A. E. Taunton scite author profile

Microorganisms modify rates and mechanisms of chemical and physical weathering and clay growth, thus playing fundamental roles in soil and sediment formation. Because processes in soils are inherently complex and difficult to study, we employ a model based on the lichenmineral system to identify the fundamental interactions. Fixed carbon released by the photosynthetic symbiont stimulates growth of fungi and other microorganisms. These microorganisms directly or indirectly induce mineral disaggregation, hydration, dissolution, and secondary mineral formation. Model polysaccharides were used to investigate direct mediation of mineral surface reactions by extracellular polymers. Polysaccharides can suppress or enhance rates of chemical weathering by up to three orders of magnitude, depending on the pH, mineral surface structure and composition, and organic functional groups. Mg, Mn, Fe, Al, and Si are redistributed into clays that strongly adsorb ions. Microbes contribute to dissolution of insoluble secondary phosphates, possibly via release of organic acids. These reactions significantly impact soil fertility. Below fungi-mineral interfaces, mineral surfaces are exposed to dissolved metabolic byproducts. Through this indirect process, microorganisms can accelerate mineral dissolution, leading to enhanced porosity and permeability and colonization by microbial communities.

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Effect of Microorganisms and Microbial Metabolites on Apatite Dissolution

Welch¹,

Taunton²,

Banfield³

2002

Geomicrobiology Journal

274

163

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Microbial controls on phosphate and lanthanide distributions during granite weathering and soil formation

Taunton¹,

Welch²,

Banfield³

2000

Chemical Geology

147

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Microscopic Physical Biomarkers in Carbonate Hot Springs: Implications in the Search for Life on Mars

Allen

Albert

Chafetz

et al. 2000

Icarus

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Geomicrobiological controls on light rare earth element, Y and Ba distributions during granite weathering and soil formation

Taunton

Welch

Banfield

2000

Journal of Alloys and Compounds

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A. E. Taunton

Biological impact on mineral dissolution: Application of the lichen model to understanding mineral weathering in the rhizosphere

Effect of Microorganisms and Microbial Metabolites on Apatite Dissolution

Microbial controls on phosphate and lanthanide distributions during granite weathering and soil formation

Microscopic Physical Biomarkers in Carbonate Hot Springs: Implications in the Search for Life on Mars

Geomicrobiological controls on light rare earth element, Y and Ba distributions during granite weathering and soil formation

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