Your search keyword '"Medford, Aaron"' showing total 10 results

1. Holocene glacial history of Renland Ice Cap, East Greenland, reconstructed from lake sediments

Author

Medford, Aaron K., Hall, Brenda L., Lowell, Thomas V., Kelly, Meredith A., Levy, Laura B., Wilcox, Paul S., and Axford, Yarrow

Published

2021

2. Are drumlins a product of a thermo-mechanical instability?

Author

Hooke, Roger LeB. and Medford, Aaron

Published

2013

3. Principles of thermal expansion in the feldspar system

Author

Hovis, Guy L., Medford, Aaron, Conlon, Maricate, Tether, Allison, and Romanoski, Anthony

Subjects

Feldspar -- Composition, Feldspar -- Thermal properties, Expansion (Heat) -- Research, Mineralogy, Determinative -- Research, Earth sciences

Abstract

Following the recent thermal expansion work of Hovis et al. (2008) on Al[Si.sub.3] feldspars, we have investigated the thermal expansion of plagioclase, Ba-K, and Ca-K feldspar crystalline solutions. X-ray powder diffraction data were collected between room temperature and 925[degrees]C on six natural plagioclase specimens ranging in composition from anorthite to oligoclase (and as well on their K-exchanged equivalents) and five synthetic Ba-K feldspars with compositions from 25 to 99 mol% Ba[Al.sub.2][Si.sub.2][O.sub.8]. The resulting thermal expansion coefficients for volume ([[alpha].sub.V]) have been combined with earlier results for end-member Na- and K-feldspars. Unlike Al[Si.sub.3] feldspars, [Al.sub.2][Si.sub.2] feldspars, including anorthite and celsian from the present study, and Sr- and Pb-feldspar from other workers, show essentially constant, and relatively limited, thermal expansion. In the context of structures where the Lowenstein rule requires A1 and Si to alternate among tetrahedra, the proximity of bridging Al-O-Si O atoms to divalent neighbors (ranging from 0 to 2) results in Ca-O (or Ba-O) bonds that are especially short. It is suggested that short bonds such as these have a partly covalent character resulting from the requirement for local charge balance. This, in turn, stiffens the structure. For feldspar series with coupled substitution, the change away from a purely divalent M-site occupant gives the substituting (less strongly bonded) monovalent cations increasingly greater influence on thermal expansion. Overall, thermal expansion in the feldspar system is well represented on a plot of [[alpha].sub.V] against room-temperature volume ([V.sub.RT]), where one sees a quadrilateral bounded by data for: (1) Al[Si.sub.3] feldspars whose expansion behavior is governed largely by the size of the monovalent alkali-site occupant; (2) [Al.sub.2][Si.sub.2] feldspars whose expansion is uniformly limited by divalent cations having stronger, partially covalent, bonds to bridging Al-O-Si O atoms; and (3,4) plagioclase and Ba-K feldspars where expansion behavior across the series transitions from one control to the other. Overall, the coefficient of thermal expansion in any binary feldspar series is a linear function of [V.sub.RT] between the pertinent end-members. This makes it possible to predict the thermal expansion behavior of any feldspar simply from knowledge of its chemical system and room-temperature volume. Keywords: Thermal expansion, feldspars, plagioclase, celsian DOI: 10.2138/am.2010.3484

Published

2010

4. Changes in glacial meltwater alter algal communities in lakes of Scoresby Sund, Renland, East Greenland throughout the Holocene: Abrupt reorganizations began 1000 years before present

Author

Slemmons, Krista EH, primary, Medford, Aaron, additional, Hall, Brenda L, additional, Stone, Jeffery R, additional, McGowan, Suzanne, additional, Lowell, Thomas, additional, Kelly, Meredith, additional, and Saros, Jasmine E, additional

Published

2016

5. Thermal expansion of F-Cl apatite crystalline solutions

Author

Hovis, Guy, primary, Abraham, Tony, additional, Hudacek, William, additional, Wildermuth, Sarah, additional, Scott, Brian, additional, Altomare, Caitlin, additional, Medford, Aaron, additional, Conlon, Maricate, additional, Morris, Matthew, additional, Leaman, Amanda, additional, Almer, Christine, additional, Tomaino, Gary, additional, and Harlov, Daniel, additional

Published

2015

6. Changes in glacial meltwater alter algal communities in lakes of Scoresby Sund, Renland, East Greenland throughout the Holocene: Abrupt reorganizations began 1000 years before present.

Author

Slemmons, Krista E. H., Medford, Aaron, Hall, Brenda L., Stone, Jeffery R., McGowan, Suzanne, Lowell, Thomas, Kelly, Meredith, and Saros, Jasmine E.

Subjects

*ALGAL communities, *GLACIAL melting, *HOLOCENE paleoecology, *MELTWATER, *ALGAL pigments

Abstract

We investigated the response of lake algal communities to changes in glacial meltwater from the Renland Ice Cap (Greenland) through the Holocene to assess whether influxes always elicit consistent responses or novel responses. We measured sedimentary algal pigments in two proximal lakes, snow-fed Raven and glacier- and snow-fed Bunny Lake, and diatom community structure and turnover in Bunny Lake. Diatom data were not available in Raven Lake. We also modeled lake-level change in Bunny Lake to identify how glacial meltwater may have altered diatom habitat availability through time. Through a series of glacier advances and retreats over the Holocene, the algal response in Bunny Lake was relatively constant until approximately 1015 yr BP, after which there were major changes in sedimentary algal remains. Algal pigment concentrations sharply declined, and diatom species richness increased. Diatom community structure underwent three reorganizations. Until 1015 yr BP, assemblages were dominated by Pinnularia braunii and Aulacoseira pffaffiana. However, approximately 1015-480 yr BP, these species declined and Tabellaria flocculosa and Hannaea arcus became a significant component of the assemblage. Approximately 440 yr BP, A. pfaffiana increased along with species indicating elevated nitrogen. In contrast, the algal pigment records from nearby snow-fed Raven Lake showed different and minimal change through time. Our results suggest that changes in the magnitude and composition of meltwater in our two study lakes were unique over the last 1000 yr BP and elicited a non-linear threshold response absent during other periods of glacier advance and retreat. Deciphering the degree to which glaciers structure algal communities over time has strong implications for lakes as glaciers continue to recede. [ABSTRACT FROM AUTHOR]

Published

2017

7. Changes in glacial meltwater alter algal communities in lakes of Scoresby Sund, Renland, East Greenland throughout the Holocene: abrupt reorganizations began 1000 years before present

Author

Slemmons, Krista E.H., Medford, Aaron, Hall, Brenda L., Stone, Jeffery R., McGowan, Suzanne, Lowell, Thomas, Kelly, Meredith, Saros, Jasmine E., Slemmons, Krista E.H., Medford, Aaron, Hall, Brenda L., Stone, Jeffery R., McGowan, Suzanne, Lowell, Thomas, Kelly, Meredith, and Saros, Jasmine E.

Abstract

We investigated the response of lake algal communities to changes in glacial meltwater from the Renland Ice Cap (Greenland) through the Holocene to assess whether influxes always elicit consistent responses or novel responses. We measured sedimentary algal pigments in two proximal lakes, snow-fed Raven and glacier- and snow-fed Bunny Lake, and diatom community structure and turnover in Bunny Lake. Diatom data were not available in Raven Lake. We also modeled lake-level change in Bunny Lake to identify how glacial meltwater may have altered diatom habitat availability through time. Through a series of glacier advances and retreats over the Holocene, the algal response in Bunny Lake was relatively constant until approximately 1015 yr BP, after which there were major changes in sedimentary algal remains. Algal pigment concentrations sharply declined, and diatom species richness increased. Diatom community structure underwent three reorganizations. Until 1015 yr BP, assemblages were dominated by Pinnularia braunii and Aulacoseira pffaffiana. However, approximately 1015–480 yr BP, these species declined and Tabellaria flocculosa and Hannaea arcus became a significant component of the assemblage. Approximately 440 yr BP, A. pfaffiana increased along with species indicating elevated nitrogen. In contrast, the algal pigment records from nearby snow-fed Raven Lake showed different and minimal change through time. Our results suggest that changes in the magnitude and composition of meltwater in our two study lakes were unique over the last 1000 yr BP and elicited a non-linear threshold response absent during other periods of glacier advance and retreat. Deciphering the degree to which glaciers structure algal communities over time has strong implications for lakes as glaciers continue to recede.

8. Changes in glacial meltwater alter algal communities in lakes of Scoresby Sund, Renland, East Greenland throughout the Holocene: abrupt reorganizations began 1000 years before present

Author

Slemmons, Krista E.H., Medford, Aaron, Hall, Brenda L., Stone, Jeffery R., McGowan, Suzanne, Lowell, Thomas, Kelly, Meredith, Saros, Jasmine E., Slemmons, Krista E.H., Medford, Aaron, Hall, Brenda L., Stone, Jeffery R., McGowan, Suzanne, Lowell, Thomas, Kelly, Meredith, and Saros, Jasmine E.

Abstract

We investigated the response of lake algal communities to changes in glacial meltwater from the Renland Ice Cap (Greenland) through the Holocene to assess whether influxes always elicit consistent responses or novel responses. We measured sedimentary algal pigments in two proximal lakes, snow-fed Raven and glacier- and snow-fed Bunny Lake, and diatom community structure and turnover in Bunny Lake. Diatom data were not available in Raven Lake. We also modeled lake-level change in Bunny Lake to identify how glacial meltwater may have altered diatom habitat availability through time. Through a series of glacier advances and retreats over the Holocene, the algal response in Bunny Lake was relatively constant until approximately 1015 yr BP, after which there were major changes in sedimentary algal remains. Algal pigment concentrations sharply declined, and diatom species richness increased. Diatom community structure underwent three reorganizations. Until 1015 yr BP, assemblages were dominated by Pinnularia braunii and Aulacoseira pffaffiana. However, approximately 1015–480 yr BP, these species declined and Tabellaria flocculosa and Hannaea arcus became a significant component of the assemblage. Approximately 440 yr BP, A. pfaffiana increased along with species indicating elevated nitrogen. In contrast, the algal pigment records from nearby snow-fed Raven Lake showed different and minimal change through time. Our results suggest that changes in the magnitude and composition of meltwater in our two study lakes were unique over the last 1000 yr BP and elicited a non-linear threshold response absent during other periods of glacier advance and retreat. Deciphering the degree to which glaciers structure algal communities over time has strong implications for lakes as glaciers continue to recede.

9. Changes in glacial meltwater alter algal communities in lakes of Scoresby Sund, Renland, East Greenland throughout the Holocene: abrupt reorganizations began 1000 years before present

Author

Slemmons, Krista E.H., Medford, Aaron, Hall, Brenda L., Stone, Jeffery R., McGowan, Suzanne, Lowell, Thomas, Kelly, Meredith, Saros, Jasmine E., Slemmons, Krista E.H., Medford, Aaron, Hall, Brenda L., Stone, Jeffery R., McGowan, Suzanne, Lowell, Thomas, Kelly, Meredith, and Saros, Jasmine E.

Abstract

We investigated the response of lake algal communities to changes in glacial meltwater from the Renland Ice Cap (Greenland) through the Holocene to assess whether influxes always elicit consistent responses or novel responses. We measured sedimentary algal pigments in two proximal lakes, snow-fed Raven and glacier- and snow-fed Bunny Lake, and diatom community structure and turnover in Bunny Lake. Diatom data were not available in Raven Lake. We also modeled lake-level change in Bunny Lake to identify how glacial meltwater may have altered diatom habitat availability through time. Through a series of glacier advances and retreats over the Holocene, the algal response in Bunny Lake was relatively constant until approximately 1015 yr BP, after which there were major changes in sedimentary algal remains. Algal pigment concentrations sharply declined, and diatom species richness increased. Diatom community structure underwent three reorganizations. Until 1015 yr BP, assemblages were dominated by Pinnularia braunii and Aulacoseira pffaffiana. However, approximately 1015–480 yr BP, these species declined and Tabellaria flocculosa and Hannaea arcus became a significant component of the assemblage. Approximately 440 yr BP, A. pfaffiana increased along with species indicating elevated nitrogen. In contrast, the algal pigment records from nearby snow-fed Raven Lake showed different and minimal change through time. Our results suggest that changes in the magnitude and composition of meltwater in our two study lakes were unique over the last 1000 yr BP and elicited a non-linear threshold response absent during other periods of glacier advance and retreat. Deciphering the degree to which glaciers structure algal communities over time has strong implications for lakes as glaciers continue to recede.

10. Changes in glacial meltwater alter algal communities in lakes of Scoresby Sund, Renland, East Greenland throughout the Holocene: abrupt reorganizations began 1000 years before present

Author

Slemmons, Krista E.H., Medford, Aaron, Hall, Brenda L., Stone, Jeffery R., McGowan, Suzanne, Lowell, Thomas, Kelly, Meredith, Saros, Jasmine E., Slemmons, Krista E.H., Medford, Aaron, Hall, Brenda L., Stone, Jeffery R., McGowan, Suzanne, Lowell, Thomas, Kelly, Meredith, and Saros, Jasmine E.

Abstract

We investigated the response of lake algal communities to changes in glacial meltwater from the Renland Ice Cap (Greenland) through the Holocene to assess whether influxes always elicit consistent responses or novel responses. We measured sedimentary algal pigments in two proximal lakes, snow-fed Raven and glacier- and snow-fed Bunny Lake, and diatom community structure and turnover in Bunny Lake. Diatom data were not available in Raven Lake. We also modeled lake-level change in Bunny Lake to identify how glacial meltwater may have altered diatom habitat availability through time. Through a series of glacier advances and retreats over the Holocene, the algal response in Bunny Lake was relatively constant until approximately 1015 yr BP, after which there were major changes in sedimentary algal remains. Algal pigment concentrations sharply declined, and diatom species richness increased. Diatom community structure underwent three reorganizations. Until 1015 yr BP, assemblages were dominated by Pinnularia braunii and Aulacoseira pffaffiana. However, approximately 1015–480 yr BP, these species declined and Tabellaria flocculosa and Hannaea arcus became a significant component of the assemblage. Approximately 440 yr BP, A. pfaffiana increased along with species indicating elevated nitrogen. In contrast, the algal pigment records from nearby snow-fed Raven Lake showed different and minimal change through time. Our results suggest that changes in the magnitude and composition of meltwater in our two study lakes were unique over the last 1000 yr BP and elicited a non-linear threshold response absent during other periods of glacier advance and retreat. Deciphering the degree to which glaciers structure algal communities over time has strong implications for lakes as glaciers continue to recede.