Annighoefer, P. (2016). Species-specific and generic biomass equations for seedlings and saplings of European tree species. European Journal of Forest Research, 135, 313-329.
Ardalan Daryaei, H. S. (2015). Additive biomass equations for small diameter trees of temperate mixed deciduous forests. Scandinavian Journal of Forest Research, 393-398.
Fehrmann, L., & Kleinn, C. (2006, September). General considerations about the use of allometric equations for biomass estimation on the example of Norway spruce in central Europe. Forest Ecology and Management, 236, 412-421.
Dimitris Zianis, P. M. (2005). Biomass and Stem Volume Equations for Tree Species in Europe. Silva Fennica, 1-63.
Dutca, I., Mather, R., & Ioras, F. (2018). Tree biomass allometry during the early growth of norway spruce varies between pure stands and mixtures with European beech. NRC Research press, 77-84.
Grossmann, J., Vanhellemont, M., & Barsoum, N. (2018). Synthesis and future research directions linking tree diversity to growth, survival, and damage in a global network of tree diversity experiments. Environmental and Experimental Botany, 68-89.
Tobner, C., Paquette, A., & Gravel, D. (2016). Functional identity is the main driver of diversity effects in young tree communities. Ecology Letters.
Kaendler, e. a. (2006). Herleitung von Biomassefunktionen - erste Ergebnisse. DVFFA-Sektion Ertragskunde. BW.
Ardalan Daryaei, H. S. (2015). Additive biomass equations for small diameter trees of temperate mixed deciduous forests. Scandinavian Journal of Forest Research, 393-398.
Fehrmann, L., & Kleinn, C. (2006, September). General considerations about the use of allometric equations for biomass estimation on the example of Norway spruce in central Europe. Forest Ecology and Management, 236, 412-421.
Dimitris Zianis, P. M. (2005). Biomass and Stem Volume Equations for Tree Species in Europe. Silva Fennica, 1-63.
Dutca, I., Mather, R., & Ioras, F. (2018). Tree biomass allometry during the early growth of norway spruce varies between pure stands and mixtures with European beech. NRC Research press, 77-84.
Grossmann, J., Vanhellemont, M., & Barsoum, N. (2018). Synthesis and future research directions linking tree diversity to growth, survival, and damage in a global network of tree diversity experiments. Environmental and Experimental Botany, 68-89.
Tobner, C., Paquette, A., & Gravel, D. (2016). Functional identity is the main driver of diversity effects in young tree communities. Ecology Letters.
Kaendler, e. a. (2006). Herleitung von Biomassefunktionen - erste Ergebnisse. DVFFA-Sektion Ertragskunde. BW.