econintersect .com

FREE NEWSLETTER: Econintersect sends a nightly newsletter highlighting news events of the day, and providing a summary of new articles posted on the website. Econintersect will not sell or pass your email address to others per our privacy policy. You can cancel this subscription at any time by selecting the unsubscribing link in the footer of each email.

posted on 27 November 2015

How Antibiotic Pollution Of Waterways Creates Superbugs

from The Conversation

-- this post authored by Michael Gillings

Humans pollute the world with many chemicals and some of these affect living things, even at very low concentrations. Endocrine-disrupting compounds, which interfere with hormones, are a good example, but recently more concern has been raised about pollution with antibiotics.

The problem is that up to 80% of an antibiotic dose passes straight through the body. So most of the antibiotics used in medical treatment or during animal production may end up in waste water. And waste treatment plants generally don't remove antibiotics very well.

Antibiotic pollution also comes from spreading manure on crop land, or using sewage as fertiliser. Waste water released from hospitals and antibiotic production plants is another major source.

We would like to know how much antibiotic pollution there is, but the diversity of antibiotic compounds makes it difficult to measure all of them at once. It's also hard to estimate the amount of antibiotics used globally each year. But most researchers agree that total agricultural and medical use exceeds 250,000 tonnes per year.

How much pollution?

Using this number, we can make a very rough calculation about the extent of antibiotic pollution. If, say, 50% of an antibiotic dose is subsequently excreted, then 125,000 tonnes of antibiotics are released into the environment each year. This of course does not count release from pharmaceutical plants, which are very significant. Antibiotics are then likely to find their way into rivers, lakes and dams.

Antibiotic-resistant Golden Staph (Staphylococcus aureus) cells against a dead human white blood cell (false colour image). NIAID/Flickr, CC BY-SA

In total, such freshwater sources contain 90,000 cubic kilometres of liquid water. This makes 12.5 x 1016 micrograms of antibiotic released into 9 x 1016 litres of freshwater each year. This results in a final concentration of about 1.4 micrograms per litre. This back-of-the-envelope calculation agrees surprisingly well with a growing number of reports on concentrations of particular antibiotics in waterways.

Of course, concentrations vary depending on how close you are to sources of antibiotic pollution. On the low end, Lake Baikal in Russia contains about one fifth of the world's freshwater, but has little or no input of antibiotics.

At the other extreme, waste waters downstream from antibiotic production plants may contain antibiotics at levels hundreds of times higher than those found in the bloodstreams of people on antibiotic therapy.

Pollution and resistance

The consequences of this pollution are potentially very serious. Where the concentration of antibiotics is enough to inhibit bacterial growth, it's almost certain to result in the appearance of antibiotic-resistant strains.

This happens because microorganisms in the environment collectively carry and share enormous numbers of genes for resistance, virulence and other general nastiness. These genes can hop from one bacterial species to another, and the presence of antibiotics favours cells that have acquired these genes for resistance.

Lake Baikal in Russia contains about one fifth of the world's freshwater, but has little or no input of antibiotics. neverbutterfly/Flickr, CC BY

This allows existing pathogens to gain new forms of resistance, making them "super bugs" that are immune to all current antibiotics. Also, previously benign bacteria can acquire genes that transform them into emerging pathogens.

Even very low antibiotic concentrations have significant biological and evolutionary effects. Low, "sub-clinical" concentrations of antibiotics fall well below the concentrations used in antibiotic therapy. These concentrations do not kill bacteria. But they do induce bacteria to increase their rates of mutation, DNA recombination, and the rate at which genes hop from cell to cell.

Each of these changes at the DNA level can give advantages to bacteria, such as survival in the presence of heavy metals, disinfectants or antibiotics. So antibiotic pollution makes it vastly more likely that bacteria will become resistant or colonise new hosts, including humans.

Both the World Health Organization and the US Centers for Disease Control have identified antibiotic resistance as a high priority for research. We can help prevent resistance by using antibiotics wisely, by not dumping unused antibiotics in drains or toilets, and by improving water treatment.

We can also call for restrictions on the use of antibiotics as growth promoters in animal production, which actually accounts for the majority of antibiotic use worldwide. Australia has stringent regulations on the use of antibiotics in farm animals, but this cannot be said of elsewhere in the world. And in the modern age of rapid transport, a superbug in the United States, China or India will inevitably make its way to Australian shores.

Resistance is everyone's problem.

The ConversationMichael Gillings, Professor of Molecular Evolution

This article was originally published on The Conversation. Read the original article.

>>>>> Scroll down to view and make comments <<<<<<

Click here for Historical News Post Listing

Make a Comment

Econintersect wants your comments, data and opinion on the articles posted. You can also comment using Facebook directly using he comment block below.

Econintersect Contributors

Print this page or create a PDF file of this page
Print Friendly and PDF

The growing use of ad blocking software is creating a shortfall in covering our fixed expenses. Please consider a donation to Econintersect to allow continuing output of quality and balanced financial and economic news and analysis.

Keep up with economic news using our dynamic economic newspapers with the largest international coverage on the internet
Asia / Pacific
Middle East / Africa
USA Government

 navigate econintersect .com


Analysis Blog
News Blog
Investing Blog
Opinion Blog
Precious Metals Blog
Markets Blog
Video of the Day


Asia / Pacific
Middle East / Africa
USA Government

RSS Feeds / Social Media

Combined Econintersect Feed

Free Newsletter

Marketplace - Books & More

Economic Forecast

Content Contribution



  Top Economics Site Contributor TalkMarkets Contributor Finance Blogs Free PageRank Checker Active Search Results Google+

This Web Page by Steven Hansen ---- Copyright 2010 - 2018 Econintersect LLC - all rights reserved