Microbial ecology: Difference between revisions
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File:Great-plate-count-anomaly.svg|Diagram illustrating the great plate count anomaly in microbial ecology | |||
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Latest revision as of 00:49, 18 February 2025
Microbial ecology is the study of the interactions of microorganisms with their environment, each other, and plant and animal species. It includes the study of symbioses, biogeochemical cycles, and the interaction of microbes with anthropogenic effects such as pollution and climate change.
Overview[edit]
Microbial ecology seeks to understand the role of microbes in ecosystems, which can be any environment in which organisms interact with each other and the environment. This includes natural environments such as oceans, soils, and forests, as well as man-made environments such as bioreactors.
Microbes, which include bacteria, archaea, viruses, fungi, prions, protozoa and algae, inhabit every surface of Earth that contains liquid water. They are found in a wide range of environments, from the poles to the equator, from the deep sea to the highest mountain peaks, and in both freshwater and saltwater environments.
History[edit]
The field of microbial ecology was pioneered by scientists like Sergei Winogradsky and Martinus Beijerinck in the late 19th and early 20th centuries. They were among the first to realize that microbes play critical roles in the cycling of elements such as nitrogen and carbon.
Microbial interactions[edit]
Microbes interact with each other in complex ways. Some of these interactions are cooperative, such as symbiosis and mutualism, while others are competitive, such as parasitism and predation. Microbes also interact with plants and animals, often in symbiotic relationships.
Biogeochemical cycles[edit]
Microbes play a critical role in biogeochemical cycles, the processes by which elements are cycled between the land, water, atmosphere, and living organisms. They are key players in the carbon cycle, nitrogen cycle, sulfur cycle, and phosphorus cycle.
Human impact[edit]
Human activities have a significant impact on microbial ecosystems. Pollution, habitat destruction, and climate change can all disrupt microbial communities and the processes they carry out.
See also[edit]
References[edit]
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