Kyungjin Min

Affiliations: 
University of Kansas, Lawrence, KS, United States 
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"Kyungjin Min"
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Sharon A. Billings grad student 2017 University of Kansas

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Min K, Choi MA. (2022) Resource landscape, microbial activity, and community composition under wintering crane activities in the Demilitarized Zone, South Korea. Plos One. 17: e0268461
Min K, Berhe AA, Khoi CM, et al. (2020) Differential effects of wetting and drying on soil CO 2 concentration and flux in near-surface vs. deep soil layers Biogeochemistry. 148: 255-269
Min K, Buckeridge K, Ziegler SE, et al. (2019) Temperature sensitivity of biomass-specific microbial exo-enzyme activities and CO efflux is resistant to change across short- and long-term timescales. Global Change Biology
Min K, Lehmeier CA, Ballantyne F, et al. (2019) Corrigendum to Min et al. (2014) “Differential effects of pH on temperature sensitivity of organic carbon and nitrogen decay” [Soil Biology & Biochemistry 76 193–200] Soil Biology and Biochemistry. 139: 107597
Min K, Lehmeier CA, Iv FB, et al. (2016) Carbon Availability Modifies Temperature Responses of Heterotrophic Microbial Respiration, Carbon Uptake Affinity, and Stable Carbon Isotope Discrimination. Frontiers in Microbiology. 7: 2083
Lehmeier CA, Ballantyne F, Min K, et al. (2016) Temperature-mediated changes in microbial carbon use efficiency and 13C discrimination Biogeosciences. 13: 3319-3329
Billings S, Min K, Ballantyne F, et al. (2016) Aging exo-enzymes can create temporally shifting, temperature-dependent resource landscapes for microbes Biogeochemistry. 131: 163-172
Min K, Freeman C, Kang H, et al. (2015) The Regulation by Phenolic Compounds of Soil Organic Matter Dynamics under a Changing Environment. Biomed Research International. 2015: 825098
Min K, Lehmeier CA, Ballantyne F, et al. (2014) Differential effects of pH on temperature sensitivity of organic carbon and nitrogen decay Soil Biology and Biochemistry. 76: 193-200
Lehmeier CA, Min K, Niehues ND, et al. (2013) Temperature-mediated changes of exoenzyme-substrate reaction rates and their consequences for the carbon to nitrogen flow ratio of liberated resources Soil Biology and Biochemistry. 57: 374-382
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