Linus De Roo

Carbon isotope composition of respired CO2 in woody stems and leafy shoots of three tree species along the growing season: physiological drivers for respiratory fractionation

Roberto Luis Salomon Moreno (UGent) , Jesús Rodríguez Calcerrada (UGent) , Linus De Roo, Jose Carlos Miranda, Samuel Bodé (UGent) , Pascal Boeckx (UGent) and Kathy Steppe (UGent)

(2023) TREE PHYSIOLOGY. 43(10). p.1731-1744

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Limited mitigating effects of elevated CO2 in young aspen trees to face drought stress

Fran Lauriks, Roberto Luis Salomon Moreno (UGent) , Linus De Roo, Juan Sobrino-Plata, Aida Rodriguez-Garcia and Kathy Steppe (UGent)

(2022) ENVIRONMENTAL AND EXPERIMENTAL BOTANY. 201.

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Journal Article
A1
open access

Mechanistic drivers of stem respiration : a modelling exercise across species and seasons

Roberto Luis Salomon Moreno (UGent) , Linus De Roo, Jacek Oleksyn and Kathy Steppe (UGent)

(2022) PLANT CELL AND ENVIRONMENT. 45(4). p.1270-1285

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Limited plasticity of anatomical and hydraulic traits in aspen trees under elevated CO2 and seasonal drought

Fran Lauriks, Roberto Luis Salomon Moreno (UGent) , Linus De Roo, Willem Goossens (UGent) , Olivier Leroux (UGent) and Kathy Steppe (UGent)

(2022) PLANT PHYSIOLOGY. 188(1). p.268-284

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Journal Article
A1
open access

Leaf and tree responses of young European aspen trees to elevated atmospheric CO2 concentration vary over the season

Fran Lauriks, Roberto Luis Salomon Moreno (UGent) , Linus De Roo and Kathy Steppe (UGent)

(2021) TREE PHYSIOLOGY. 41(10). p.1877-1892

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Journal Article
A1
open access

Efflux and assimilation of xylem-transported CO2 in stems and leaves of tree species with different wood anatomy

Roberto Luis Salomon Moreno (UGent) , Linus De Roo, Samuel Bodé (UGent) , Pascal Boeckx (UGent) and Kathy Steppe (UGent)

(2021) PLANT CELL AND ENVIRONMENT. 44(11). p.3494-3508

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Woody tissue photosynthesis increases radial stem growth of young poplar trees under ambient atmospheric CO2 but its contribution ceases under elevated CO2

Linus De Roo, Fran Lauriks, Roberto Luis Salomon Moreno (UGent) , Jacek Oleksyn and Kathy Steppe (UGent)

(2020) TREE PHYSIOLOGY. 40(11). p.1572-1582

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Woody tissue photosynthesis delays drought stress in Populus tremula trees and maintains starch reserves in branch xylem tissues

Linus De Roo, Roberto Luis Salomon Moreno (UGent) , Jacek Oleksyn and Kathy Steppe (UGent)

(2020) NEW PHYTOLOGIST. 228(1). p.70-81

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Woody tissue photosynthesis reduces stem CO2 efflux by half and remains unaffected by drought stress in young Populus tremula trees

Linus De Roo, Roberto Luis Salomon Moreno (UGent) and Kathy Steppe (UGent)

(2020) PLANT CELL AND ENVIRONMENT. 43(4). p.981-991

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TReSpire : a biophysical TRee Stem respiration model

Roberto Luis Salomon Moreno (UGent) , Linus De Roo, Jacek Oleksyn, Dirk De Pauw (UGent) and Kathy Steppe (UGent)

(2020) NEW PHYTOLOGIST. 225(5). p.2214-2230

Academic Bibliography

Linus De Roo

Carbon isotope composition of respired CO2 in woody stems and leafy shoots of three tree species along the growing season: physiological drivers for respiratory fractionation

Limited mitigating effects of elevated CO2 in young aspen trees to face drought stress

Mechanistic drivers of stem respiration : a modelling exercise across species and seasons

Limited plasticity of anatomical and hydraulic traits in aspen trees under elevated CO2 and seasonal drought

Leaf and tree responses of young European aspen trees to elevated atmospheric CO2 concentration vary over the season

Efflux and assimilation of xylem-transported CO2 in stems and leaves of tree species with different wood anatomy

Woody tissue photosynthesis increases radial stem growth of young poplar trees under ambient atmospheric CO2 but its contribution ceases under elevated CO2

Woody tissue photosynthesis delays drought stress in Populus tremula trees and maintains starch reserves in branch xylem tissues

Woody tissue photosynthesis reduces stem CO2 efflux by half and remains unaffected by drought stress in young Populus tremula trees

TReSpire : a biophysical TRee Stem respiration model

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