Tree growth stress and related problems

Gril, Joseph; Jullien, Delphine; Bardet, Sandrine; Yamamoto, Hiroyuki

doi:10.1007/s10086-017-1639-y

Cited by 55 publications

(49 citation statements)

References 91 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Growth stress is a result of tree growth and it is formed by a combination of the formation of a new wood layer during the differentiation process and the weight accumulated in the trunks of trees (Archer 1986;Fournier et al 1994). Growth stresses are a biomechanical function that reorient the trees to a better position (Kubler 1987;Mattheck and Kubler 1995), are essential for tree survival (Gril et al 2017), and the distribution of growth stresses around the stem circumference may be asymmetric (Jullien et al 2013). Growth stresses have a direct influence on the development of crooking and splitting immediately after harvesting (Okuyama et al 1981;Hillis 1984;Purnell 1988;Tejada et al 1997;Yang et al 2001).…”

Section: Introductionmentioning

confidence: 99%

Effect of growth stress and interlocked grain on splitting of seven different hybrid clones ofEucalyptus grandis×Eucalyptus urophyllawood

França

Vidaurre

2020

Holzforschung

View full text Add to dashboard Cite

Trees with high levels of growth stress begin to show log end splits (LES) immediately after harvesting, usually reaching its maximum end split in a week, and these tensions also create splits during lumber manufacturing. Interlocked grain is another characteristic that impacts the properties of eucalyptus wood. The aim of this study was to evaluate the effect of growth stress and interlocked grain patterns on log end splitting of seven different hybrid clones of Eucalyptus grandis × Eucalyptus urophylla planted in Brazil. The growth stress indicator (GSI) was measured in standing trees before harvesting. Splits were measured on logs in three different stages, and interlocked grain from wood blocks was obtained across the center of the cross-section. The results showed that LES occurred as soon as the trees were harvested; however, for better selection of clones, LES should be evaluated after a week of harvesting. There were statistically significant correlations for GSI with LES. Clones that presented higher values of interlocked grain tended to develop lower values of GSI and LES. Using GSI and interlocked grain measurements, it was possible to select the most indicated eucalyptus clones for lumber production.

show abstract

Section: Introductionmentioning

confidence: 99%

Effect of growth stress and interlocked grain on splitting of seven different hybrid clones ofEucalyptus grandis×Eucalyptus urophyllawood

França

Vidaurre

2020

Holzforschung

View full text Add to dashboard Cite

show abstract

“…Here, the weight vertically loads on the stem column in parallel to the gravity vector. Simultaneously, the radial growth increases compressive forces in the wood forming zone, and accumulates tensile stress at the periphery (14). While some of these forces have been measured by interpreting the residual stress (30), the extent to which this mechanical conflicts surrounding the cambium can conditionate wood formation remains hypothetical.…”

Section: Discussionmentioning

confidence: 99%

“…Moreover, the mechanical pressure in the VC may be required for xylem differentiation in trees (13). This suggest that the VC responds to mechanical stimulus by integrating multi-scale signals derived from vertical loading and radial growth (maturation stress) (14). Interestingly, the direct response of tree stems to a vertical static loading on was not tested before.…”

Section: Introductionmentioning

confidence: 99%

ELIMÄKI locus is required for mechanosensing and proprioception in birch trees

Alonso‐Serra¹,

Shi²,

Peaucelle³

et al. 2019

Preprint

View full text Add to dashboard Cite

The remarkable vertical and radial growth observed in tree species, encompasses a major physical challenge for wood forming tissues. To compensate with increasing size and weight, cambiumderived radial growth increases the stem width, thereby supporting the aerial body of trees. This feedback appears to be part of a so-called "proprioception" (1, 2) mechanism that controls plant size and biomass allocation. Yet, how trees experience or respond to mechanical stress derived from their own vertical loading, remains unknown. Here, we combined two strategies to dissect the proprioceptive response in birch. First, we show that in response to physical loading, trees promote radial growth with different magnitudes along the stem. Next, we identified a mutant cultivar (B. pubescens cv. Elimäki) in which the main stem shows normal vertical development, but collapses after three months. By inducing precocious flowering, we generated a backcrossed population (BC1) by producing two generations in 4 years. In his scheme, we uncovered a recessive trait (eki) that segregates and genetically maps with a Mendelian monogenic pattern. Unlike WT, eki is resistant to vertical mechanical stimulation. However, eki responds normally to the gravitropic stimulus by making tension wood. Before the collapse, cell size in eki is compromised resulting in radial growth defects, depending on stem height. Cell walls of developing xylem and phloem tissues have delayed differentiation in eki, and its tissues are softer compared to WT as indicated by atomic force microscopy (AFM). The transcriptomic profile of eki highlighted the overlap with that of the Arabidopsis response to touch. Taken together, our results suggest that the mechanical environment and cell wall properties of developing woody tissues, can significantly affect the growth responses to vertical loading thereby compromising their proprioceptive capacity. Additionally, we introduce a fast forward genetics strategy to dissect complex phenotypes in trees.

show abstract

“…Poplar wood used in this study is a fast-growing wood which results in higher growth stresses. Thermal treatment was reported as one of the possible countermeasures to reduce growth stresses in wood [14]. Hence, the specimens were first oven-dried in the purpose of releasing the growth stress in certain extent, which consequently minimize the effects of specimens' variation on the test results and then were vacuum treated, so that all the specimens were fully water-saturated with a similar moisture content.…”

Section: Methodsmentioning

confidence: 99%

Study on the changes in surface characteristics of Populus tomentosa due to thermo-hydro-process

Bao

Jiang

et al. 2018

J Wood Sci

View full text Add to dashboard Cite

The effects of high temperature, moisture, and mechanical action during the thermo-hydro-mechanical (THM) processing, on the changes in surface properties of poplar, namely, surface color, roughness, wettability, and microstructure, were investigated in this study. The correlation between observed changes in surface properties and chemical characteristics was also analyzed. Poplar woods with high moisture content were compressed using different pressures at temperature of 160 °C for four different periods. The wood surfaces became darker and smoother, and their surface free energy decreased significantly after the THM process. THM process markedly reduced surface hygroscopicity compared to the control wood. The cell lumens of THM wood became narrow with increasing compression ratio due to the enhancing high pressure. Collapse and fractures of cell walls developed during THM treatment. Furthermore, results indicated that a series of chemical reactions in different components of wood took place during THM process, such as degradation of hemicelluloses, condensation of lignin, and decomposition of extractives. In turn, these chemical modifications contributed to the darkening of color as well as the reduction of wettability and surface free energy of THM wood.

show abstract

Tree growth stress and related problems

Cited by 55 publications

References 91 publications

Effect of growth stress and interlocked grain on splitting of seven different hybrid clones ofEucalyptus grandis×Eucalyptus urophyllawood

Effect of growth stress and interlocked grain on splitting of seven different hybrid clones ofEucalyptus grandis×Eucalyptus urophyllawood

ELIMÄKI locus is required for mechanosensing and proprioception in birch trees

Study on the changes in surface characteristics of Populus tomentosa due to thermo-hydro-process

Contact Info

Product

Resources

About