Redox and temperature-sensitive changes in microbial communities and soil chemistry dictate greenhouse gas loss from thawed permafrost

Chicago citation style
Brewer, Paul E, Calderon, Francisco J, Ernakovich, Jessica G, Lynch, Laurel M, Wallenstein, Matthew D. Redox and temperature-sensitive changes in microbial communities and soil chemistry dictate greenhouse gas loss from thawed permafrost. 2017. Retrieved from the Digital Public Library of America, http://collections.si.edu/search/results.htm?q=record_ID%3ASILSRO_143461&repo=DPLA. (Accessed December 16, 2018.)
APA citation style
Brewer, Paul E, Calderon, Francisco J, Ernakovich, Jessica G, Lynch, Laurel M, Wallenstein, Matthew D, (2017) Redox and temperature-sensitive changes in microbial communities and soil chemistry dictate greenhouse gas loss from thawed permafrost. Retrieved from the Digital Public Library of America, http://collections.si.edu/search/results.htm?q=record_ID%3ASILSRO_143461&repo=DPLA
MLA citation style
Brewer, Paul E, Calderon, Francisco J, Ernakovich, Jessica G, Lynch, Laurel M, Wallenstein, Matthew D. Retrieved from the Digital Public Library of America <http://collections.si.edu/search/results.htm?q=record_ID%3ASILSRO_143461&repo=DPLA>.
Note: These citations are programmatically generated and may be incomplete.