C. M. Reynolds scite author profile

Gas diffusion through the porous microstructure of sea ice represents a pathway for ocean–atmosphere exchange and for transport of biogenic gases produced within sea ice. We report on the experimental determination of the bulk gas diffusion coefficients, D, for oxygen (O2) and sulphur hexafluoride (SF6) through columnar sea ice under constant ice thickness conditions for ice surface temperatures between −4 and −12 °C. Profiles of SF6 through the ice indicate decreasing gas concentration from the ice/water interface to the ice/air interface, with evidence for solubility partitioning between gas‐filled and liquid‐filled pore spaces. On average, was 1.3 × 10−4 cm2 s−1 (±40%) and was 3.9 × 10−5 cm2 s−1 (±41%). The preferential partitioning of SF6 to the gas phase, which is the dominant diffusion pathway produced the greater rate of SF6 diffusion. Comparing these estimates of D with an existing estimate of the air–sea gas transfer through leads indicates that ventilation of the mixed layer by diffusion through sea ice may be negligible, compared to air–sea gas exchange through fractures in the ice pack, even when the fraction of open water is less than 1%.

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Phytodegradation of organic compounds

Newman

Reynolds

2004

Current Opinion in Biotechnology

321

112

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Presidedress Soil Nitrate Test Evaluation in Maryland

Meisinger

Bandel

Angle

et al. 1992

Soil Science Society of America Journal

115

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Bacteria and phytoremediation: new uses for endophytic bacteria in plants

Newman

Reynolds

2005

Trends in Biotechnology

204

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Rhizosphere microbial populations in contaminated soils

Nichols

Wolf

Rogers

et al. 1997

Water Air Soil Pollut

131

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Abstract. Rhizosphere microbial populations may increase bioremediation of soil contaminated with organic chemicals. A growth chamber study was conducted to evaluate rhizosphere microbial populations in contaminated and non-contaminated soil. Alfalfa (Medicago sativa L.) and alpine bluegrass (Poa alpina L.) were grown in soil containing a mixture of organic chemicals for 14 weeks. The equal millimolar mixture of hexadecane, (2,2-dimethylpropyl)benzene, cis-decahydronaphthalene (decalin), benzoic acid, phenanthrene, and pyrene was added at levels of 0 and 2000 mg/kg. Organic chemical degrader (OCD) populations were assessed by a Most-Probable-Number technique, and bacteria and fungi were enumerated by plate count methods. Different methods for expressing OCD rhizosphere populations were investigated to determine the effect it had on interpretation of the results. At 9 weeks, the OCD numbers were significantly higher in rhizosphere and contaminated soils than in bulk and non-contaminated soils, respectively. Alfalfa rhizosphere OCD levels were 4 x 107/g for contaminated and 6 x 106/g for non-contaminated soils. Bluegrass rhizosphere OCD levels were 1 • 107/g and 1 x 106/g in contaminated and non-contaminated soils, respectively. Selective enrichment of OCD populations was observed in contaminated rhizosphere soil. Higher numbers of OCD in contaminated rhizospheres suggest potential stimulation of bioremediation around plant roots.

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C. M. Reynolds

Gas diffusion through columnar laboratory sea ice: implications for mixed-layer ventilation of CO2 in the seasonal ice zone

Phytodegradation of organic compounds

Presidedress Soil Nitrate Test Evaluation in Maryland

Bacteria and phytoremediation: new uses for endophytic bacteria in plants

Rhizosphere microbial populations in contaminated soils

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