EcoFoG Papers -- Query Results

	EcoFoG Papers Home \| Show All \| Simple Search \| Advanced Search	Login Quick Search: Field: contains: ...
	381–390 of 934 records found matching your query (RSS \| history):

Search & Display Options

Select All Deselect All

[21–30] << 31 32 33 34 35 36 37 38 39 40 >> [41–50]

List View

Citations

Details

	Records
	Author	Touchard, A.;Dejean, A.;Orivel, J.
	Title	Intraspecific variations in the venom peptidome of the ant Odontomachus haematodus (Formicidae: Ponerinae) from French Guiana			Type	Journal Article
	Year	2015	Publication	Journal of Hymenoptera Research	Abbreviated Journal	Journal of Hymenoptera Research
	Volume	47	Issue		Pages	87-101
	Keywords
	Abstract	Ant venoms are complex cocktails of toxins employed to subdue prey and to protect the colony from predators and microbial pathogens. Although the extent of ant venom peptide diversity remains largely unexplored, previous studies have revealed the presence of numerous bioactive peptides in most stinging ant venoms. We investigated the venom peptidome of the ponerine ant Odontomachus haematodus using LC-MS analysis and then verified whether the division of labor in the colonies and their geographical location are correlated with differences in venom composition. Our results reveal that O. haematodus venom is comprised of 105 small linear peptides. The venom composition does not vary between the different castes (i.e., nurses, foragers and queens), but an intraspecific variation in peptide content was observed, particularly when the colonies are separated by large distances. Geographical variation appears to increase the venom peptide repertoire of this ant species, demonstrating its intraspecific venom plasticity.
	Address
	Corporate Author				Thesis
	Publisher		Place of Publication		Editor
	Language		Summary Language		Original Title
	Series Editor		Series Title		Abbreviated Series Title
	Series Volume		Series Issue		Edition
	ISSN		ISBN		Medium
	Area		Expedition		Conference
	Notes				Approved	no
	Call Number	EcoFoG @ webmaster @			Serial	643
Permanent link to this record



	Author	Chaves, C.L.; Degen, B.; Pakull, B.; Mader, M.; Honorio, E.; Ruas, P.; Tysklind, N.; Sebbenn, A.M.
	Title	Assessing the Ability of Chloroplast and Nuclear DNA Gene Markers to Verify the Geographic Origin of Jatoba (Hymenaea courbaril L.) Timber			Type	Journal Article
	Year	2018	Publication	Journal of Heredity	Abbreviated Journal
	Volume	109	Issue	5	Pages	543-552
	Keywords	forensics; illegal logging; nSSRs; SNPs; timber tracking; tropical trees
	Abstract	Deforestation-reinforced by illegal logging-is a serious problem in many tropical regions and causes pervasive environmental and economic damage. Existing laws that intend to reduce illegal logging need efficient, fraud resistant control methods. We developed a genetic reference database for Jatoba (Hymenaea courbaril), an important, high value timber species from the Neotropics. The data set can be used for controls on declarations of wood origin. Samples from 308 Hymenaea trees from 12 locations in Brazil, Bolivia, Peru, and French Guiana have been collected and genotyped on 10 nuclear microsatellites (nSSRs), 13 chloroplast SNPs (cpSNP), and 1 chloroplast indel marker. The chloroplast gene markers have been developed using Illumina DNA sequencing. Bayesian cluster analysis divided the individuals based on the nSSRs into 8 genetic groups. Using self-assignment tests, the power of the genetic reference database to judge on declarations on the location has been tested for 3 different assignment methods. We observed a strong genetic differentiation among locations leading to high and reliable self-assignment rates for the locations between 50% to 100% (average of 88%). Although all 3 assignment methods came up with similar mean self-assignment rates, there were differences for some locations linked to the level of genetic diversity, differentiation, and heterozygosity. Our results show that the nuclear and chloroplast gene markers are effective to be used for a genetic certification system and can provide national and international authorities with a robust tool to confirm legality of timber. © 2018 The American Genetic Association. All rights reserved.
	Address	Instituto Florestal de São Paulo, São Paulo, SP, Brazil
	Corporate Author				Thesis
	Publisher		Place of Publication		Editor
	Language		Summary Language		Original Title
	Series Editor		Series Title		Abbreviated Series Title
	Series Volume		Series Issue		Edition
	ISSN		ISBN		Medium
	Area		Expedition		Conference
	Notes	Export Date: 1 September 2018			Approved	no
	Call Number	EcoFoG @ webmaster @			Serial	817
Permanent link to this record



	Author	Honorio Coronado, E.N.; Blanc-Jolivet, C.; Mader, M.; García-Dávila, C.R.; Gomero, D.A.; del Castillo Torres, D.; Llampazo, G.F.; Pizango, G.H.; Sebbenn, A.M.; Meyer-Sand, B.R.V.; Paredes-Villanueva, K.; Tysklind, N.; Troispoux, V.; Massot, M.; Carvalho, C.; de Lima, H.C.; Cardoso, D.; Degen, B.
	Title	SNP markers as a successful molecular tool for assessing species identity and geographic origin of trees in the economically important South American legume genus Dipteryx			Type	Journal Article
	Year	2020	Publication	Journal of Heredity	Abbreviated Journal	J. Hered.
	Volume	111	Issue	4	Pages	346-356
	Keywords	Cumaru; Genetic assignment; Leguminosae; Timber verification; article; chloroplast; genetic association; genetic marker; geographic origin; indel mutation; nonhuman; single nucleotide polymorphism; species identification; structure analysis; tonka bean; Dipteryx; Fabaceae
	Abstract	Dipteryx timber has been heavily exploited in South America since 2000s due to the increasing international demand for hardwood. Developing tools for the genetic identification of Dipteryx species and their geographical origin can help to promote legal trading of timber. A collection of 800 individual trees, belonging to 6 different Dipteryx species, was genotyped based on 171 molecular markers. After the exclusion of markers out of Hardy-Weinberg equilibrium or with no polymorphism or low amplification, 83 nuclear, 29 chloroplast, 13 mitochondrial single nucleotide polymorphisms (SNPs), and 2 chloroplast and 5 mitochondrial INDELS remained. Six genetic groups were identified using Bayesian Structure analyses of the nuclear SNPs, which corresponded to the different Dipteryx species collected in the field. Seventeen highly informative markers were identified as suitable for species identification and obtained self-assignment success rates to species level of 78-96%. An additional set of 15 molecular markers was selected to determine the different genetic clusters found in Dipteryx odorata and Dipteryx ferrea, obtaining self-assignment success rates of 91-100%. The success to assign samples to the correct country of origin using all or only the informative markers improved when using the nearest neighbor approach (69-92%) compared to the Bayesian approach (33-80%). While nuclear and chloroplast SNPs were more suitable for differentiating the different Dipteryx species, mitochondrial SNPs were ideal for determining the genetic clusters of D. odorata and D. ferrea. These 32 selected SNPs will be invaluable genetic tools for the accurate identification of species and country of origin of Dipteryx timber. © The American Genetic Association 2020. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com
	Address	Instituto de Biologia, Universidade Federal da Bahia, Rua Barão de Jeremoabo, s.n., Ondina, Salvador, BA, 40170-115, Brazil
	Corporate Author				Thesis
	Publisher	Oxford University Press	Place of Publication		Editor
	Language		Summary Language		Original Title
	Series Editor		Series Title		Abbreviated Series Title
	Series Volume		Series Issue		Edition
	ISSN	00221503 (Issn)	ISBN		Medium
	Area		Expedition		Conference
	Notes				Approved	no
	Call Number	EcoFoG @ webmaster @			Serial	965
Permanent link to this record



	Author	Longo, M.; Saatchi, S.; Keller, M.; Bowman, K.; Ferraz, A.; Moorcroft, P.R.; Morton, D.C.; Bonal, D.; Brando, P.; Burban, B.; Derroire, G.; dos-Santos, M.N.; Meyer, V.; Saleska, S.; Trumbore, S.; Vincent, G.
	Title	Impacts of Degradation on Water, Energy, and Carbon Cycling of the Amazon Tropical Forests			Type	Journal Article
	Year	2020	Publication	Journal of Geophysical Research: Biogeosciences	Abbreviated Journal	J. Geophys. Res. Biogeosci.
	Volume	125	Issue	8	Pages	e2020JG005677
	Keywords	Amazon; drought; ecosystem modeling; evapotranspiration; forest degradation; remote sensing; carbon cycle; deforestation; dry season; evapotranspiration; hydrological cycle; logging (timber); net primary production; remote sensing; sensible heat flux; tropical forest; understory; water stress; Amazon River
	Abstract	Selective logging, fragmentation, and understory fires directly degrade forest structure and composition. However, studies addressing the effects of forest degradation on carbon, water, and energy cycles are scarce. Here, we integrate field observations and high-resolution remote sensing from airborne lidar to provide realistic initial conditions to the Ecosystem Demography Model (ED-2.2) and investigate how disturbances from forest degradation affect gross primary production (GPP), evapotranspiration (ET), and sensible heat flux (H). We used forest structural information retrieved from airborne lidar samples (13,500 ha) and calibrated with 817 inventory plots (0.25 ha) across precipitation and degradation gradients in the eastern Amazon as initial conditions to ED-2.2 model. Our results show that the magnitude and seasonality of fluxes were modulated by changes in forest structure caused by degradation. During the dry season and under typical conditions, severely degraded forests (biomass loss ≥66%) experienced water stress with declines in ET (up to 34%) and GPP (up to 35%) and increases of H (up to 43%) and daily mean ground temperatures (up to 6.5°C) relative to intact forests. In contrast, the relative impact of forest degradation on energy, water, and carbon cycles markedly diminishes under extreme, multiyear droughts, as a consequence of severe stress experienced by intact forests. Our results highlight that the water and energy cycles in the Amazon are driven by not only climate and deforestation but also the past disturbance and changes of forest structure from degradation, suggesting a much broader influence of human land use activities on the tropical ecosystems. ©2020. The Authors.
	Address	AMAP, Univ Montpellier, IRD, CIRAD, CNRS, INRAE, Montpellier, France
	Corporate Author				Thesis
	Publisher	Blackwell Publishing Ltd	Place of Publication		Editor
	Language		Summary Language		Original Title
	Series Editor		Series Title		Abbreviated Series Title
	Series Volume		Series Issue		Edition
	ISSN	21698953 (Issn)	ISBN		Medium
	Area		Expedition		Conference
	Notes				Approved	no
	Call Number	EcoFoG @ webmaster @			Serial	957
Permanent link to this record



	Author	Verbeeck, H.; Peylin, P.; Bacour, C.; Bonal, D.; Steppe, K.; Ciais, P.
	Title	Seasonal patterns of CO2 fluxes in Amazon forests: Fusion of eddy covariance data and the ORCHIDEE model			Type	Journal Article
	Year	2011	Publication	Journal Of Geophysical Research-Biogeosciences	Abbreviated Journal	J. Geophys. Res.-Biogeosci.
	Volume	116	Issue	2	Pages	G02018
	Keywords
	Abstract	[1] In some regions of the Amazon, global biogeophysical models have difficulties in reproducing measured seasonal patterns of net ecosystem exchange (NEE) of carbon dioxide. The global process-based biosphere model Organizing Carbon and Hydrology in Dynamic Ecosystems (ORCHIDEE) used in this study showed that a standard model parameterization produces seasonal NEE patterns that are opposite in phase to the eddy flux data of the tropical evergreen forest at the Tapajos km 67 site (Brazil), like many other global models. However, we optimized several key parameters of ORCHIDEE using eddy covariance data of the Tapajos km 67 site in order to identify the driving factors of the seasonal variations in CO2 flux in this tropical forest ecosystem. The validity of the retrieved parameter values was evaluated for two other flux tower sites in the Amazon. The different tested optimization scenarios showed that only a few parameters substantially improve the fit to NEE and latent heat data. Our results confirm that these forests have the ability to maintain high transpiration and photosynthesis during the dry season in association with a large soil depth (D-soil = 10 m) and a rooting system density that decreases almost linearly with depth (H-root = 0.1). Previous analyses of seasonal variations in eddy covariance fluxes indicated that higher GPP levels were reached in the dry season compared to the wet season. Our optimization analysis suggests that this pattern could be caused by a leaf flush at the start of the dry season increasing the photosynthetic capacity of the canopy. Nevertheless, the current model structure is not yet able to simulate such a leaf flush, and we therefore suggest improving the ORCHIDEE model by including a specific phenology module that is driven by light availability for the tropical evergreen plant functional types. In addition, our results highlight both the potential and the limitations of flux data to improve global terrestrial models. Several parameters were not identifiable, and the risk of overfitting of the model was illustrated. Nevertheless, we conclude that these models can be improved substantially by assimilating site level flux data over the tropics.
	Address	[Verbeeck, Hans; Steppe, Kathy] Univ Ghent, Plant Ecol Lab, Dept Appl Ecol & Environm Biol, Fac Biosci Engn, B-9000 Ghent, Belgium, Email: hans.verbeeck@ugent.be
	Corporate Author				Thesis
	Publisher	Amer Geophysical Union	Place of Publication		Editor
	Language		Summary Language		Original Title
	Series Editor		Series Title		Abbreviated Series Title
	Series Volume		Series Issue		Edition
	ISSN	0148-0227	ISBN		Medium
	Area		Expedition		Conference
	Notes	ISI:000290933500002			Approved	no
	Call Number	EcoFoG @ webmaster @			Serial	321
Permanent link to this record



	Author	Almeras, T.; Derycke, M.; Jaouen, G.; Beauchene, J.; Fournier, M.
	Title	Functional diversity in gravitropic reaction among tropical seedlings in relation to ecological and developmental traits			Type	Journal Article
	Year	2009	Publication	Journal of Experimental Botany	Abbreviated Journal	J. Exp. Bot.
	Volume	60	Issue	15	Pages	4397-4410
	Keywords	Biomechanics; French Guiana; functional diversity; gravitropism; reaction wood; tropical rainforest
	Abstract	Gravitropism is necessary for plants to control the orientation of their axes while they grow in height. In woody plants, stem re-orientations are costly because they are achieved through diameter growth. The functional diversity of gravitropism was studied to check if the mechanisms involved and their efficiency may contribute to the differentiation of height growth strategies between forest tree species at the seedling stage. Seedlings of eight tropical species were grown tilted in a greenhouse, and their up-righting movement and diameter growth were measured over three months. Morphological, anatomical, and biomechanical traits were measured at the end of the survey. Curvature analysis was used to analyse the up-righting response along the stems. Variations in stem curvature depend on diameter growth, size effects, the increase in self-weight, and the efficiency of the gravitropic reaction. A biomechanical model was used to separate these contributions. Results showed that (i) gravitropic movements were based on a common mechanism associated to similar dynamic patterns, (ii) clear differences in efficiency (defined as the change in curvature achieved during an elementary diameter increment for a given stem diameter) existed between species, (iii) the equilibrium angle of the stem and the anatomical characters associated with the efficiency of the reaction also differed between species, and (iv) the differences in gravitropic reaction were related to the light requirements: heliophilic species, compared to more shade-tolerant species, had a larger efficiency and an equilibrium angle closer to vertical. This suggests that traits determining the gravitropic reaction are related to the strategy of light interception and may contribute to the differentiation of ecological strategies promoting the maintenance of biodiversity in tropical rainforests.
	Address	[Almeras, Tancrede; Derycke, Morgane; Jaouen, Gaelle] INRA, UMR Ecol Forets Guyane, F-97310 Kourou, France, Email: t_almeras@hotmail.com
	Corporate Author				Thesis
	Publisher	OXFORD UNIV PRESS	Place of Publication		Editor
	Language		Summary Language		Original Title
	Series Editor		Series Title		Abbreviated Series Title
	Series Volume		Series Issue		Edition
	ISSN	0022-0957	ISBN		Medium
	Area		Expedition		Conference
	Notes	ISI:000271389400017			Approved	no
	Call Number	EcoFoG @ eric.marcon @			Serial	96
Permanent link to this record



	Author	Chang, S.S.; Clair, B.; Ruelle, J.; Beauchene, J.; Di Renzo, F.; Quignard, F.; Zhao, G.J.; Yamamoto, H.; Gril, J.
	Title	Mesoporosity as a new parameter for understanding tension stress generation in trees			Type	Journal Article
	Year	2009	Publication	Journal of Experimental Botany	Abbreviated Journal	J. Exp. Bot.
	Volume	60	Issue	11	Pages	3023-3030
	Keywords	Growth stress; hydrogel; mesoporosity; tension wood
	Abstract	The mechanism for tree orientation in angiosperms is based on the production of high tensile stress on the upper side of the inclined axis. In many species, the stress level is strongly related to the presence of a peculiar layer, called the G-layer, in the fibre cell wall. The structure of the G-layer has recently been described as a hydrogel thanks to N-2 adsorption-desorption isotherms of supercritically dried samples showing a high mesoporosity (pores size from 2-50 nm). This led us to revisit the concept of the G-layer that had been, until now, only described from anatomical observation. Adsorption isotherms of both normal wood and tension wood have been measured on six tropical species. Measurements show that mesoporosity is high in tension wood with a typical thick G-layer while it is much less with a thinner G-layer, sometimes no more than normal wood. The mesoporosity of tension wood species without a G-layer is as low as in normal wood. Not depending on the amount of pores, the pore size distribution is always centred around 6-12 nm. These results suggest that, among species producing fibres with a G-layer, large structural differences of the G-layer exist between species.
	Address	[Chang, Shan-Shan; Clair, Bruno; Gril, Joseph] Univ Montpellier 2, LMGC, CNRS, F-34095 Montpellier 5, France, Email: clair@lmgc.univ-montp2.fr
	Corporate Author				Thesis
	Publisher	OXFORD UNIV PRESS	Place of Publication		Editor
	Language		Summary Language		Original Title
	Series Editor		Series Title		Abbreviated Series Title
	Series Volume		Series Issue		Edition
	ISSN	0022-0957	ISBN		Medium
	Area		Expedition		Conference
	Notes	ISI:000268588300008			Approved	no
	Call Number	EcoFoG @ eric.marcon @			Serial	107
Permanent link to this record



	Author	Coste, S.; Roggy, J.C.; Schimann, H.; Epron, D.; Dreyer, E.
	Title	A cost-benefit analysis of acclimation to low irradiance in tropical rainforest tree seedlings: leaf life span and payback time for leaf deployment			Type	Journal Article
	Year	2011	Publication	Journal of Experimental Botany	Abbreviated Journal	J. Exp. Bot.
	Volume	62	Issue	11	Pages	3941-3955
	Keywords	Carbon balance; construction cost; functional diversity; leaf life span; payback time; photosynthesis; tropical rainforest
	Abstract	The maintenance in the long run of a positive carbon balance under very low irradiance is a prerequisite for survival of tree seedlings below the canopy or in small gaps in a tropical rainforest. To provide a quantitative basis for this assumption, experiments were carried out to determine whether construction cost (CC) and payback time for leaves and support structures, as well as leaf life span (i) differ among species and (ii) display an irradiance-elicited plasticity. Experiments were also conducted to determine whether leaf life span correlates to CC and payback time and is close to the optimal longevity derived from an optimization model. Saplings from 13 tropical tree species were grown under three levels of irradiance. Specific-CC was computed, as well as CC scaled to leaf area at the metamer level. Photosynthesis was recorded over the leaf life span. Payback time was derived from CC and a simple photosynthesis model. Specific-CC displayed only little interspecific variability and irradiance-elicited plasticity, in contrast to CC scaled to leaf area. Leaf life span ranged from 4 months to > 26 months among species, and was longest in seedlings grown under lowest irradiance. It was always much longer than payback time, even under the lowest irradiance. Leaves were shed when their photosynthesis had reached very low values, in contrast to what was predicted by an optimality model. The species ranking for the different traits was stable across irradiance treatments. The two pioneer species always displayed the smallest CC, leaf life span, and payback time. All species displayed a similar large irradiance-elicited plasticity.
	Address	[Coste, S; Epron, D; Dreyer, E] INRA, UMR1137, Ctr INRA Nancy, F-54280 Champenoux, France, Email: dreyer@nancy.inra.fr
	Corporate Author				Thesis
	Publisher	Oxford Univ Press	Place of Publication		Editor
	Language		Summary Language		Original Title
	Series Editor		Series Title		Abbreviated Series Title
	Series Volume		Series Issue		Edition
	ISSN	0022-0957	ISBN		Medium
	Area		Expedition		Conference
	Notes	WOS:000292838700021			Approved	no
	Call Number	EcoFoG @ webmaster @			Serial	331
Permanent link to this record



	Author	Christensen-Dalsgaard, K.K.; Ennos, A.R.; Fournier, M.
	Title	Changes in hydraulic conductivity, mechanical properties, and density reflecting the fall in strain along the lateral roots of two species of tropical trees			Type	Journal Article
	Year	2007	Publication	Journal of Experimental Botany	Abbreviated Journal	J. Exp. Bot.
	Volume	58	Issue	15-16	Pages	4095-4105
	Keywords	Buttress roots; Density; Hydraulic conductivity; Hydraulic-mechanical trade-offs; Modulus of elasticity; Tropical trees; Wood; Elastic moduli; Hydraulic conductivity; Wood; Buttress roots; Hydraulic-mechanical trade-offs; Tropical trees; Forestry; water; article; biomechanics; histology; legume; physiology; plant root; plant stem; tree; wood; Xylopia; Biomechanics; Fabaceae; Plant Roots; Plant Stems; Trees; Water; Wood; Xylopia; Conductivity; Elastic Strength; Forestry; Wood
	Abstract	Roots have been described as having larger vessels and so greater hydraulic efficiency than the stem. Differences in the strength and stiffness of the tissue within the root system itself are thought to be an adaptation to the loading conditions experienced by the roots and to be related to differences in density. It is not known how potential mechanical adaptations may affect the hydraulic properties of the roots. The change in strength, stiffness, conductivity, density, sapwood area, and second moment of area distally along the lateral roots of two tropical tree species in which the strain is known to decrease rapidly was studied and the values were compared with those of the trunk. It was found that as the strain fell distally along the roots, so did the strength and stiffness of the tissue, whereas the conductivity increased exponentially. These changes appeared to be related to differences in density. In contrast to the distal-most roots, the tissue of the proximal roots had a lower conductivity and higher strength than that of the trunk. This suggests that mechanical requirements on the structure rather than the water potential gradient from roots to branches are responsible for the general pattern that roots have larger vessels than the stem. In spite of their increased transectional area, the buttressed proximal roots were subjected to higher levels of stress and had a lower total conductivity than the rest of the root system. © 2007 The Author(s).
	Address	AgroParisTech, LERFOB, Ecole Nationale du Genie Rural, des Eaux et Forêts, 14 Avenue Girardet-CS 4216, 54000 Nancy Cedex, France
	Corporate Author				Thesis
	Publisher		Place of Publication		Editor
	Language		Summary Language		Original Title
	Series Editor		Series Title		Abbreviated Series Title
	Series Volume		Series Issue		Edition
	ISSN	00220957 (Issn)	ISBN		Medium
	Area		Expedition		Conference
	Notes	Cited By (since 1996): 6; Export Date: 22 October 2011; Source: Scopus; Coden: Jeboa; doi: 10.1093/jxb/erm268; PubMed ID: 18039738; Language of Original Document: English; Correspondence Address: Christensen-Dalsgaard, K.K.; University of Manchester, Faculty of Life Sciences, Jackson's Mill, Manchester M60 1QD, United Kingdom; email: karen@cd-mail.dk; Chemicals/CAS: water, 7732-18-5; Water, 7732-18-5			Approved	no
	Call Number	EcoFoG @ webmaster @			Serial	353
Permanent link to this record



	Author	Fournier, M.; Dlouhá, J.; Jaouen, G.; Almeras, T.
	Title	Integrative biomechanics for tree ecology: Beyond wood density and strength			Type	Journal Article
	Year	2013	Publication	Journal of Experimental Botany	Abbreviated Journal	J. Exp. Bot.
	Volume	64	Issue	15	Pages	4793-4815
	Keywords	Biomechanics; Ecological strategy; Gravitropism; Shape; Size; Trees; Wood
	Abstract	Functional ecology has long considered the support function as important, but its biomechanical complexity is only just being elucidated. We show here that it can be described on the basis of four biomechanical traits, two safety traits against winds and self-buckling, and two motricity traits involved in sustaining an upright position, tropic motion velocity (MV) and posture control (PC). All these traits are integrated at the tree scale, combining tree size and shape together with wood properties. The assumption of trait constancy has been used to derive allometric scaling laws, but it was more recently found that observing their variations among environments and functional groups, or during ontogeny, provides more insights into adaptive syndromes of tree shape and wood properties. However, oversimpli-fed expressions have often been used, possibly concealing key adaptive drivers. An extreme case of oversimplification is the use of wood basic density as a proxy for safety. Actually, as wood density is involved in stiffiness, loads, and construction costs, the impact of its variations on safety is non-trivial. Moreover, other wood features, especially the microfibril angle (MFA), are also involved. Furthermore, wood is not only stiff and strong, but it also acts as a motor for MV and PC. The relevant wood trait for this is maturation strain asymmetry. Maturation strains vary with cell-wall characteristics such as MFA, rather than with wood density. Finally, the need for further studies about the ecological relevance of branching patterns, motricity traits, and growth responses to mechanical loads is discussed. © The Author 2013.
	Address	CNRS, Université de Montpellier 2, Laboratoire de Mécanique et Génie Civil, 34095 Montpellier, France
	Corporate Author				Thesis
	Publisher		Place of Publication		Editor
	Language		Summary Language		Original Title
	Series Editor		Series Title		Abbreviated Series Title
	Series Volume		Series Issue		Edition
	ISSN	00220957 (Issn)	ISBN		Medium
	Area		Expedition		Conference
	Notes	Cited By (since 1996):1; Export Date: 2 December 2013; Source: Scopus; Coden: Jeboa; doi: 10.1093/jxb/ert279; Language of Original Document: English; Correspondence Address: Fournier, M.; AgroParisTech, UMR 1092 LERFOB, 54000 Nancy, France; email: meriem.fournier@agroparistech.fr; References: Achim, A., Ruel, J.C., Gardiner, B.A., Lafamme, G., Meunier, S., Modelling the vulnerability of balsam fr forests to wind damage (2005) Forest Ecology and Management, 204, pp. 35-50; Almeras, T., Costes, E., Salles, J.C., Identification of biomechanical factors involved in stem shape variability between apricot-tree varieties (2004) Annals of Botany, 93, pp. 1-14; Almeras, T., Derycke, M., Jaouen, G., Beauchene, J., Fournier, M., Functional diversity in gravitropic reaction among tropical seedlings in relation to ecological and developmental traits (2009) Journal of Experimental Botany, 60, pp. 4397-4410; Almeras, T., Fournier, M., Biomechanical design and longterm stability of trees: Morphological and wood traits involved in the balance between weight increase and the gravitropic reaction (2009) Journal of Theoretical Biology, 256, pp. 370-381; Almeras, T., Gril, J., Costes, E., Bending of apricot tree branches under the weight of axillary growth: Test of a mechanical model with experimental data (2002) Trees – Structure and Function, 16, pp. 5-15; Almeras, T., Thibaut, A., Gril, J., Effect of circumferential heterogeneity of wood maturation strain, modulus of elasticity and radial growth on the regulation of stem orientation in trees (2005) Trees – Structure and Function, 19, pp. 457-467; Anten, N.P.R., Schieving, F., The role of wood mass density and mechanical constraints in the economy of tree architecture (2010) American Naturalist, 175, pp. 250-260; Archer, R.R., Wilson, B.F., Mechanics of the compression wood response II. On the location, action, and distribution of compression wood formation (1973) Plant Physiology, 51, pp. 777-782; Auclair, D., Nepveu, G., The CAQ network in France: 15 years of brainstorming and cooperative work to connect forest resources and wood quality through modelling approaches and simulation software (2012) Annals of Forest Science, 69, pp. 119-123; Baltunis, B.S., Wu, H.X., Powell, M.B., Inheritance of density, microfibril angle, and modulus of elasticity in juvenile wood of pinus radiata at two locations in Australia (2007) Canadian Journal of Forest Research, 37, pp. 2164-2174; Banin, L., Fieldpausch, T.R., Phillips, O.L., What controls tropical forest architecture? Testing environmental, structural and foristic drivers (2012) Global Ecology and Biogeography, 21, pp. 1179-1190; Baskin, T.I., Jensen, O.E., On the role of stress anisotropy in the growth of stems (2013) Journal of Experimental Botany, 64, pp. 4697-4707; Bastien, R., Bohr, T., Moulia, B., Douady, S., Unifying model of shoot gravitropism reveals proprioception as a central feature of posture control in plants (2013) Proceedings of the National Academy of Sciences, USA, 110, pp. 755-760; Boiffin, J., (2008) Variabilité de Traits Anatomiques, Mécaniques et Hydrauliques Ches les Juvéniles de Vingt-deux Espèces D'arbres de Sous-bois en Forêt Tropicales Humide, , Masters thesis, Université Henri Poincaré, Nancy, France; Boudaoud, A., An introduction to the mechanics of morphogenesis for plant biologists (2010) Trends in Plant Science, 15, pp. 353-360; Burgert, I., Frühmann, K., Keckes, J., Fratzl, P., Stanzl-Tschegg, S., Structure-function relationships of four compression wood types: Micromechanical properties at the tissue and fibre (2004) Trees – Structure and Function, 18, pp. 480-485; Burgert, I., Exploring the micromechanical design of plant cell walls (2006) American Journal of Botany, 93, pp. 1391-1401; Butler, D.W., Gleason, S.M., Davidson, I., Onoda, Y., Westoby, M., Safety and streamlining of woody shoots in wind: An empirical study across 39 species in tropical Australia (2012) New Phytologist, 193, pp. 137-149; Cao, J., Tamura, Y., Yoshida, A., Wind tunnel study on aerodynamic characteristics of shrubby specimens of three tree species (2012) Urban Forestry & Urban Greening, 11, pp. 465-476; Carlquist, S., (2001) Comparative Wood Anatomy: Systematic, Ecological, and Evolutionary Aspects of Dicotyledon Wood, , Berlin: Springer; Chapman, C.A., Kaufman, L., Chapman, L.J., Buttress formation and directional stress experienced during critical phases of tree development (1998) Journal of Tropical Ecology, 14, pp. 341-349; Chapotin, S.M., Razanameharizaka, J.H., Holbrook, N.M., Abiomechanical perspective on the role of large stem volume and high water content in baobab trees (Adansonia spp.; bombacaceae) (2006) American Journal of Botany, 93, pp. 1251-1264; Chave, J., Coomes, D., Jansen, S., Lewis, S.L., Swenson, N.G., Zanne, A.E., Towards a worldwide wood economics spectrum (2009) Ecology Letters, 12, pp. 351-366; Chevolot, M., Louisanna, E., Azri, W., Leblanc-Fournier, N., Roeckel-Drevet, P., Scotti-Saintagne, C., Scotti, I., Isolation of primers for candidate genes for mechano-sensing in five neotropical tree species (2011) Tree Genetics & Genomes, 7, pp. 655-661; Clair, B., Almeras, T., Pilate, G., Jullien, D., Sugiyama, J., Riekel, C., Maturation stress generation in poplar tension wood studied by synchrotron radiation microdiffraction (2011) Plant Physiology, 155, pp. 562-570; Clair, B., Almeras, T., Ruelle, J., Fournier, M., Reaction mechanisms for the shape control in angiosperms tension wood: Diversity, efficiency, limits and alternatives (2006) Proceedings of the Fifth Plant Biomechanics Conference, pp. 467-472. , 28 August-1 September 2006, Stockholm, Sweden. Stockholm, Suède: STFI-Packforsk AB; Clair, B., Fournier, M., Prévost, M.F., Beauchêne, J., Bardet, S., Biomechanics of buttressed trees: Bending strains and stresses (2003) American Journal of Botany, 90, pp. 1349-1356; Collet, C., Fournier, M., Ningre, F., Hounzandji, A.P.I., Constant, T., Growth and posture control strategies in fagus sylvatica and acer pseudoplatanus saplings in response to canopy disturbance (2011) Annals of Botany, 107, pp. 1345-1353; Coutand, C., Fournier, M., Moulia, B., The gravitropic response of poplar trunks: Key roles of prestressed wood regulation and the relative kinetics of cambial growth versus wood maturation (2007) Plant Physiology, 144, pp. 1166-1180; Darwin, C., Darwin, F.E., (1880) The Power of Movement in Plants, , London: Murray; Dassot, M., Constant, T., Fournier, M., The use of terrestrial LiDAR technology in forest science: Application fields, benefts and challenges (2011) Annals of Forest Science, 68, pp. 959-974; Dassot, M., Fournier, M., Ningre, F., Constant, T., Effect of tree size and competition on tension wood production over time in beech plantations and assessing relative gravitropic response with a biomechanical model (2012) American Journal of Botany, 99, pp. 1427-1435; De Langre, E., Effects of wind on plants (2008) Annual Review of Fluid Mechanics, 40, pp. 141-168; Dean, T.J., Long, J.N., Validity of constant stress and elastic-principles of stem formation in pinus contorta and trifolium pratense (1986) Annals of Botany, 58, pp. 833-740; Delcamp, M., Gourlet-Fleury, S., Flores, O., Gamier, E., Can functional classification of tropical trees predict population dynamics after disturbance? (2008) Journal of Vegetation Science, 19, pp. 209-220; Donaldson, L., Microfibril angle: Measurement, variation and relationship – A review (2008) IAWA Bulletin, 29, pp. 345-386; Duchateau, E., (2008) Diversité des Capacités de Réaction Gravitropique de Jeunes Arbres en Forêt Tropicale Humide, , Masters thesis, Université Henri Poincaré, Nancy, France; Eloy, C., Leonardo's rule, self-similarity, and wind-induced stresses in trees (2011) Physical Review Letters, 107, p. 258101; Ennos, A.R., The mechanics of root anchorage (2000) Advances in Botanical Research Incorporating Advances in Plant Pathology, 33, pp. 133-157; Evans, R., Ilic, J., Rapid prediction of wood stiffiness from microfibril angle and density (2001) Forest Products Journal, 51, pp. 53-57; Favrichon, V., Classification des especes arborees en groupes fonctionnels en vue de la realisation d'un modele de dynamique de peuplement en foret guyanaise (1994) Revue de Ecologie (Terre et Vie), 49, pp. 379-403; Fengel, D., Wegener, G., (1984) Wood. Chemistry, Ultrastructure, Reactions, , Berlin/New York: de Gruyter; Ferrand, J.C., Study of growth stresses: 1. Measurement method on increment cores (1982) Annales des Sciences Forestieres, 39, pp. 109-142; Fortunel, C., Fine, P.V.A., Baraloto, C., Leaf, stem and root tissue strategies across 758 neotropical tree species (2012) Functional Ecology, 26, pp. 1153-1161; Fournier, M., Baillères, H., Chanson, B., Tree biomechanics: Growth, cumulative prestresses, and reorientations (1994) Biomimetics, 2, pp. 229-251; Fournier, M., Chanson, B., Thibaut, B., Guitard, D., Measurement of residual growth strains at the stem surface. Observations on different species (1994) Annales des Sciences Forestieres, 51, pp. 249-266; Fournier, M., Stokes, A., Coutand, C., Fourcaud, T., Moulia, B., Tree biomechanics and growth strategies in the context of forest functional ecology (2006) Ecology and Biomechanics: A Mechanical Approach to the Ecology of Animals and Plants, pp. 1-34. , Herrel A, Speck T, Rowe N, eds. Boca Raton, FL: CRC Press; Gardiner, B., Byrne, K., Hale, S., Kamimura, K., Mitchell, S.J., Peltola, H., Ruel, J.-C., A review of mechanistic modelling of wind damage risk to forests (2008) Forestry, 81, pp. 447-463; Gibson, L.J., Ashby, M.F., (1997) Cellular Solids; Structure and Properties, , Cambridge: Cambridge University Press; Givnish, T.J., Ecological constraints on the evolution of plasticity in plants (2002) Evolutionary Ecology, 16, pp. 213-242; Gordon, J.E., (1978) Structures or Why Things do Not Fall Down, , Harmondsworth: Penguin Books; Greenhill, A., Determination of the greatest height consistent with stability that a vertical pole or mast can be made, and of the greatest height to which a tree of given proportions can grow (1881) Proceedings of the Cambridge Philosophical Society, 4, pp. 65-73; Grime, J.P., (2001) Plant Strategies, Vegetation Processes, and Ecosystem Properties, , Chichester; UK: John Wiley & Sons; Hamilton, J.R., Thomas, C.K., Carvell, K.L., Tension wood formation following release of upland oak advance reproduction (1985) Wood and Fiber Science, 17, pp. 382-390; Hejnowicz, Z., Graviresponses in herbs and trees: A major role for the redistribution of tissue and growth stresses (1997) Planta, 203, pp. S136-S146; Herault, B., Bachelot, B., Poorter, L., Rossi, V., Bongers, F., Chave, J., Paine, C.E.T., Baraloto, C., Functional traits shape ontogenetic growth trajectories of rain forest tree species (2011) Journal of Ecology, 99, pp. 1431-1440; Holbrook, N.M., Putz, F.E., Influence of neighbors on tree form: Effects of lateral shade and prevention of sway on the allometry of liquidambar styracifua (sweet gum) (1989) American Journal of Botany, 76, pp. 1740-1749; Huang, Y.S., Hung, L.F., Kuo-Huang, L.L., Biomechanical modeling of gravitropic response of branches: Roles of asymmetric periphery growth strain versus self-weight bending effect (2010) Trees – Structure and Function, 24, pp. 1151-1161; Iino, M., Toward understanding the ecological functions of tropisms: Interactions among and effects of light on tropisms (2006) Current Opinion in Plant Biology, 9, pp. 89-93; James, K.R., Haritos, N., Ades, P.K., Mechanical stability of trees under dynamic loads (2006) American Journal of Botany, 93, pp. 1522-1530; Jaouen, G., Almeras, T., Coutand, C., Fournier, M., How to determine sapling buckling risk with only a few measurements (2007) American Journal of Botany, 94, pp. 1583-1593; Jaouen, G., Fournier, M., Almeras, T., Thigmomorphogenesis versus light in biomechanical growth strategies of saplings of two tropical rain forest tree species (2010) Annals of Forest Science, 67, p. 211; Jaouen, G., (2007) Etude des Stratégies Biomécaniques de Croissance des Jeunes Arbres en Peuplement Hétérogène Tropical Humide, , Thèse de doctorat, Université Henri Poincaré, Nancy, France; Johnson, E.A., Miyanishi, K., (2007) Plant Disturbance Ecology: The Process and the Response, , New York: Academic Press; Jullien, D., Widmann, R., Loup, C., Thibaut, B., Relationship between tree morphology and growth stress in mature european beech stands (2013) Annals of Forest Science, 70, pp. 133-142; Jungnikl, K., Goebbels, J., Burgert, I., Fratzl, P., The role of material properties for the mechanical adaptation at branch junctions (2009) Trees – Structure and Function, 23, pp. 605-610; Kellogg, R.M., Wangaard, F.F., Variation in the cell-wall density of wood (1969) Wood and Fiber Science, 1, pp. 180-204; King, D., Loucks, O.L., Theory of tree bole and branch form (1978) Radiation and Environmental Biophysics, 15, pp. 141-165; King, D.A., Davies, S.J., Tan, S., Noor, N.S.M., The role of wood density and stem support costs in the growth and mortality of tropical trees (2006) Journal of Ecology, 94, pp. 670-680; King, D.A., Davies, S.J., Tan, S., Noor, N.S.M., Trees approach gravitational limits to height in tall lowland forests of Malaysia (2009) Functional Ecology, 23, pp. 284-291; Kooyman, R.M., Westoby, M., Costs of height gain in rainforest saplings: Main-stem scaling, functional traits and strategy variation across 75 species (2009) Annals of Botany, 104, pp. 987-993; Lachenbruch, B., Johnson, G.R., Downes, G.M., Evans, R., Relationships of density, microfibril angle, and sound velocity with stiffiness and strength in mature wood of douglas-fr (2010) Canadian Journal of Forest Research, 40, pp. 55-64; Lachenbruch, B., Moore, J.R., Evans, R., Radial variation in wood structure and function in woody plants, and hypotheses for its occurrence (2011) Size-and Age-related Changes in Tree Structure and Function, pp. 121-164. , Meinzer FC, Lachenbruch B, Dawson TE, eds. Netherlands: Springer; Lang, A.C., Haerdtle, W., Bruelheide, H., Geissler, C., Nadrowski, K., Schuldt, A., Yu, M., Von Oheimb, G., Tree morphology responds to neighbourhood competition and slope in species-rich forests of subtropical China (2010) Forest Ecology and Management, 260, pp. 1708-1715; Larjavaara, M., Maintenance cost, toppling risk and size of trees in a self-thinning stand (2010) Journal of Theoretical Biology, 265, pp. 63-67; Larjavaara, M., Muller-Landau, H.C., Rethinking the value of high wood density (2010) Functional Ecology, 24, pp. 701-705; Larjavaara, M., Muller-Landau, H.C., Still rethinking the value of high wood density (2012) American Journal of Botany, 99, pp. 165-168; Lens, F., Smets, E., Melzer, S., Stem anatomy supports arabidopsis thaliana as a model for insular woodiness (2012) New Phytologist, 193, pp. 12-17; Lopez, D., Michelin, S., De Langre, E., Flow-induced pruning of branched systems and brittle reconfguration (2011) Journal of Theoretical Biology, 284, pp. 117-124; Makela, A., Grace, J.C., Deckmyn, G., Kantola, A., Campioli, M., Simulating wood quality in forest management models (2010) Forest Systems, 19, pp. 48-68; Martínez-Cabrera, H.I., Schenk, H.J., Cevallos-Ferriz, S.R.S., Jones, C.S., Integration of vessel traits, wood density, and height in angiosperm shrubs and trees (2011) American Journal of Botany, 98, pp. 915-922; Martone, P.T., Boller, M., Burgert, I., Dumais, J., Edwards, J., Mach, K., Rowe, N., Speck, T., Mechanics without muscle: Biomechanical inspiration from the plant world (2010) Integrative and Comparative Biology, 50, pp. 888-907; Matsuzaki, J., Masumori, M., Tange, T., Stem phototropism of trees: A possible significant factor in determining stem inclination on forest slopes (2006) Annals of Botany, 98, pp. 573-581; McMahon, T.A., Size and shape in biology (1973) Science, 179, pp. 1202-1204; Medhurst, J., Downes, G., Ottenschlaeger, M., Harwood, C., Evans, R., Beadle, C., Intra-specific competition and the radial development of wood density, microfibril angle and modulus of elasticity in plantation-grown eucalyptus nitens (2012) Trees – Structure and Function, 26, pp. 1771-1780; Menard, L., McKey, D., Rowe, N., Developmental plasticity and biomechanics of treelets and lianas in manihot aff. Quinquepartita (Euphorbiaceae): A branch-angle climber of french guiana (2009) Annals of Botany, 103, pp. 1249-1259; Moulia, B., Plant biomechanics and mechanobiology are convergent paths to fourishing interdisciplinary research (2013) Journal of Experimental Botany, 64, pp. 4617-4633; Moulia, B., Coutand, C., Lenne, C., Posture control and skeletal mechanical acclimation in terrestrial plants: Implications for mechanical modeling of plant architecture (2006) American Journal of Botany, 93, pp. 1477-1489; Moulia, B., Der Loughian, C., Bastien, R., Integrative mechanobiology of growth and architectural development in changing mechanical environments (2011) Mechanical Integration of Plant Cells and Plants, 9, pp. 269-302. , Wojtaszek P, ed. Berlin/Heidelberg: Springer; Moulia, B., Fournier, M., The power and control of gravitropic movements in plants: A biomechanical and systems biology view (2009) Journal of Experimental Botany, 60, pp. 461-486; Moulia, B., Fournier-Djimbi, M., Optimal mechanical design of plant stems: The models behind the allometric power laws (1997) Proceedings of the First Plant Biomechanics Conference, , Vincent JFV, Jeronimidis G, eds. Reading: Centre for Biomimetics; Niklas, K.J., Dependency of the tensile modulus on transverse dimensions, water potential, and cell number of pith parenchyma (1988) American Journal of Botany, 75, pp. 1286-1292; Niklas, K.J., Plant biomechanics (1992) An Engineering Approach to Plant Form and Function, , Chicago: University of Chicago Press; Niklas, K.J., Plant allometry (1994) The Scaling of Form and Process, , Chicago: University of Chicago Press; Niklas, K.J., Mechanical properties of black locust (Robinia pseudoacacia L.) wood. Size- and age-dependent variations in sap-and heartwood (1997) Annals of Botany, 79, pp. 265-272; Niklas, K.J., Computing factors of safety against wind-induced tree stem damage (2000) Journal of Experimental Botany, 51, pp. 797-806; Niklas, K.J., Maximum plant height and the biophysical factors that limit it (2007) Tree Physiology, 27, pp. 433-440; Niklas, K.J., Cobb, E.D., Marler, T., A comparison between the record height-to-stem diameter allometries of pachycaulis and leptocaulis species (2006) Annals of Botany, 97, pp. 79-83; Niklas, K.J., Spatz, H.C., Vincent, J., Plant biomechanics: An overview and prospectus (2006) American Journal of Botany, 93, pp. 1369-1378; Niklas, K.J., Spatz, H.-C., Response to klaus mattheck's letter (2000) Trees – Structure and Function, 15, pp. 64-65; Niklas, K.J., Spatz, H.C., Growth and hydraulic (not mechanical) constraints govern the scaling of tree height and mass (2004) Proceedings of the National Academy of Sciences, USA, 101, pp. 15661-15663; Niklas, K.J., Spatz, H.C., Worldwide correlations of mechanical properties and green wood density (2010) American Journal of Botany, 97, pp. 1587-1594; Osunkoya, O.O., Omar-Ali, K., Amit, N., Dayan, J., Daud, D.S., Sheng, T.K., Comparative height-crown allometry and mechanical design in 22 tree species of kuala belalong rainforest, brunei, borneo (2007) American Journal of Botany, 94, pp. 1951-1962; Plucinski, M., Plucinski, S., Rodriguez-Iturbe, I., Consequences of the fractal architecture of trees on their structural measures (2008) Journal of Theoretical Biology, 251, pp. 82-92; Pretzsch, H., Forest dynamics, growth and yield (2009) From Measurement to Model, , Heidelberg: Springer; Read, J., Evans, R., Sanson, G.D., Kerr, S., Jaffre, T., Wood properties and trunk allometry of co-occurring rainforest canopy trees in a cyclone-prone environment (2011) American Journal of Botany, 98, pp. 1762-1772; Read, J., Stokes, A., Plant biomechanics in an ecological context (2006) American Journal of Botany, 93, pp. 1546-1565; Rodriguez, M., Langre, E., Moulia, B., A scaling law for the effects of architecture and allometry on tree vibration modes suggests a biological tuning to modal compartmentalization (2008) American Journal of Botany, 95, pp. 1523-1537; Rowe, N., Speck, T., Plant growth forms: An ecological and evolutionary perspective (2005) New Phytologist, 166, pp. 61-72; Salmen, L., Burgert, I., Cell wall features with regard to mechanical performance. A review COST action E35 2004-2008: Wood machining – Micromechanics and fracture (2009) Holzforschung, 63, pp. 121-129; Saren, M.P., Serimaa, R., Andersson, S., Saranpaa, P., Keckes, J., Fratzl, P., Effect of growth rate on mean microfibril angle and cross-sectional shape of tracheids of Norway spruce (2004) Trees – Structure and Function, 18, pp. 354-362; Schindler, D., Bauhus, J., Mayer, H., Wind effects on trees (2012) European Journal of Forest Research, 131, pp. 159-163; Scurfield, G., Reaction wood: Its structure and function (1973) Science, 179, pp. 647-655; Sellier, D., Fourcaud, T., Crown structure and wood properties: Influence on tree sway and response to high winds (2009) American Journal of Botany, 96, pp. 885-896; Siau, J.F., (1984) Transport Processes in Wood, , Berlin/Heidelberg: Springer; Sierra-De-Grado, R., Pando, V., Martinez-Zurimendi, P., Penalvo, A., Bascones, E., Moulia, B., Biomechanical differences in the stem straightening process among pinus pinaster provenances. A new approach for early selection of stem straightness (2008) Tree Physiology, 28, pp. 835-846; Sterck, F.J., Bongers, F., Ontogenetic changes in size, allometry, and mechanical design of tropical rain forest trees (1998) American Journal of Botany, 85, pp. 266-272; Stokes, A., (2000) The Supporting Roots of Trees and Woody Plants: Form, Function and Physiology, , Dordrecht, The Netherlands: Kluwer Academic Publishers; Sultan, S.E., Phenotypic plasticity for plant development, function and life history (2000) Trends in Plant Science, 5, pp. 537-542; Swenson, N.G., Enquist, B.J., Ecological and evolutionary determinants of a key plant functional trait: Wood density and its community-wide variation across latitude and elevation (2007) American Journal of Botany, 94, pp. 451-459; Taneda, H., Tateno, M., The criteria for biomass partitioning of the current shoot: Water transport versus mechanical support (2004) American Journal of Botany, 91, pp. 1949-1959; Tateno, M., Increase in lodging safety factor on thigmomorphogenetically dwarfed shoots of mulberry tree (1991) Physiologia Plantarum, 81, pp. 239-243; Tobin, B., Cermak, J., Chiatante, D., Towards developmental modelling of tree root systems (2007) Plant Biosystems, 141, pp. 481-501; Turner, I.M., (2001) The Ecology of Trees in the Tropical Rain Forest, , Cambridge: Cambridge University Press; Van Gelder, H.A., Poorter, L., Sterck, F.J., Wood mechanics, allometry, and life-history variation in a tropical rain forest tree community (2006) New Phytologist, 171, pp. 367-378; Violle, C., Navas, M.-L., Vile, D., Kazakou, E., Fortunel, C., Hummel, I., Garnier, E., Let the concept of trait be functional! (2007) Oikos, 116, pp. 882-892; Waghorn, M.J., Watt, M.S., Stand variation in pinus radiata and its relationship with allometric scaling and critical buckling height (2013) Annals of Botany, 111, pp. 675-680; Watt, M.S., Moore, J.R., Facon, J.-P., Modelling environmental variation in young's modulus for pinus radiata and implications for determination of critical buckling height (2006) Annals of Botany, 98, pp. 765-775; Westoby, M., Falster, D.S., Moles, A.T., Vesk, P.A., Wright, I.J., Plant ecological strategies: Some leading dimensions of variation between species (2002) Annual Review of Ecology and Systematics, 33, pp. 125-159; Wright, I.J., Reich, P.B., Westoby, M., The worldwide leaf economics spectrum (2004) Nature, 428, pp. 821-827; Wright, S.D., McConnaughay, K.D.M., Interpreting phenotypic plasticity: The importance of ontogeny (2002) Plant Species Biology, 17, pp. 119-131; Xu, P., Liu, H., Models of microfibril elastic modulus parallel to the cell axis (2004) Wood Science and Technology, 38, pp. 363-374; Yang, J.L., Bailleres, H., Evans, R., Downes, G., Evaluating growth strain of eucalyptus globulus labill. From SilviScan measurements (2006) Holzforschung, 60, pp. 574-579; Yang, J.L., Evans, R., Prediction of MOE of eucalypt wood from microfibril angle and density (2003) Holz Als Roh und Werkstoff, 61, pp. 449-452; Yoshida, M., Okuyama, T., Techniques for measuring growth stress on the xylem surface using strain and dial gauges (2002) Holzforschung, 56, pp. 461-467; Zhang, S.-B., Slik, J.W.F., Zhang, J.-L., Cao, K.-F., Spatial patterns of wood traits in China are controlled by phylogeny and the environment (2011) Global Ecology and Biogeography, 20, pp. 241-250			Approved	no
	Call Number	EcoFoG @ webmaster @			Serial	513
Permanent link to this record