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Hardwood Species (hardwood + species)
Selected AbstractsPersistence of Cryphonectria hypoviruses after their release for biological control of chestnut blight in West Virginia forestsFOREST PATHOLOGY, Issue 6 2002Y.-C. Liu Summary Although Cryphonectria hypoviruses have been relatively successful as biological control agents of chestnut blight in Europe, their success in North America has been limited. Experimental releases of hypoviruses were made in 1978,82 at two sites in West Virginia forests with high densities of regenerating chestnut trees. Cryphonectria hypovirus 1 (CHV-1) from Europe, as well as American isolates of Cryphonectria parasitica containing CHV-3, were used for these releases. Although most trees died during the 5-year release period, it was not known if the hypoviruses persisted in the C. parasitica population at the two sites. When the experimental plots were revisited in 1994, few chestnut trees were found. The exception was one plot containing coppice sprouts that had grown from the root collars of the original trees. The authors intensively sampled C. parasitica from experimental plots and screened recovered isolates for double-stranded RNA (dsRNA). None of the isolates contained CHV-1; only six isolates contained CHV-3, all from the plots with the coppice sprouts. CHV-4, which occurs naturally in West Virginia forests and in two released isolates, hybridized to dsRNA from the isolates containing CHV-3, indicating mixed infections. CHV-4 also hybridized to dsRNA from other isolates sampled inside and outside the treated plots. In contrast to CHV-1 and CHV-3, however, CHV-4 has little effect on the growth or phenotype of C. parasitica. The limited persistence of CHV-1 and CHV-3 may have resulted when the C. parasitica population was reduced in size due to the failure of chestnut trees to resprout because of competition from other hardwood species. Résumé Bien que les hypovirus de Cryphonectria aient remporté un réel succès comme agents de lutte biologique contre le chancre du châtaignier en Europe, leur succès en Amérique du nord a été limité. Des applications d'hypovirus ont été faites en 1978,1982 en Virginie de l'ouest dans deux sites forestiers à fortes densités de régénérations de châtaigniers. Le CHV-1 originaire d'Europe ainsi que des isolats américains contenant le CHV-3 ont été utilisés dans ces essais. Bien que la plupart des arbres soient morts pendant les cinq ans de l'application, on ne sait pas si les hypovirus ont persisté dans la population de Cryphonectria parasitica. Quand les parcelles expérimentales ont été revisitées en 1994, peu de châtaigniers ont été trouvés. Un site faisait exception qui était un taillis de rejets issu de racines de souches. Nous avons échantillonné intensivement le C. parasitica dans les placettes et le dsRNA a été examiné dans les isolats obtenus. Parmi tous les isolats provenant des placettes de taillis, aucun ne contenait CHV-1 et seulement six contenaient CHV-3. CHV-4 qui existe naturellement dans les forêts en Virginie de l'ouest et dans deux des isolats appliqués, s'hybridait avec le dsRNA d'autres isolats contenant CHV-3, ce qui indique des infections mixtes. CHV-4 s'hybridait aussi avec le dsRNA d'autres isolats recueillis dans ou au dehors des placettes traitées. Contrairement à CHV1 et à CHV-3, CHV-4 a cependant peu d'effet sur la croissance et le phénotype de C. parasitica. La persistance limitée de CHV-1 et de CHV-3 peut avoir résulté de la réduction de la population de C. parasitica par un manque de rejets de châtaigniers dûà la compétition avec les autres espèces de feuillus. Zusammenfassung Währenddem der Einsatz von Cryphonectria Hypoviren zur biologischen Bekämpfung des Kastanienrindenkrebses in Europa relativ erfolgreich war, stimmt dies in Nordamerika nur begrenzt. In West-Virginia wurden in den Jahren 1978,82 Hypoviren in Experimenten an zwei Waldstandorten mit hoher Dichte regenerierender Edelkastanien freigesetzt. Cryphonectria hypovirus 1 (CHV-1) von Europa und amerikanische Isolate von Cryphonectria parasitica, die CHV-3 enthielten, wurden für diese Freisetzungsversuche verwendet. Obschon die meisten Bäume während der fünfjährigen Freisetzungsperiode abstarben, war unklar, ob die Hypoviren in der C. parasitica Population überlebten. Als die Versuchsflächen im Jahre 1994 erneut aufgesucht wurden, konnten nur noch wenige Edelkastanien gefunden werden mit Ausnahme einer Fläche, auf der die Wurzelanläufe ursprünglicher Bäume Stockausschläge trugen. Zahlreiche C. parasitica Stämme wurden von den Versuchsflächen gewonnen und auf Besiedlung mit dsRNA untersucht. Keines der Isolate enthielt CHV-1; nur sechs Isolate, welche alle von der Fläche mit den Stockausschlägen stammten, enthielten CHV-3. CHV-4, das natürlich in den Wäldern West-Viriginias vorkommt und in zwei der freigesetzten Isolate vorhanden war, hybridisierte mit dsRNA aus den Isolaten, die CHV-3 enthielten, was auf eine Mischinfektion hindeutet. CHV-4 hybridisierte auch mit dsRNA aus anderen Isolaten, die innerhalb und ausserhalb der behandelten Versuchsflächen gesammelt wurden. Im Gegensatz zu CHV-1 und CHV-3 war der Einfluss von CHV-4 auf den Phänotyp von C. parasitica gering. Die begrenzte Persistenz von CHV-1 und CHV-3 wird möglicherweise durch die Abnahme der C. parasitica Population als Folge des Ausbleibens der Regeneration der Edelkastanie bedingt. Erschwerend für die Edelkastanien dürfte sich zudem die Konkurrenz mit anderen Laubhölzern auswirken. [source] Temporal dynamics and spatial variability in the enhancement of canopy leaf area under elevated atmospheric CO2GLOBAL CHANGE BIOLOGY, Issue 12 2007HEATHER R. McCARTHY Abstract Increased canopy leaf area (L) may lead to higher forest productivity and alter processes such as species dynamics and ecosystem mass and energy fluxes. Few CO2 enrichment studies have been conducted in closed canopy forests and none have shown a sustained enhancement of L. We reconstructed 8 years (1996,2003) of L at Duke's Free Air CO2 Enrichment experiment to determine the effects of elevated atmospheric CO2 concentration ([CO2]) on L before and after canopy closure in a pine forest with a hardwood component, focusing on interactions with temporal variation in water availability and spatial variation in nitrogen (N) supply. The dynamics of L were reconstructed using data on leaf litterfall mass and specific leaf area for hardwoods, and needle litterfall mass and specific leaf area combined with needle elongation rates, and fascicle and shoot counts for pines. The dynamics of pine L production and senescence were unaffected by elevated [CO2], although L senescence for hardwoods was slowed. Elevated [CO2] enhanced pine L and the total canopy L (combined pine and hardwood species; P<0.050); on average, enhancement following canopy closure was ,16% and 14% respectively. However, variation in pine L and its response to elevated [CO2] was not random. Each year pine L under ambient and elevated [CO2] was spatially correlated to the variability in site nitrogen availability (e.g. r2=0.94 and 0.87 in 2001, when L was highest before declining due to droughts and storms), with the [CO2]-induced enhancement increasing with N (P=0.061). Incorporating data on N beyond the range of native fertility, achieved through N fertilization, indicated that pine L had reached the site maximum under elevated [CO2] where native N was highest. Thus closed canopy pine forests may be able to increase leaf area under elevated [CO2] in moderate fertility sites, but are unable to respond to [CO2] in both infertile sites (insufficient resources) and sites having high levels of fertility (maximum utilization of resources). The total canopy L, representing the combined L of pine and hardwood species, was constant across the N gradient under both ambient and elevated [CO2], generating a constant enhancement of canopy L. Thus, in mixed species stands, L of canopy hardwoods which developed on lower fertility sites (,3 g N inputs m,2 yr,1) may be sufficiently enhanced under elevated [CO2] to compensate for the lack of response in pine L, and generate an appreciable response of total canopy L (,14%). [source] Insect growth-reducing and antifeedant activity in Eastern North America hardwood species and bioassay-guided isolation of active principles from Prunus serotinaAGRICULTURAL AND FOREST ENTOMOLOGY, Issue 4 2000S. Omar Abstract 1 Thirty extracts of wood and bark of hardwood trees from Eastern North America were examined for insect growth-reducing activity in a bioassay with European corn borer, Ostrinia nubilalis, and an antifeedant bioassay with the rice weevil, Sitophilus oryzae. 2 Nine of the bark extracts and four of the wood extracts showed significant growth reducing effects at 0.5% in meridic diets, whereas only two bark extracts and one wood extract showed significant antifeedant effect at the same concentration. 3 Slower growing tree species were more biologically active than fast growing ones. Isolation of the bioactive compounds in one of the active species, Prunus serotina, showed that naringenin, its derivative methoxynaringenin, and eriodictyol were responsible for the antifeedant effects. [source] Long-term post-fire changes in the northeastern boreal forest of QuebecJOURNAL OF VEGETATION SCIENCE, Issue 6 2000Louis De Grandpré Abstract. Natural dynamics in the boreal forest is influenced by disturbances. Fire recurrence affects community development and landscape diversity. Forest development was studied in the northeastern boreal forest of Quebec. The objective was to describe succession following fire and to assess the factors related to the changes in forest composition and structure. The study area is located in northeastern Quebec, 50 km north of Baie-Comeau. We used the forest inventory data gathered by the Ministère des Ressources naturelles du Québec (MRNQ). In circular plots of 400 m2, the diameter at breast height (DBH) of all stems of tree species greater than 10 cm was recorded and in 40 m2 subplots, stems smaller than 10 cm were measured. A total of 380 plots were sampled in an area of 6000 km2. The fire history reconstruction was done based on historical maps, old aerial photographs and field sampling. A time-since-fire class, a deposit type, slope, slope aspect and altitude were attributed to each plot. Each plot was also described according to species richness and size structure characteristics. Traces of recent disturbance were also recorded in each plot. Changes in forest composition were described using ordination analyses (NMDS and CCA) and correlated with the explanatory variables. Two successional pathways were observed in the area and characterized by the early dominance of intolerant hardwood species or Picea mariana. With time elapsed since the last fire, composition converged towards either Picea mariana, Abies balsamea or a mixture of both species and the size structure of the coniferous dominated stands got more irregular. The environmental conditions varied between stands and explained part of the variability in composition. Their effect tended to decrease with increasing time elapsed since fire, as canopy composition was getting more similar. Gaps may be important to control forest dynamics in old successional communities. [source] Fusion characteristics of rigid PVC/wood-flour composites by torque rheometryJOURNAL OF VINYL & ADDITIVE TECHNOLOGY, Issue 1 2007Laurent M. Matuana This study was aimed at examining the effects of wood flour contents, wood species (softwood vs. hardwood), and particle size on the fusion characteristics (fusion time, fusion temperature, fusion torque, and fusion energy) of rigid PVC/wood-flour composites in a torque rheometer. Neat rigid PVC exhibited one fusion peak, whereas the addition of wood flour into the PVC matrix led to two fusion peaks. Increased wood flour content caused a significant increase in the time, temperature, and energy at which fusion between the primary particles started, thereby leading to increased fusion torque, irrespective of the wood flour species. These results implied that rigid PVC filled with wood flour must be processed at higher temperatures than neat resin. Although fusion characteristics of the composites were influenced by the wood species, a clear trend between softwood and hardwood species could not be established. However, finer particles fused more quickly and needed less energy than coarse ones. J. VINYL ADDIT. TECHNOL., 13:7,13, 2007. © 2007 Society of Plastics Engineers. [source] Isolation, characterization, and cross-amplification of polymorphic microsatellite loci in Guaiacum coulteri (Zygophyllaceae)MOLECULAR ECOLOGY RESOURCES, Issue 3 2008ROSS A. MCCAULEY Abstract Guaiacum coulteri is a dry forest hardwood species of conservation concern endemic to the Pacific coast of Mexico. Fifteen microsatellite markers were developed which show high levels of polymorphism across two populations with the number of alleles ranging from four to 21. Most loci additionally exhibited consistent multiple banding patterns, indicating the likely polyploidy of this species. All loci were tested for cross-amplification with most found to amplify well across the genus Guaiacum, although amplification in other related genera of the Zygophyllaceae was limited. [source] The challenge of tree height in Eucalyptus regnans: when xylem tapering overcomes hydraulic resistanceNEW PHYTOLOGIST, Issue 4 2010Giai Petit Summary ,Recent research suggests that increasing conduit tapering progressively reduces hydraulic constraints caused by tree height. Here, we tested this hypothesis using the tallest hardwood species, Eucalyptus regnans. ,Vertical profiles of conduit dimensions and vessel density were measured for three mature trees of height 47, 51 and 63 m. ,Mean hydraulic diameter (Dh) increased rapidly from the tree apex to the point of crown insertion, with the greatest degree of tapering yet reported (b > 0.33). Conduit tapering was such that most of the total resistance was found close to the apex (82,93% within the first 1 m of stem) and the path length effect was reduced by a factor of 2000. Vessel density (VD) declined from the apex to the base of each tree, with scaling parameters being similar for all trees (a = 4.6; b = ,0.5). ,Eucalyptus regnans has evolved a novel xylem design that ensures a high hydraulic efficiency. This feature enables the species to grow quickly to heights of 50,60 m, beyond the maximum height of most other hardwood trees. [source] | |||||||||||||