au.\*:("DECKMYN, G")
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The ratio UV-B/photosynthetically active radiation (PAR) determines the sensitivity of rye to increased UV-B radiationDECKMYN, G; IMPENS, I.Environmental and experimental botany. 1997, Vol 37, Num 1, pp 3-12, issn 0098-8472Article
UV-B increases the harvest index of bean (Phaseolus vulgaris L.)DECKMYN, G; IMPENS, I.Plant, cell and environment (Print). 1995, Vol 18, Num 12, pp 1426-1433, issn 0140-7791Article
Enhanced ozone strongly reduces carbon sink strength of adult beech (Fagus sylvatica) - Resume from the free-air fumigation study at Kranzberg ForestMATYSSEK, R; WIESER, G; OSSWALD, W et al.Environmental pollution (1987). 2010, Vol 158, Num 8, pp 2527-2532, issn 0269-7491, 6 p.Article
Poplar growth and yield in short rotation coppice: model simulations using the process model SECRETSDECKMYN, G; LAUREYSENS, I; GARCIA, J et al.Biomass & bioenergy. 2004, Vol 26, Num 3, pp 221-227, issn 0961-9534, 7 p.Article
Simulating C cycles in forest soils: Including the active role of micro-organisms in the ANAFORE forest modelDECKMYN, G; CAMPIOLI, M; MUYS, B et al.Ecological modelling. 2011, Vol 222, Num 12, pp 1972-1985, issn 0304-3800, 14 p.Article
Reduced UV-B in greenhouses decreases white clover response to enhance CO2DECKMYN, G; CAEYENBERGHS, E; CEULEMANS, R et al.Environmental and experimental botany. 2001, Vol 46, Num 2, pp 109-117, issn 0098-8472Article
The importance of the ratio UV-B/photosynthetic active radiation (PAR) during leaf development as determining factor of plant sensitivity to increased UV-B irradiance : effects on growth, gas exchange and pigmentation of beam plants (Phaseolus vulgaris cv. label)DECKMYN, G; MARTENS, C; IMPENS, I et al.Plant, cell and environment (Print). 1994, Vol 17, Num 3, pp 295-301, issn 0140-7791Article
Simulating ectomycorrhizal fungi and their role in carbon and nitrogen cycling in forest ecosystemsDECKMYN, G; MEYER, A; SMITS, M. M et al.Canadian journal of forest research (Print). 2014, Vol 44, Num 6, pp 535-553, issn 0045-5067, 19 p.Article
ANAFORE : A stand-scale process-based forest model that includes wood tissue development and labile carbon storage in treesDECKMYN, G; VERBEECK, H; OP DE BEECK, M et al.Ecological modelling. 2008, Vol 215, Num 4, pp 345-368, issn 0304-3800, 24 p.Article