Species-specific and generic biomass equations for seedlings and saplings of European tree species

Equations de biomasse spécifiques et génériques pour les plantules et plants des espèces d'arbre européen

Annighöfer, P. ; Ameztegui, A. ; Ammer, C. ; Balandier, P. ; Bartsch, N. ; Bolte, A. ; Coll, L. ; Collet, C. ; Ewald, J. ; Frischbier, N. ; Gebereyesus, T. ; Haase, J. ; Hamm, T. ; Hirschfelder, B. ; Huth, F. ; Kändler, G. ; Kahl, A. ; Kawaletz, H. ; Kuehne, C. ; Lacointe, A. ; Lin, N. ; Löf, M. ; Malagoli, P. ; Marquier, A. ; Müller, S. ; Promberger, S. ; Provendier, D. ; Röhle, H. ; Sathornkich, J. ; Schall, P. ; Scherer Lorenzen, M. ; Schröder, J. ; Seele, C. ; Weidig, J. ; Wirth, C. ; Wolf, H. ; Wollmerstädt, J. ; Mund, M.

Type de document
Article de revue scientifique à comité de lecture
Langue
Anglais
Affiliation de l'auteur
UNIVERSITY OF GOTTINGEN DEU ; FOREST SCIENCES CENTRE OF CATALONIA CEMFOR-CTFC SOLSONA ESP ; UNIVERSITY OF GOTTINGEN DEU ; IRSTEA NOGENT SUR VERNISSON UR EFNO FRA ; UNIVERSITY OF GOTTINGEN DEU ; THUNEN INSTITUTE OF FOREST ECOSYSTEMS EBERSWALDE DEU ; FOREST SCIENCES CENTRE OF CATALONIA CEMFOR-CTFC SOLSONA ESP ; INRA UMR 1092 LABORATOIRE D'ETUDE DES RESSOURCES FORET BOIS CHAMPENOUX FRA ; UNIVERSITY OF APPLIED SCIENCE WEIHENSTEPHAN TRIESDORF FREISING DEU ; THURINGEN FORST FORESTRY RESEARCH AND COMPETENCE CENTRE GOTHA DEU ; UNIVERSITY OF GOTTINGEN DEU ; UNIVERSITY OF ZURICH INSTITUTE OF EVOLUTIONARY BIOLOGY AND ENVIRONMENTAL STUDIES ZURICH CHE ; UNIVERSITY OF TECHNOLOGY OF DRESDEN INSTITUTE OF SILVICULTURE AND FOREST PROTECTION THARANDT DEU ; UNIVERSITY OF TECHNOLOGY OF DRESDEN INSTITUTE OF SILVICULTURE AND FOREST PROTECTION THARANDT DEU ; UNIVERSITY OF TECHNOLOGY OF DRESDEN INSTITUTE OF SILVICULTURE AND FOREST PROTECTION THARANDT DEU ; FOREST RESEARCH INSTITUTE BADEN WURTTEMBERG DEPARTMENT FOR BIOMETRY AND INFORMATICS FREIBURG DEU ; UNIVERSITY OF LEIPZIG SYSTEMATIC BOTANY AND FUNCTIONAL BIODIVERSITY LEIPZIG DEU ; DBU NATURERBE GMBH OSNABRUCK DEU ; UNIVERSITY OF MAINE SCHOOL OF FOREST RESOURCES ORONO USA ; INRA UMR 547 PIAF CLERMONT FERRAND FRA ; RESEARCH INSTITUTE OF TROPICAL FORESTRY CHINESE ACADEMY OF FORESTRY GUANGZHOU CHN ; SWEDISH UNIVERSITY OF AGRICULTURAL SCIENCE SOUTHERN SWEDISH FOREST RESEARCH CENTRE ALNARP SWE ; UNIVERSITE DE CLERMONT FERRAND II UMR 547 PIAF FRA ; INRA UMR 547 PIAF CLERMONT FERRAND FRA ; UNIVERSITY OF FREIBURG FACULTY OF BIOLOGY GEOBOTANY FREIBURG DEU ; BAVARIAN STATE INSTITUTE OF FORESTRY FREISING DEU ; MAISON DU VEGETAL PLANTE AND CITE ANGERS FRA ; TECHNICAL UNIVERSITY OF DRESDEN INSTITUTE FOR FOREST GROWTH AND BIOMETRICS DRESDEN DEU ; KASETSART UNIVERSITY FACULTY OF AGRICULTURE BANGKOK THA ; UNIVERSITY OF GOTTINGEN DEU ; UNIVERSITY OF FREIBURG FACULTY OF BIOLOGY GEOBOTANY FREIBURG DEU ; EBERSWALDE UNIVERSITY FOR SUSTAINABLE DEVELOPMENT FACULTY OF FOREST AND ENVIRONMENT EBERSWALDE DEU ; UNIVERSITY OF LEIPZIG SYSTEMATIC BOTANY AND FUNCTIONAL BIODIVERSITY LEIPZIG DEU ; UNIVERSITY OF TECHNOLOGY OF DRESDEN INSTITUTE OF SILVICULTURE AND FOREST PROTECTION THARANDT DEU ; UNIVERSITY OF LEIPZIG SYSTEMATIC BOTANY AND FUNCTIONAL BIODIVERSITY LEIPZIG DEU ; STAATSBETRIEB SACHSENFORST DEPARTMENT FOR FOREST GENETICS AND FOREST TREE BREEDING PIRNA DEU ; UNIVERSITY OF TECHNOLOGY OF DRESDEN INSTITUTE OF SILVICULTURE AND FOREST PROTECTION THARANDT DEU ; UNIVERSITY OF GOTTINGEN DEU
Année
2016
Résumé / Abstract
Biomass equations are a helpful tool to estimate the tree and stand biomass production and standing stock. Such estimations are of great interest for science but also of great importance for global reports on the carbon cycle and the global climate system. Even though there are various collections and generic meta-analyses available with biomass equations for mature trees, reports on biomass equations for juvenile trees (seedlings and saplings) are mainly missing. Against the background of an increasing amount of reforestation and afforestation projects and forests in young successional stages, such equations are required. In this study we have collected data from various studies on the aboveground woody biomass of 19 common tree species growing in Europe. The aim of this paper was to calculate species-specific biomass equations for the aboveground woody biomass of single trees in dependence of root-collar-diameter (RCD), height (H) and the combination of the two (RCD2 H). Next to calculating species-specific biomass equations for the species available in the dataset, we also calculated generic biomass equations for all broadleaved species and all conifer species. The biomass equations should be a contribution to the pool of published biomass equations, whereas the novelty is here that the equations were exclusively derived for young trees.
Source
European Journal of Forest Research, vol. 135, num. 2, p. 313 - 329

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