Dry Weight (Biomass) References
Phleum pratense [Timothy]


Juknys, R., Duchovskis, P., Sliesaravicius, A., Slepetys, J., Januskaitiene, I., Brazaityte, A., Ramaskeviciene, A., Lazauskas, S., Dedeliene, K., Sakalauskaite, J., Juozaityte, R., Kadziuliene, Z. and Diksaityte, A. 2011. Response of different agricultural plants to elevated CO2 and air temperature. Zemdirbyste=Agriculture 98: 259-266.

Kettunen, R., Saarnio, S., Martikainen, P. and Silvola, J. 2005. Elevated CO2 concentration and nitrogen fertilization effects on N2O and CH4 fluxes and biomass production of Phleum pretense on farmed peat soil. Soil Biology & Biochemistry 37: 739-750.

Kettunen, R., Saarnio, S., Martikainen, P.J. and Silvola, J. 2006. Increase of N2O fluxes in agricultural peat and sandy soil under elevated CO2 concentration: concomitant changes in soil moisture, groundwater table and biomass production of Phleum pratense. Nutrient Cycling in Agroecosystems 74: 175-189.

Kettunen, R., Saarnio, S., Martikainen, P.J. and Silvola, J. 2007a. Can a mixed stand of N2-fixing and non-fixing plants restrict N2O emissions with increasing CO2 concentration? Soil Biology & Biochemistry 39: 2538-2546.

Kettunen, R., Saarnio, S. and Silvola, J. 2007b. N2O fluxes and CO2 exchange at different N doses under elevated CO2 concentration in boreal agricultural mineral soil under Phleum pratense. Nutrient Cycling in Agroecosystems 78: 197-209.

Saebo, A. and Mortensen, L.M. 1995. Growth and regrowth of Phleum pratense, Lolium perenne, Trifolium repens and Trifolium pratense at normal and elevated CO2 concentration. Agriculture, Ecosystems and Environment 55: 29-35

Wolf, J., O'Neill, N.R., Rogers, C.A., Muilenberg, M.L. and Ziska, L.H. 2010. Elevated atmospheric carbon dioxide concentrations amplify Alternaria alternata sporulation and total antigen production. Environmental Health Perspectives 118: 1223-1228.


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