1. Contrasting responses of growing season ecosystem CO2 exchange to variation in temperature and water table depth in two peatlands in northern Alberta, Canada;Adkinson;J. Geophys. Res.,2011
2. Ahmadi, J., Kahforoushan, D., Fatehifar, E., Benis, K.Z., Nadjafi, M., (2016). Drying of Urmia Lake modeling of level fluctuations. Social Science Electronic Publishing, 3(1): 23–28. https://www.researchgate.net/publication/301585177.
3. Angle, J.C., Morin T.H., Solden, L.M., Narrowe, A.B., Smith, G.J., Borton, M.A., Rey-Sanchez, C., Daly, R.A., Mirfenderesgi, G., Hoyt, D.W., Riley, W.J., Miller, C.S., Bohrer, G., Wright, K.C., (2017). Methanogenesis in oxygenated soils is a substantial fraction of wetland methane emissions. Nature Communications, 8(1): 1567. http://doi:10.1038/s41467-017-01753-4.
4. Long-term water table manipulations alter peatland gaseous carbon fluxes in Northern Michigan;Ballantyne;Wetlands Ecol. Manage.,2014
5. Methane emissions from wetlands: biogeochemical, microbial, and modeling perspectives from local to global scales;Bridgham;Glob Chang Biol,2013