as the Plague of Justinian (541-42) and the Black Death (1347–1351), which killed tens of millions of people and radically altered societies.[2]

Very high infant and child mortality prevailed in Europe throughout medieval times, due not only to deficiencies in sanitation but to an insufficient food supply for a population which had expanded faster than agriculture.[3] This was further complicated by frequent warfare and exploitation of civilians by autocratic rulers.

Sanitation refers to the safe disposal of human excreta (Mara, Lane and Scott and Trouba,1). This entails the hygienic disposal and treatment of human waste to avoid affecting the health of people. Sanitation is an essential part of the Millennium Development Goals. The most affected countries are in the developing world (Zawahri, Sowers, and Weinthal 1153). Population increase in the developing world has posed challenges in the improvement of sanitation (Konteh 69). According to Zawari, Sowers, and Weinthal (1154), lack of provisions of basic sanitation is estimated to have contributed to the deaths of approximately 3.5 million people annually from water borne diseases.

Wastewater

Wastewater collection

The standard sanitation technology in urban areas is the collection of wastewater in sewers, its treatment in wastewater treatment plants for reuse or disposal in rivers, lakes or the sea. Sewers are either combined with storm drains or separated from them as sanitary sewers. Combined sewers are usually found in the central, older parts or urban areas. Heavy rainfall and inadequate maintenance can lead to combined sewer overflows or sanitary sewer overflows, i.e. more or less diluted raw sewage being discharged into the environment. Industries often discharge wastewater into municipal sewers, which can complicate wastewater treatment unless industries pre-treat their discharges.[4]

The high investment cost of conventional wastewater collection systems are difficult to afford for many developing countries. Some countries have therefore promoted alternative wastewater collection systems such as condominial sewerage, which uses smaller diameter pipes at lower depth with different network layouts from conventional sewerage.

Wastewater treatment

Sewage treatment plant, Australia.

In developed countries treatment of municipal wastewater is now widespread,[5] but not yet universal (for an overview of technologies see wastewater treatment). In developing countries most wastewater is still discharged untreated into the environment. For example, in Latin America only about 15% of collected sewerage is being treated (see water and sanitation in Latin America)

Health Impacts of Sanitation

For any social and economic development, adequate sanitation in conjunction with good hygiene and safe water are essential to good health (Mara, Lane and Scott and Trouba 1). Lack of proper sanitation causes diseases. Most of the diseases resulting from sanitation have a direct relation to poverty. The lack of clean water and poor sanitation has caused many diseases and the spread of diseases. Sanitation is very important in order to keep good health.One of the most significant diseases that arise from poor sanitation is diarrhea. Deaths resulting from diarrhea are estimated to be between 1.6 and 2.5 million deaths every year (Mara, Lane and Scott and Trouba 2). Most of the affected are young children below the ages of five. Other diseases that are caused by poor sanitation include schistosomiasis, trachoma, and soil transmitted Helminthiases.

Poor sanitation accounts for almost 50 percent of underweight child since it has a direct link to diarrhea. Children suffering for diarrhea are more vulnerable to become underweight. According to Mara, Lane, and Scott and Trouba (3), about 26 percent acute respiratory infections occur in children who are malnourished, which has a direct link to diarrhea. Sanitation is a serious issue that is affecting most parts of the world especially the developing countries. On a global scale, the most affected are children who in most cases lose their lives due to diseases caused by poor sanitation. Major initiatives need to be set up if the MDG goal on sanitation is to be achieved by 2015.

On-site treatment

In many suburban and rural areas households are not connected to sewers. They discharge their wastewater into septic tanks or other types of on-site sanitation. On-site systems include drain fields, which require significant area of land. This makes septic systems unsuitable for most cities.

Reuse of wastewater

The reuse of untreated wastewater in irrigated agriculture is common in developing countries. The reuse of treated wastewater in landscaping, especially on golf courses, irrigated agriculture and for industrial use is becoming increasingly widespread.

Ecological sanitation

Ecological sanitation is sometimes presented as a radical alternative to conventional sanitation systems. Ecological sanitation is based on composting or vermicomposting toilets where an extra separation of urine and feces at the source for sanitization and recycling has been done. It thus eliminates the creation of blackwater and eliminates fecal pathogens. If ecological sanitation is practiced municipal wastewater consists only of greywater, which can be recycled for gardening. However, in most cases greywater continues to be discharged to sewers.

Sanitation and public health

The importance of the isolation of waste lies in an effort to prevent diseases which can be transmitted through human waste, which afflict both developed countries as well as developing countries to differing degrees. It is estimated that up to 5 million people die each year from preventable water-borne diseases,[6] as a result of inadequate sanitation and hygiene practices.The effects of sanitation has impacted the society of people throughout history.[7] Sanitation is a necessity for a heathly life.[8] The results of studies published in Griffins Public Sanitation show that better sanitation produces an enhanced feeling of wellbeing.[citation needed]

Relevant disease include:

There continues to be many countries that are struggling with diseases due to unhealthy living conditions and unfiltered water all in the name of bad sanitation.[9][10][11]

Global access to improved sanitation

The Joint Monitoring Programme for Water Supply and Sanitation of WHO and UNICEF has defined improved sanitation as follows:

The JMP publishes a report of updated estimates every two years on the use of various types of drinking-water sources and sanitation facilities at the national, regional and global levels. In March 2012, the JMP released its latest updates.[20] According to the definition above, 1.8 billion more people used improved sanitation in 2010 than in 1990, bringing the percentage of people using improved sanitation to 63% globally. However, the world remains off track for the sanitation target of the Millennium Development Goals. 2.5 billion lack improved sanitation.[21] According to the JMP, if current trends continue, in 2015 2.4 billion people will lack access to improved sanitation facilities. 15 per cent of the population still practise open defecation, defined as defecation in fields, forests, bushes, bodies of water or other open spaces. This represents 1.1 billion people. Though the proportion of people practising open defecation is decreasing, the absolute number has remained at over one billion for several years, due to population growth.[22] In 2011 the Bill & Melinda Gates Foundation launched the Reinvent the Toilet Challenge to promote safer, more effective ways to treat human waste. The program is aimed at developing technologies that might help bridge the global sanitation gap.

This outcome presents substantial public health risks as the waste could contaminate drinking water and cause life threatening forms of diarrhea to infants. Most cities can neither afford a sewage drainage system, nor a sewage treatment system, as Sunita Narain spelled out in the magazine D+C Development and Cooperation. Improved sanitation, including hand washing and water purification, could save the lives of 1.5 million children who die from diarrheal diseases each year.[23]

Solid waste disposal

Hiriya Landfill, Israel.

Disposal of solid waste is most commonly conducted in landfills, but incineration, recycling, composting and conversion to biofuels are also avenues. In the case of landfills, advanced countries typically have rigid protocols for daily cover with topsoil, where underdeveloped countries customarily rely upon less stringent protocols.[24] The importance of daily cover lies in the reduction of vector contact and spreading of pathogens. Daily cover also minimises odor emissions and reduces windblown litter. Likewise, developed countries typically have requirements for perimeter sealing of the landfill with clay-type soils to minimize migration of leachate that could contaminate groundwater (and hence jeopardize some drinking water supplies).

For incineration options, the release of air pollutants, including certain toxic components is an attendant adverse outcome. Recycling and biofuel conversion are the sustainable options that generally have superior life cycle costs, particularly when total ecological consequences are considered.[25] Composting value will ultimately be limited by the market demand for compost product.

Food preparation

Modern restaurant food preparation area.

Sanitation within the food industry means the adequate treatment of food-contact surfaces by a process that is effective in destroying vegetative cells of microorganisms of public health significance, and in substantially reducing numbers of other undesirable microorganisms, but without adversely affecting the food or its safety for the consumer (U.S. Food and Drug Administration, Code of Federal Regulations, 21CFR110, USA). Sanitation Standard Operating Procedures are mandatory for food industries in United States, which are regulated by 9 CFR part 416 in conjunction with 21 CFR part 178.1010. Similarly, in Japan, food hygiene has to be achieved through compliance with food sanitation law.[26]

Additionally, in the food and biopharmaceutical industries, the term sanitary equipment means equipment that is fully cleanable using clean-in-place (CIP) and sterilization-in-place (SIP) procedures: that is fully drainable from cleaning solutions and other liquids. The design should have a minimum amount of deadleg[27] or areas where the turbulence during cleaning is insufficient to remove product deposits. In general, to improve cleanability, this equipment is made from Stainless Steel 316L, (an alloy containing small amounts of molybdenum). The surface is usually electropolished to an effective surface roughness of less than 0.5 micrometre to reduce the possibility of bacterial adhesion.

Improving access

The United Nations Millennium Development Goals (MDGs) include a target to reduce by half the proportion of people without access to basic sanitation by 2015. In December 2006, the United Nations General Assembly declared 2008 'The International Year of Sanitation', in recognition of the slow progress being made towards the MDGs sanitation target.[28] The year aims to develop awareness and action to meet the target. Particular concerns are:

  • Removing the stigma around sanitation, so that the importance of sanitation can be more easily and publicly discussed.
  • Highlighting the poverty reduction, health and other benefits that flow from better hygiene, household sanitation arrangements and wastewater treatment.

Research from the Overseas Development Institute suggests that sanitation and hygiene promotion needs to be better 'mainstreamed' in development, if the MDG on sanitation is to be met. At present, promotion of sanitation and hygiene is mainly carried out through water institutions. The research argues that there are, in fact, many institutions that should carry out activities to develop better sanitation and hygiene in developing countries. For example, educational institutions can teach on hygiene, and health institutions can dedicate resources to preventative works (to avoid, for example, outbreaks of cholera).[29] There are also civil society organisations providing the necessary infrastructure where national governments cannot do that on their own. In Ghana, there is an umbrella organisation for those programmes, called CONIWAS (Coalition of NGOs in Water and Sanitation) as reported in the magazine D+C Development and Cooperation.

The Institute of Development Studies (IDS) coordinated research programme on Community-led Total Sanitation (CLTS) is a radically different approach to rural sanitation in developing countries and has shown promising successes where traditional rural sanitation programmes have failed. CLTS is an unsubsidized approach to rural sanitation that facilitates communities to recognize the problem of open defecation and take collective action to clean up and become ‘open defecation free’. It uses community-led methods such as participatory mapping and analysing pathways between feces and mouth as a means of galvanizing communities into action. An IDS 'In Focus' Policy Brief suggests that in many countries the Millennium development goal for sanitation is off track and asks how CLTS can be adopted and spread on a large scale in the many countries and regions where open defecation still prevails.[30]

Regulation

In United States, sanitation is a legislative requirement of occupational safety and health, which is governed by 29 CFR Part 1910.141.[31]

Excessive cleanliness

See also Hygiene#Excessive body hygiene
Though a minimum level of sanitation is advisable to avoid serious health problems, excessive cleanliness should be discouraged, especially in children. A growing body of research shows that a lack of exposure to pathogens and parasites leads to a defective immune system, because the latter needs to be trained to be effective. Another problem is excessive washing with soap. This has a deleterious effect on the natural microbial skin flora and the natural layer of skin oil.

See also

References

  1. ^ who.int
  2. ^ Carlo M. Cipolla, Before the Industrial Revolution: European Society and Economy 1000-1700, W.W. Norton and Company, London (1980) ISBN 0-393-95115-4
  3. ^ Burnett White, Natural History of Infectious Diseases
  4. ^ Environmental Biotechnology: Advancement in Water And Wastewater Application, edited by Z. Ujang, IWA Proceedings, Malaysia (2003)
  5. ^ Typical U.S. water treatment standards
  6. ^ Pacific Institute
  7. ^ Ehlers, Victor (1943). Municipal and rural sanitation. New York: McGraw-Hill book company, inc.
  8. ^ George, Rose (2008). The Big Necessity: The Unmentionable Worls of Human Waste and Why it Matters. New York: Metropolitan Books/Henrey Holt and Company.
  9. ^ Heller, Léo, and José Esteban Castro. Water And Sanitation Services : Public Policy And Management. n.p.: Earthscan, 2009. eBook Collection (EBSCOhost). Web. 14 Nov. 2012.
  10. ^ Stewart, Amy, and Tim Gray. Governance Of Water And Sanitation In Africa : Achieving Sustainable Development Through Partnerships. n.p.: I.B. Tauris, 2009. eBook Collection (EBSCOhost). Web. 14 Nov. 2012.
  11. ^ www.victorianweb.org/history/chadwick2.html
  12. ^ WHO and UNICEF types of improved drinking-water source on the JMP website, WHO, Geneva and UNICEF, New York, accessed on June 10, 2012
  13. ^ WHO and UNICEF [1], ibid.
  14. ^ WHO and UNICEF [2], ibid.
  15. ^ WHO and UNICEF [3], ibid.
  16. ^ WHO and UNICEF [4], ibid.
  17. ^ WHO and UNICEF [5], ibid.
  18. ^ WHO and UNICEF [6], ibid.
  19. ^ WHO and UNICEF [7], ibid.
  20. ^ WHO and UNICEF Progress on Drinking-water and Sanitation: 2012 Update, WHO, Geneva and UNICEF, New York
  21. ^ WHO and UNICEF Progress on Drinking-water and Sanitation: 2012 Update, WHO, Geneva and UNICEF, New York, page 2
  22. ^ WHO and UNICEF Progress on Drinking-water and Sanitation: 2012 Update, WHO, Geneva and UNICEF, New York, page 5
  23. ^ World Health Organization and UNICEF. Progress on Drinking Water and Sanitation: Special Focus on Sanitation.
  24. ^ George Tchobanoglous and Frank Kreith Handbook of Solid Waste Management, McGraw Hill (2002)
  25. ^ William D. Robinson, The Solid Waste Handbook: A Practical Guide, John Wiley and sons (1986)
  26. ^ Japan External Trade Organization. "Food Sanitation Law in Japan" (PDF). Retrieved 1 March 2008. {{cite web}}: Cite has empty unknown parameter: |coauthors= (help)
  27. ^ Treatment of deadleg plumbing areas
  28. ^ "Peri-urban Water and Sanitation Services". Springer. 2010.
  29. ^ "Sanitation and Hygiene: knocking on new doors" (PDF). Overseas Development Institute. 2006. Retrieved 2007. {{cite web}}: Check date values in: |accessdate= (help)
  30. ^ 'Beyond Subsidies - Triggering a Revolution in Rural Sanitation' Institute of Development Studies (IDS) In Focus Policy Brief 10 July 2009.
  31. ^ Code of Federal Regulations. "1910.141 Sanitation" (PDF). Retrieved 1 March 2008. {{cite web}}: Cite has empty unknown parameter: |coauthors= (help)