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W1972012129 endingPage "631" @default.
W1972012129 startingPage "620" @default.
W1972012129 abstract "Soil microbial communities perform many important processes, including nutrient cycling, plant–microorganism interactions, and degradation of xenobiotics. The study of microbial communities, however, has been limited by cultural methods, which may greatly underestimate diversity. The advent of nucleic acids technologies allows microbial communities to be quantified and classified without the limitations of cultivation. Fluorescent in situ hybridization (FISH) and other tools of molecular ecology are now being used to investigate community structure and diversity of soils, aquifers, and other natural habitats. Based on these studies, soil microbial communities are diverse and appear to respond to anthropogenic inputs, such as fertilizer, manure, and pollutants, as well as the more well‐known constraints imposed by temperature and moisture. Yet most nucleic‐acids‐based technologies are unable to directly link phylogeny with processes in a manner similar to cultivation‐based approaches, restricting the conclusions that can be drawn from the large data sets they generate. Recently, the combination of FISH with microautoradiography (FISH‐MAR) allows cells active in processes to be quantified and simultaneously classified phylogenetically. In this review, we discuss how FISH‐MAR can be used to quantify the specific microbial phylotype(s) responsible for a microbially catalyzed process. Examples of the use of FISH and FISH‐MAR in soils and sediments are described. The capabilities and limitations of these techniques for linking microbial community structure and function are discussed." @default.
W1972012129 created "2016-06-24" @default.
W1972012129 creator A5001676526 @default.
W1972012129 creator A5044802268 @default.
W1972012129 creator A5081250703 @default.
W1972012129 date "2007-03-01" @default.
W1972012129 modified "2023-10-14" @default.
W1972012129 title "Fluorescent In Situ Hybridization and Micro-autoradiography Applied to Ecophysiology in Soil" @default.
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