Examination of aboveground attributes to predict belowground biomass of young trees

•Belowground biomass equations for 14 juvenile tree species.•Estimators of root biomass based on tree sapling height, diameter, aboveground biomass.•Broadleaf species with higher root biomass for a given dimension.•Trend of increasing relative belowground biomass with increasing light availability.•...

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Veröffentlicht in:	Forest ecology and management 2022-02, Vol.505, p.119942-11, Article 119942
Hauptverfasser:	Annighöfer, Peter, Mund, Martina, Seidel, Dominik, Ammer, Christian, Ameztegui, Aitor, Balandier, Philippe, Bebre, Ieva, Coll, Lluís, Collet, Catherine, Hamm, Tobias, Huth, Franka, Schneider, Heike, Kuehne, Christian, Löf, Magnus, Mary Petritan, Any, Catalin Petritan, Ion, Peter, Schall, Jürgen, Bauhus
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Sprache:	eng
Schlagworte:	Biomass allometry Forest regeneration Forest Science Height to diameter ratio Life Sciences Root to shoot ratio Saplings Seedlings Skogsvetenskap Vegetal Biology
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creator	Annighöfer, Peter Mund, Martina Seidel, Dominik Ammer, Christian Ameztegui, Aitor Balandier, Philippe Bebre, Ieva Coll, Lluís Collet, Catherine Hamm, Tobias Huth, Franka Schneider, Heike Kuehne, Christian Löf, Magnus Mary Petritan, Any Catalin Petritan, Ion Peter, Schall Jürgen, Bauhus
description	•Belowground biomass equations for 14 juvenile tree species.•Estimators of root biomass based on tree sapling height, diameter, aboveground biomass.•Broadleaf species with higher root biomass for a given dimension.•Trend of increasing relative belowground biomass with increasing light availability.•Height to diameter ratio (HD ratio) negatively correlated to relative belowground biomass. Just as the aboveground tree organs represent the interface between trees and the atmosphere, roots act as the interface between trees and the soil. In this function, roots take-up water and nutrients, facilitate interactions with soil microflora, anchor trees, and also contribute to the gross primary production of forests. However, in comparison to aboveground plant organs, the biomass of roots is much more difficult to study. In this study, we analyzed 19 European datasets on above- and belowground biomass of juvenile trees of 14 species to identify generalizable estimators of root biomass based on tree sapling dimensions (e.g. height, diameter, aboveground biomass). Such estimations are essential growth and sequestration modelling. In addition, the intention was to study the effect of sapling dimension and light availability on biomass allocation to roots. All aboveground variables were significant predictors for root biomass. But, among aboveground predictors of root biomass plant height performed poorest. When comparing conifer and broadleaf species, the latter tended to have a higher root biomass at a given dimension. Also, with increasing size, the share of belowground biomass tended to increase for the sapling dimensions considered. In most species, there was a trend of increasing relative belowground biomass with increasing light availability. Finally, the height to diameter ratio (H/D) was negatively correlated to relative belowground biomass. This indicates that trees with a high H/D are not only more unstable owing to the unfavorable bending stress resistance, but also because they are comparatively less well anchored in the ground. Thus, single tree stability may be improved through increasing light availability to increase the share of belowground biomass.
doi_str_mv	10.1016/j.foreco.2021.119942
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Just as the aboveground tree organs represent the interface between trees and the atmosphere, roots act as the interface between trees and the soil. In this function, roots take-up water and nutrients, facilitate interactions with soil microflora, anchor trees, and also contribute to the gross primary production of forests. However, in comparison to aboveground plant organs, the biomass of roots is much more difficult to study. In this study, we analyzed 19 European datasets on above- and belowground biomass of juvenile trees of 14 species to identify generalizable estimators of root biomass based on tree sapling dimensions (e.g. height, diameter, aboveground biomass). Such estimations are essential growth and sequestration modelling. In addition, the intention was to study the effect of sapling dimension and light availability on biomass allocation to roots. All aboveground variables were significant predictors for root biomass. 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Just as the aboveground tree organs represent the interface between trees and the atmosphere, roots act as the interface between trees and the soil. In this function, roots take-up water and nutrients, facilitate interactions with soil microflora, anchor trees, and also contribute to the gross primary production of forests. However, in comparison to aboveground plant organs, the biomass of roots is much more difficult to study. In this study, we analyzed 19 European datasets on above- and belowground biomass of juvenile trees of 14 species to identify generalizable estimators of root biomass based on tree sapling dimensions (e.g. height, diameter, aboveground biomass). Such estimations are essential growth and sequestration modelling. In addition, the intention was to study the effect of sapling dimension and light availability on biomass allocation to roots. All aboveground variables were significant predictors for root biomass. But, among aboveground predictors of root biomass plant height performed poorest. When comparing conifer and broadleaf species, the latter tended to have a higher root biomass at a given dimension. Also, with increasing size, the share of belowground biomass tended to increase for the sapling dimensions considered. In most species, there was a trend of increasing relative belowground biomass with increasing light availability. Finally, the height to diameter ratio (H/D) was negatively correlated to relative belowground biomass. This indicates that trees with a high H/D are not only more unstable owing to the unfavorable bending stress resistance, but also because they are comparatively less well anchored in the ground. 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subjects	Biomass allometry Forest regeneration Forest Science Height to diameter ratio Life Sciences Root to shoot ratio Saplings Seedlings Skogsvetenskap Vegetal Biology
title	Examination of aboveground attributes to predict belowground biomass of young trees
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