Your search keyword '"Philippe Rozenberg"' showing total 5 results

1. Genetic differentiation of European larch along an altitudinal gradient in the French Alps

Author

Yves Rousselle, Vanina Guérin, Leopoldo Sanchez, Maxime Nardin, Luc E. Pâques, Brigitte Musch, Sara Marin, Philippe Rozenberg, Jean-Pierre Rossi, and Sophie Gerber

Subjects

0106 biological sciences, Microsatellite markers, [SDV]Life Sciences [q-bio], genetic diversity, spatial genetic structure, Larix decidua, microsatellite markers, mountain, population structure, Population, Forest management, flux de gènes, Population genetics, Spatial genetic structure, Population structure, 010603 evolutionary biology, 01 natural sciences, Genetic diversity, mélèze, pcr, Genetic variation, alpes françaises, Mountain, education, gradient altitudinal, education.field_of_study, Vegetal Biology, dynamique des peuplements forestiers, Ecology, biology, aire de répartition, European Larch, facteur climatique, Forestry, 15. Life on land, biology.organism_classification, marqueur microsatellite, diversité génétique, Genetic structure, Larch, Biologie végétale, 010606 plant biology & botany

Abstract

Key message[br/] Despite variable dynamics of genetic diversification at the different altitudinal levels, strong gene flow tends to standardize larch genetic diversity: the larch forest distributed along the altitudinal gradient can be regarded as a single population.[br/] [br/] Context[br/] While in forest tree species many studies focus on the structure of the genetic diversity at the natural range and at the forest stand levels, few studies have worked at intermediate levels like the landscape level.[br/] [br/] Aims[br/] We tried to determine to what degree altitude variation can affect the genetic diversity and the local structure of the genetic diversity of European larch (Larix decidua Miller) at the landscape level.[br/] [br/] Methods[br/] Using microsatellite markers, we determined the between- and within-plot genetic structure and the spatial genetic structure (SGS) of four altitudinal plots distributed between 1,350 and 2,300 m a.s.l. in a European larch forest located in the French Alps.[br/] [br/] Results[br/] A homogenous neutral genetic structure was detected along this gradient. The intensity of the SGS was found to be stronger at 2,300 m and decreased at the 2,000-m plot. It was low or non-existent at the 1,700- and 1,350-m altitudinal levels.[br/] [br/] Conclusion[br/] Our results suggest that the genetic structure observed at the landscape level in this European larch forest was only slightly affected by climatic variation, human activities, or historical events. However, the variation of intensity of the SGS within the altitudinal plots indicates the existence of variable genetic dynamics, despite the globally uniform genetic structure along the altitudinal gradient.

Published

2015

2. Influence of cambial age and climate on ring width and wood density in Pinus radiata families

Author

Philippe Rozenberg, Harry X. Wu, Sergio Espinoza, Miloš Ivković, Washington J. Gapare, Forest and Wood Products Australia, and J.W. Gottstein Memorial Trust

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Radiata, Climate change, Growing season, Biology, Atmospheric sciences, Ring (chemistry), 01 natural sciences, [SDV.SA.SF]Life Sciences [q-bio]/Agricultural sciences/Silviculture, forestry, Botany, Dendrochronology, Radiata pine, Adaptation, Tree rings, Earlywood, Latewood, DOUGLAS-FIR, LONGITUDINAL DATA, GROWTH, DROUGHT, TRAITS, CLONES, SITES, 0105 earth and related environmental sciences, Ecology, Test site, Pinus radiata, Climatic variables, Forestry, 15. Life on land, biology.organism_classification, 13. Climate action, 010606 plant biology & botany

Abstract

International audience; The correlation between tree ring width and density and short-term climate fluctuations may be a useful tool for predicting response of wood formation process to long-term climate change. This study examined these correlations for different radiata pine genotypes and aimed at detecting potential genotype by climate interactions. Four data sets comprising ring width and density of half- and full-sib radiata pine families were used. Correlations with climate variables were examined, after the extraction of the effect of cambial age. Cambial age explained the highest proportion of the ring to ring variation in all variables. Calendar year and year by family interaction explained a smaller but significant proportion of the variation. Rainfall had a positive correlation with ring width and, depending on test site, either a negative or positive correlation with ring density. Correlations between temperature during growing season and ring density were generally negative. Climate variables that influence ring width and wood density can be identified from ring profiles, after removing the cambial age effect. Families can be selected that consistently show desirable response to climate features expected to become prevalent as a result of climate change.

Published

2013

3. Genetic control of pulp and timber properties in maritime pine (Pinus pinaster Ait.)

Author

Björn Hannrup, Helena Pereira, Gwynn Lloyd Jones, David Pot, Philippe Rozenberg, José Carlos Rodrigues, Christophe Plomion, Christine Cahalan, Guillaume Chantre, Unité de recherches forestières (BORDX PIERR UR ), Institut National de la Recherche Agronomique (INRA), and Unité de recherche Amélioration, Génétique et Physiologie Forestières (AGPF)

Subjects

bois, 0106 biological sciences, arbre forestier, Softwood, héritabilité, acceptabilité, Pinus pinaster Ait, heritability, engineering.material, wood quality, 01 natural sciences, corrélation génétique, [SDV.SA.SF]Life Sciences [q-bio]/Agricultural sciences/Silviculture, forestry, Botany, ComputingMilieux_MISCELLANEOUS, Mathematics, 040101 forestry, pinus pinaster, Ecology, biology, Pulp (paper), PIN MARITIME, GENETIQUE, AMELIORATION DES PLANTES, Forestry, 04 agricultural and veterinary sciences, 15. Life on land, biology.organism_classification, genetic correlation, tree breeding---qualité du bois, Agronomy, Kraft process, Genetic gain, engineering, 0401 agriculture, forestry, and fisheries, Tree breeding, Pinus pinaster, amélioration, Kraft paper, 010606 plant biology & botany, Woody plant

Abstract

International audience; Wood is one of our most important natural resources and has been exploited for many hundreds of years as fuel, building material and a source of paper. Its composition is variable among and within species. The ability to monitor the intra-specific variability is a prerequisite to improve wood and end-products properties. This paper describes a study of the genetic control of a large set of wood properties, including growth, timber quality traits, wood chemical composition, kraft pulp production parameters and pulp properties, in a 12 $\times$ 12 half diallel of maritime pine (Pinus pinaster Ait.). While relatively high (h$^{2}_{\rm ns} > 0.3$) narrow-sense heritabilities were observed for density heterogeneity, lignin content, alpha-cellulose content and coarseness, no significant genetic effect was detected for hemi cellulose, water extractives, kraft pulp production parameters and pylodin. Slightly lower heritabilities ($0.15 < {\rm h}^{2}_{\rm ns} < 0.3$) were also obtained for wood density and fibre properties (length, width, curl, zero span). As a consequence and considering the phenotypic coefficient of variation obtained for these traits, improvement by selection of trees with outstanding wood quality is feasible. Nevertheless, it seems obvious that wood quality breeding can not be done without taking into account growth, and the only way to manage this constraint (negative correlation between growth and density) will be the constitution of elite "wood quality" populations in a already growth improved genetic population.; Déterminisme génétique des propriétés du bois impliquées dans la production papetière et la qualité du bois d'œuvre chez le Pin maritime (Pinus pinaster Ait.). Le bois, une des ressources naturelles les plus importantes, est exploité depuis des centaines d'années comme combustible, matériau de construction et source de papier. Sa composition est très variable, non seulement entre espèces mais aussi au niveau intra spécifique. La compréhension de cette variabilité intra spécifique est un pré-requis de l'amélioration des propriétés des produits à base de bois. L'objectif de l'étude présentée ici est la compréhension du déterminisme génétique de plusieurs caractères impliqués dans la composition chimique et les propriétés du bois (caractéristiques physiques, paramètres de production industrielle et propriétés de la pâte) grâce à l'étude d'un demi diallèle 12 $\times$ 12. Bien que des héritabilités au sens strict relativement élevées (h$^{2}_{\rm ns} >0,3$) aient été obtenues pour l'hétérogénéité de la densité, les contenus en lignine et en alpha-cellulose et la masse linéique, aucun effet génétique significatif n'a été mis en évidence pour le contenu en hémi-cellulose, les extractibles, les paramètres de production de pâtes kraft, et la densité estimée grâce au pilodyn. Des héritabilités plus faibles ($0.15 < {\rm h}^{2}_{\rm ns} < 0.3$) ont quant à elles été obtenues pour la densité du bois et les propriétés des fibres (longueur, largeur, courbure, rigidité). En conséquence, considérant les coefficients de variation phénotypiques obtenus pour ces caractères, des gains génétiques significatifs peuvent être attendus. Néanmoins, l'amélioration des propriétés du bois ne pourra pas se faire sans prendre en compte la croissance. Le seul moyen de gérer cette contrainte (induite par des corrélations négatives entre croissance et densité) sera la constitution de populations élites pour la qualité du bois au sein de bases génétiques déjà améliorées pour la croissance.

Published

2002

4. Genetic control of stiffness of standing Douglas fir; from the standing stem to the standardised wood sample, relationships between modulus of elasticity and wood density parameters. Part II

Author

Cécile Mamdy, Jean Charles Bastien, Alain Franc, N. Schermann, Jean Launay, and Philippe Rozenberg

Subjects

Softwood, Mathematical analysis, Stiffness, Mineralogy, Young's modulus, Plant Science, symbols.namesake, symbols, medicine, medicine.symptom, Elasticity (economics), Elastic modulus, Douglas fir, Mathematics

Abstract

Fairly strong positive relationships between stiffness and density have often been reported. No stronger relationships have been found when using parameters of density profiles based on an earlywood-latewood boundary. In this study, we attempt to model the relationships among the stiffness of different samples and simple parameters derived from microdensity profiles, not established according to an earlywood-latewood boundary. Furthermore, we try to determine if there is a genetic variation for the relationship between stiffness and density. From the results, we find that the strongest relationship between a single density parameter and stiff- ness is r0.78, whereas it is r = 0.37 when involving a classical within-ring density parameter. At clone level, r 2 ranges from 0.88 to 0.95, while it is 0.51 for the bulked samples. The mathematical form of the models differ from one clone to another: there is a

Published

1999

5. Erratum to: Coastal and interior Douglas-fir provenances differ in growth performance and response to drought episodes at adult age

Author

Anne-Sophie Sergent, Nathalie Bréda, Leopoldo Sanchez, Jean-Charles Bastien, and Philippe Rozenberg

Subjects

Ecology, Forestry

Published

2014