Acosta M., Pavelka M., Montagnani L., Kutsch W., Lindroth A., Juszczak R., and Janouš D., 2013. Soil surface CO2 efflux measurements in Norway spruce forests: Comparison between four different sites across Europe-from boreal to alpine forest. Geoderma, 192, 295-303.
Arias-Navarro C., Díaz-Pinés E., Kiese R., Rosenstock T.S., Rufino M.C., Stern D., Neufeldt H., Verchot L.V., and Butterbach-Bahl K., 2013. Gas pooling: A sampling technique to overcome spatial heterogeneity of soil carbon dioxide and nitrous oxide fluxes. Soil Biol. Biochem., 67, 20-23.
Aubinet M., Vesala T., and Papale D., (Eds), 2012. Eddy covariance: A practical guide to measurement and data analysis. Springer Science & Business Media, Dordrecht, Heidelberg, London, New York.
Bahn M., Kutsch W.L., Heinemeyer A., and Janssens I.A., 2009. Towards a standardized protocol for the measurement of soil CO2 efflux. In: Soil Carbon Dynamics: An Integrated Methodology (Eds W.L. Kutsch, M. Bahn, A. Heinemeyer). Cambridge University Press, 272-281.
Bain W.G., Hutyra L., Patterson D.C., Bright A.V., Daube B.C., Munger J.W., and Wofsy S.C., 2005. Wind-induced error in the measurement of soil respiration using closed dynamic chamber. Agric. For. Meteorol., 131, 225-232.
BrUmmer C., Lyshede B., Lempio D., Delorme J.P., RUffer J.J., Fuß R., Moffat A. M., Hurkuck M., Ibrom A., Ambus P., Flessa H., and Kuscht W.L., 2017. Gas chromatography vs. quantum cascade laser-based N2O flux measurements using a novel chamber design. Biogeosciences, 14(6), 1365-1381.
Butterbach-Bahl K., Sander B.O., Pelster D., and Díaz-Pinés E., 2016. Quantifying greenhouse gas emissions from managed and natural soils. In Methods for Measuring Greenhouse Gas Balances and Evaluating Mitigation Options in Small-holder Agriculture (pp. 71-96). Springer International Publishing.
Christiansen J.R., Korhonen J.F.J., Juszczak R., Giebels M., and Pihlatie M., 2011. Assessing the effects of chamber placement, manual sampling and headspace mixing on CH4 fluxes in a laboratory experiment. Plant Soil, 343, 171-185.
Darenova E., Pavelka M., and Acosta M., 2014. Diurnal deviations in the relationship between CO2 efflux and temperature: A case study. Catena, 123, 263-269.
Davidson E.A., Savage K., Verchot L.V., and Navarro R., 2002. Minimizing artifacts and biases in chamber-based measurements of soil respiration. Agric. For. Meteorol., 113(1), 21-37.
Denmead O.T., 2008. Approaches to measuring fluxes of methane and nitrous oxide between landscapes and the atmosphere. Plant Soil, 309(1), 5-24.
De Klein C., and Harvey M., (Eds), 2013. Nitrous Oxide Chamber Methodology Guidelines, Global Research Alliance on Agricultural Greenhouse Gases. Publisher: Ministry of Primary Industries, Wellington, New Zealand.
Fang C. and Moncrieff J.B., 1996. An improved dynamic chamber technique for measuring CO2 efflux from the surface of soil. Funct. Ecol., 297-305.
Graf A., WeihermUller L., Huisman J.A., Herbst M., Bauer J., and Vereecken H., 2008. Measurement depth effects on the apparent temperature sensitivity of soil respiration in field studies. Biogeosciences, 5, 1175-1188.
IPCC, 2013. Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change (Eds T.F. Stocker, D. Qin, G.-K. Plattner, M. Tignor, S.K. Allen, J. Boschung, A. Nauels, Y. Xia, V. Bex, P.M. Midgley). Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA.
Heinemeyer A. and McNamara N.P., 2011. Comparing the closed static versus the closed dynamic chamber flux methodology: Implications for soil respiration studies. Plant Soil, 346(1-2), 145-151.
Hensen A., Groot T.T., Van den Bulk W.C.M., Vermeulen A.T., Olesen J.E., and Schelde K., 2006. Dairy farm CH4 and N2O emissions, from one square metre to the full farm scale. Agric. Ecosyst. Environ., 112, 146-152.
Hutchinson G.L. and Mosier A.R., 1981. Improved soil cover method for field measurement of nitrous oxide fluxes. Soil Sci. Soc. Am. J., 45(2), 311-316.
Korkiakoski M., Minkkinen K., Ojanen P., Penttilä T., Koskinen M., Laurila T., and Lohila A., 2017. Methane 1208 exchange at the peatland forest floor-Automatic chamber system exposes the dynamics of small 1209 fluxes. Biogeosciences 14, 1947-1967.
Kutsch W.L., Staack A., Wötzel J., Middelhoff U., and Kappen L., 2001. Field measurements of root respiration and total soil respiration in an alder forest. New Phytol., 150, 157-168.
Kutsch W.L., Bahn M., and Heinemeyer A., 2009. Soil carbon dynamics: An integrated methodology. Cambridge University Press, Cambridge, United Kingdom.
Le Dantec V., Epron D., and Dufrene E., 1999. Soil CO2 efflux in a beech forest: comparison of two closed dynamic systems. Plant Soil, 214, 125-132.
Livingston G.P. and Hutchinson G.L., 1995. Enclosure-based measurement of trace gas exchange: Applications and sources of error. Biogenic trace gases: measuring emissions from soil and water, 14-51.
Longdoz B., Yernaux M., and Aubinet M., 2000. Soil CO2 efflux measurements in a mixed forest: impact of chamber distances, spatial variability and seasonal evolution. Glob. Change Biol., 6, 907-17.
Lundegardh H., 1927. Carbon dioxide evolution of soil and crop growth. Soil Science, 23(6), 417-453.
Mariko S., Nishimura N., Mo W., Matsui Y., Kibe T., and Koizumi H., 2000. Winter CO2 flux from soil and snow surfaces in a cool-Temperate deciduous forest, Japan. Ecol. Res., 15(4), 363-372.
Merbold L., Ziegler W., Mukelabai M.M., and Kutsch W.L., 2011. Spatial and temporal variation of CO2 efflux along a disturbance gradient in a miombo woodland in Western Zambia. Biogeosciences, 8, 147-164.
Merbold L., Steinlin C., and Hagedorn F., 2013. Winter greenhouse gas fluxes (CO2, CH4 and N2O) from a subalpine grassland. Biogeosciences, 10(5), 3185-3203.
Parkin T.B. and Venterea R.T., 2010. Sampling Protocols. Chapter 3. Chamber-based trace gas flux measurements. In: Sampling Protocols (Ed R.F. Follet), p.3-1 to 3-39. Available at: www.ars.usda.gov/research/GRACEnet.
Pavelka M., Acosta M., Marek M.V., Kutsch W., and Janouš D., 2007. Dependence of Q10 values on the depth of the soil temperature measuring point. Plant Soil, 292, 171-179.
Pihlatie M., Pumpanen J., Rinne J., Ilvesniemi H., Simojoki A., Hari P., and Vesala T., 2007. Gas concentration driven fluxes of nitrous oxide and carbon dioxide in boreal forest soil. Tellus, 59B, 458-469.
Pihlatie M.K., Christiansen J.R., Aaltonen H., Korhonen J.F., Nordbo A., Rasilo T., and Jones S., 2013. Comparison of static chambers to measure CH4 emissions from soils. Agric. For. Meteorol., 171, 124-136.
Pumpanen J., Kolari P., Ilvesniemi H., Minkkinen K., Vesala T., Niinistö S., and Janssens I., 2004. Comparison of different chamber techniques for measuring soil CO2 efflux. Agric. For. Meteorol., 123(3), 159-176.
Pumpanen J., Ilvesniemi H., Kulmala L., Siivola E., Laakso H., Kolari P., Helenelund C., Laakso M., Uusimaa M., and Hari P., 2008. Respiration in boreal forest soil as determined from carbon dioxide concentration profile. Soil Sci. Soc. Am. J., 72, 1187-1196.
Pumpanen J., Longdoz B., and Kutsch W.L., 2009. Field measurements of soil respiration: principles and constraints, potentials and limitations of different methods. In: Soil Carbon Dynamics: An Integrated Methodology (Eds W.L. Kutsch, M. Bahn, A. Heinemeyer). Cambridge University Press, 16-33.
Rochette P. and Bertrand N., 2003. Soil air sample storage and handling using polypropylene syringes and glass vials. Can. J. Soil Sci. 83(5), 631-637.
Sánchez-Cañete E.P., Scott R.L., Haren J., and Barron-Gafford G.A., 2016. Improving the accuracy of the gradient method for determining soil carbon dioxide efflux. J. Geophysical Research: Biogeosciences, 122(1), 50-64.
Savage K.E. and Davidson E.A., 2003. A comparison of manual and automated systems for soil CO2 flux measurements: Trade-offs between spatial and temporal resolution. J. Exp. Bot., 54(384), 891-899.
Subke J.A. and Bahn M., 2010. On the ?temperature sensitivity? of soil respiration: Can we use the immeasurable to predict the unknown? Soil Biol. Biochem., 42(9), 1653-1656.
Suzuki S., Ishizuka S., Kitamura K., Yamanoi K., and Nakai Y., 2006. Continuous estimation of winter carbon dioxide efflux from the snow surface in a deciduous broadleaf forest. J. Geophys. Res. Atmos., 111(D17), 1-9.
Wang K., Zheng X., Pihlatie M., Vesala T., Liu C., Haapanala S., Mammarella I., Rannik U., and Liu H., 2013. Comparison between static chamber and tunable diode laser-based eddy covariance techniques for measuring nitrous oxide fluxes from a cotton field. Agric. For. Meteor., 171, 9-19.
Wohlfahrt G., Anfang C., Bahn M., Haslwanter A., Newesely C., Schmitt M., Drösler M., Pfadenhauer J., and Cernusca A., 2005. Quantifying nighttime ecosystem respiration of a meadow using eddy covariance, chambers and modelling. Agric. For. Meteorol., 128(3), 141-162.
WMO, 2016. World Meteorological Organization, Greenhouse Gas Bulletin 12, http://www.wmo.int/pages/prog/arep/gaw/ghg/GHGbulletin.html
Xu L., Furtaw M.D., Madsen R.A., Garcia R.L., Anderson D.J., and McDermitt D.K., 2006. On maintaining pressure equilibrium between a soil CO2 flux chamber and the ambient air. J. Geophys. Res-Atmos., 111(D8).
Yim M.H., Joo S.J., Shutou K., and Nakane K., 2003. Spatial variability of soil respiration in a larch plantation: estimation of the number of sampling points required. For. Ecol. Manage., 175(1), 585-588.