25.3.3: Extremophiles and Biofilms
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Learning Objectives
- Discuss the distinguishing features of extremophiles and the environments that produce biofilms
Microbes Are Adaptable: Life in Moderate and Extreme Environments
Some organisms have developed strategies that allow them to survive harsh conditions. Prokaryotes thrive in a vast array of environments; some grow in conditions that would seem very normal to us, whereas others are able to thrive and grow under conditions that would kill a plant or animal. Almost all prokaryotes have a cell wall: a protective structure that allows them to survive in both hyper- and hypo-osmotic conditions. Some soil bacteria are able to form endospores that resist heat and drought, thereby allowing the organism to survive until favorable conditions recur. These adaptations, along with others, allow bacteria to be the most abundant life form in all terrestrial and aquatic ecosystems.
Other bacteria and archaea are adapted to grow under extreme conditions and are called extremophiles, meaning “lovers of extremes.” Extremophiles have been found in all kinds of environments: the depth of the oceans, hot springs, the Arctic and the Antarctic, in very dry places, deep inside earth, in harsh chemical environments, and in high radiation environments, just to mention a few. These organisms give us a better understanding of prokaryotic diversity and raise the possibility of finding new prokaryotic species that may lead to the discovery of new therapeutic drugs or have industrial applications. Because they have specialized adaptations that allow them to live in extreme conditions, many extremophiles cannot survive in moderate environments. There are many different groups of extremophiles. They are identified based on the conditions in which they grow best. Several habitats are extreme in multiple ways. For example, a soda lake is both salty and alkaline, so organisms that live in a soda lake must be both alkaliphiles and halophiles. Other extremophiles, like radioresistant organisms, do not prefer an extreme environment (in this case, one with high levels of radiation), but have adapted to survive in it.
Prokaryotes in the Dead Sea
One example of a very harsh environment is the Dead Sea, a hypersaline basin that is located between Jordan and Israel. Hypersaline environments are essentially concentrated seawater. In the Dead Sea, the sodium concentration is 10 times higher than that of seawater. The water also contains high levels of magnesium (about 40 times higher than in seawater) that would be toxic to most living things. Iron, calcium, and magnesium, elements that form divalent ions (Fe 2+ , Ca 2+ , and Mg 2+ ), produce what is commonly referred to as “hard” water. Taken together, the high concentration of divalent cations, the acidic pH (6.0), and the intense solar radiation flux make the Dead Sea a unique, and uniquely hostile, ecosystem.
The Ecology of Biofilms
Until a couple of decades ago, microbiologists used to think of prokaryotes as isolated entities living apart. This model, however, does not reflect the true ecology of prokaryotes, most of which prefer to live in communities where they can interact. A biofilm is a microbial community held together in a gummy-textured matrix that consists primarily of polysaccharides secreted by the organisms, together with some proteins and nucleic acids. Biofilms grow attached to surfaces. Some of the best-studied biofilms are composed of prokaryotes, although fungal biofilms have also been described, as well as some composed of a mixture of fungi and bacteria.
Biofilms are present almost everywhere: they can cause the clogging of pipes and readily colonize surfaces in industrial settings. In recent, large-scale outbreaks of bacterial contamination of food, biofilms have played a major role. They also colonize household surfaces, such as kitchen counters, cutting boards, sinks, and toilets, as well as places on the human body, such as the surfaces of our teeth.
Interactions among the organisms that populate a biofilm, together with their protective exopolysaccharidic (EPS) environment, make these communities more robust than free-living, or planktonic, prokaryotes. The sticky substance that holds bacteria together also excludes most antibiotics and disinfectants, making biofilm bacteria hardier than their planktonic counterparts. Overall, biofilms are very difficult to destroy because they are resistant to many common forms of sterilization.
Contributions and Attributions
- OpenStax College, Biology. October 16, 2013. Provided by : OpenStax CNX. Located at : http://cnx.org/content/m44602/latest...ol11448/latest . License : CC BY: Attribution
- Prokaryote. Provided by : Wikipedia. Located at : en.Wikipedia.org/wiki/Prokaryote . License : CC BY-SA: Attribution-ShareAlike
- prokaryote. Provided by : Wiktionary. Located at : en.wiktionary.org/wiki/prokaryote . License : CC BY-SA: Attribution-ShareAlike
- archaea. Provided by : Wikipedia. Located at : en.Wikipedia.org/wiki/archaea . License : CC BY-SA: Attribution-ShareAlike
- domain. Provided by : Wiktionary. Located at : en.wiktionary.org/wiki/domain . License : CC BY-SA: Attribution-ShareAlike
- OpenStax College, Introduction. October 16, 2013. Provided by : OpenStax CNX. Located at : http://cnx.org/content/m44602/latest...e_22_00_01.jpg . License : CC BY: Attribution
- Archaea. Provided by : Wikipedia. Located at : en.Wikipedia.org/wiki/Archaea . License : CC BY-SA: Attribution-ShareAlike
- OpenStax College, Biology. October 16, 2013. Provided by : OpenStax CNX. Located at : http://cnx.org/content/m44603/latest...ol11448/latest . License : CC BY: Attribution
- stromatolite. Provided by : Wiktionary. Located at : en.wiktionary.org/wiki/stromatolite . License : CC BY-SA: Attribution-ShareAlike
- indel. Provided by : Wiktionary. Located at : en.wiktionary.org/wiki/indel . License : CC BY-SA: Attribution-ShareAlike
- sacculus. Provided by : Wiktionary. Located at : en.wiktionary.org/wiki/sacculus . License : CC BY-SA: Attribution-ShareAlike
- gram-positive. Provided by : Wiktionary. Located at : en.wiktionary.org/wiki/gram-positive . License : CC BY-SA: Attribution-ShareAlike
- OpenStax College, Introduction. October 16, 2013. Provided by : OpenStax CNX. Located at : http://cnx.org/content/m44602/latest...e_22_00_01.jpg . License : CC BY: Attribution
- OpenStax College, Prokaryotic Diversity. October 16, 2013. Provided by : OpenStax CNX. Located at : http://cnx.org/content/m44603/latest...e_22_01_01.jpg . License : CC BY: Attribution
- OpenStax College, Prokaryotic Diversity. October 16, 2013. Provided by : OpenStax CNX. Located at : http://cnx.org/content/m44603/latest...22_01_02ab.jpg . License : CC BY: Attribution
- OpenStax College, Biology. October 16, 2013. Provided by : OpenStax CNX. Located at : http://cnx.org/content/m44603/latest...ol11448/latest . License : CC BY: Attribution
- OpenStax College, Biology. October 23, 2013. Provided by : OpenStax CNX. Located at : http://cnx.org/content/m44603/latest...ol11448/latest . License : CC BY: Attribution
- extremophile. Provided by : Wiktionary. Located at : en.wiktionary.org/wiki/extremophile . License : CC BY-SA: Attribution-ShareAlike
- halophile. Provided by : Wiktionary. Located at : en.wiktionary.org/wiki/halophile . License : CC BY-SA: Attribution-ShareAlike
- alkaliphile. Provided by : Wiktionary. Located at : en.wiktionary.org/wiki/alkaliphile . License : CC BY-SA: Attribution-ShareAlike
- OpenStax College, Introduction. October 16, 2013. Provided by : OpenStax CNX. Located at : http://cnx.org/content/m44602/latest...e_22_00_01.jpg . License : CC BY: Attribution
- OpenStax College, Prokaryotic Diversity. October 16, 2013. Provided by : OpenStax CNX. Located at : http://cnx.org/content/m44603/latest...e_22_01_01.jpg . License : CC BY: Attribution
- OpenStax College, Prokaryotic Diversity. October 16, 2013. Provided by : OpenStax CNX. Located at : http://cnx.org/content/m44603/latest...22_01_02ab.jpg . License : CC BY: Attribution
- OpenStax College, Prokaryotic Diversity. October 16, 2013. Provided by : OpenStax CNX. Located at : http://cnx.org/content/m44603/latest...e_22_01_05.jpg . License : CC BY: Attribution
- OpenStax College, Prokaryotic Diversity. October 16, 2013. Provided by : OpenStax CNX. Located at : http://cnx.org/content/m44603/latest...e_22_01_04.jpg . License : CC BY: Attribution
- OpenStax College, Prokaryotic Diversity. October 16, 2013. Provided by : OpenStax CNX. Located at : http://cnx.org/content/m44603/latest...e_22_01_07.png . License : CC BY: Attribution
Key Points
- Prokaryotes live in all environments, no matter how extreme they may be.
- Bacteria that prefer very salty environments are called halophiles, while those that live in very acidic environments are called acidophiles.
- An example of a habitat that halophiles can colonize is the Dead Sea, a body of water that is 10 times saltier than regular ocean water.
- A biofilm is a microbial community held together in a gummy-textured matrix that consists primarily of polysaccharides secreted by the organisms.
- Biofilms can be found clogging pipes, on kitchen counters, or even on the surface of one’s teeth.
Key Terms
- extremophile : an organism that lives under extreme conditions of temperature, salinity, etc; commercially important as a source of enzymes that operate under similar conditions
- halophile : an organism that lives and thrives in an environment of high salinity, often requiring such an environment; a form of extremophile
- alkaliphile : any organism that lives and thrives in an alkaline environment, such as a soda lake; a form of extremophile