Add to ORKGLeaning stems of woody plants form reaction wood, in hardwood trees termed tension wood. Tension wood contains more cellulose and less lignin and it is anatomically different from normal wood. Fourier-transform infrared (FTIR) spectroscopy showed that there was no difference in lignin content in segments of bent trees compared to the controls, but the higher amounts of cellulose, xylan, and xyloglucan were observed in bent trees, corresponding to the rearrangements in the cellulose/xyloglucan network
International audienceHardwood trees are able to reorient their axes owing to tension wood different...
We studied in detail the mean microfibril angle and the width of cellulose crystals from the pith to...
Tension wood is a defect in hardwood trees. It causes excessive shrinkage, splitting, warping and wo...
Tree growth is influenced by various environmental factors that lead to anatomical, physical and che...
AbstractIn order to investigate the chemical modifications of wood forming tissue from Pinus koraien...
The mechanical and physical properties of wood fibres are dependent on the organisation of their con...
Fourier transform infrared (FTIR) imaging offers the opportunity to analyse the chemical composition...
Lignin engineering is a promising tool to reduce the energy input and the need of chemical pre-treat...
Pleating is an optimal way to increase bendability of wood used in diverse industrial applications. ...
Capirona (Calycophyllum spruceanum (Benth.) K. Schum.) and Bolaina (Guazuma crinita Lam.) are fast-g...
Leaning stems of woody plants form reaction wood, in hardwood trees termed tension wood (TW). Typica...
Xylem resistance to embolism formation determines the species-specific drought tolerance and the sur...
The first example of modified wall architecture in woody cells examined was in poplar trees where wo...
Fourier transform infrared microscopy combined with a focal plane array detector was used to illustr...
Tension wood is widespread in the organs of woody plants. During its formation, it generates a large...
International audienceHardwood trees are able to reorient their axes owing to tension wood different...
We studied in detail the mean microfibril angle and the width of cellulose crystals from the pith to...
Tension wood is a defect in hardwood trees. It causes excessive shrinkage, splitting, warping and wo...
Tree growth is influenced by various environmental factors that lead to anatomical, physical and che...
AbstractIn order to investigate the chemical modifications of wood forming tissue from Pinus koraien...
The mechanical and physical properties of wood fibres are dependent on the organisation of their con...
Fourier transform infrared (FTIR) imaging offers the opportunity to analyse the chemical composition...
Lignin engineering is a promising tool to reduce the energy input and the need of chemical pre-treat...
Pleating is an optimal way to increase bendability of wood used in diverse industrial applications. ...
Capirona (Calycophyllum spruceanum (Benth.) K. Schum.) and Bolaina (Guazuma crinita Lam.) are fast-g...
Leaning stems of woody plants form reaction wood, in hardwood trees termed tension wood (TW). Typica...
Xylem resistance to embolism formation determines the species-specific drought tolerance and the sur...
The first example of modified wall architecture in woody cells examined was in poplar trees where wo...
Fourier transform infrared microscopy combined with a focal plane array detector was used to illustr...
Tension wood is widespread in the organs of woody plants. During its formation, it generates a large...
International audienceHardwood trees are able to reorient their axes owing to tension wood different...
We studied in detail the mean microfibril angle and the width of cellulose crystals from the pith to...
Tension wood is a defect in hardwood trees. It causes excessive shrinkage, splitting, warping and wo...