Aaron L. Mills
University of Virginia
126 Papers
2.9K Citations
Aaron L. Mills is an academic researcher from University of Virginia. The author has contributed to research in topics: Acid mine drainage & Groundwater. The author has an hindex of 48, co-authored 126 publications. Previous affiliations of Aaron L. Mills include Kennedy Space Center & University of Maryland, College Park.
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Papers
Statistical Analysis Of Spatial Structure In Microbial Communities
Rima B. Franklin,Aaron L. Mills +1 more
- 01 Jan 2007
TL;DR: This chapter provides a review of the basic statistical techniques used to detect and quantify spatial structure in ecological data as they can be applied to the analysis of microbial communities.
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Establishment of anaerobic, reducing conditions in lake sediment after deposition of acidic, aerobic sediment by a major storm
TL;DR: In the Contrary Creek arm of Lake Anna, Virginia, the pH of the pore water increased from 4.5 to 5.8 within three weeks, and titratable alkalinity was detected within two weeks and three weeks at 3 cm and 1 cm depths, respectively as discussed by the authors.
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Determining replication for discrimination among microbial communities in environmental samples using community‐level physiological profiles
TL;DR: Power calculations demonstrated that duplicate analyses could distinguish between two different locations at two times during the year, and Variability associated with replicates from a single container or from different containers was nearly the same for the two sites examined.
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Comparison of bacterial dynamics in tidal creeks of the lower Delmarva Peninsula, Virginia, USA
TL;DR: The high inorganic nutrient pools combined with the low levels of bacterial productivity suggest that bacterial production is not l~nli ted by N or P in the seaside creeks and that the amount of carbon moving through the bacterial loop is much less than on the bayside.
Biostability and Microbiological Analysis of Shuttle Crew Refuse
Adrienne L. Kish,Mary Hummerick,Michael S. Roberts,Jay L. Garland,Sabrina Maxwell,Aaron L. Mills +5 more
- 15 Jul 2002
TL;DR: In this paper, microbiological sampling and analysis was performed on the wet waste returned from the two shuttle missions servicing the International Space Station (ISS) to define the waste stream content and possible stabilization and recovery technologies that may be adapted for long duration missions.
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