Your search keyword '"Taylor, Gail"' showing total 6 results

1. Plasticity of growth and biomass production of an intraspecific Populus alba family grown at three sites across Europe during three growing seasons.

Author

Marron, Nicolas, Ricciotti, Luca, Bastien, Catherine, Beritognolo, Isacco, Gaudet, Muriel, Paolucci, Isabella, Fabbrini, Francesco, Salani, Francesco, Dillen, Sophie Y., Ceulemans, Reinhart, Pinel, Matthieu P.C., Taylor, Gail, Scarascia-Mugnozza, Giuseppe, and Sabatti, Maurizio

Subjects

PHYSIOLOGICAL adaptation, POPULUS alba, PLANT growth, PLANT biomass

Abstract

Copyright of Canadian Journal of Forest Research is the property of Canadian Science Publishing and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2010

2. Capture of Particulate Pollution by Trees: A Comparison of Species Typical of Semi-Arid Areas (Ficus Nitida and Eucalyptus Globulus) with European and North American Species.

Author

Freer-Smith, P. H., El-Khatib, A. A., and Taylor, Gail

Subjects

AIR quality, AIR pollution, PLANTING design, LANDSCAPE design, EUCALYPTUS globulus

Abstract

Particulate pollution is a serious concern in developed countries especially in urban and suburban areas where it has adverse effects on human health, exacerbating a wide range of respiratory and vascular illnesses. Data are now available which indicate that similar problems probably occur in countries in transition and may indeed be worse where national air quality standards have been neither set nor monitored. Recently a variety of approaches using both wind tunnel and field measurements have suggested that trees can significantly reduce such adverse effects through their ability to capture pollutant particles. It is clear that species choice, planting design and location relative to pollution source are critical in determining the effectiveness of particle capture by trees. Here we present relative deposition velocities and capture efficiencies of five species used widely in woodland of urban and periurban areas of Europe (Quercus petraea (oak), Alnus glutinosa (alder), Fraxinus excelsior (ash), Acer pseudo-platanus (sycamore) and Pseudotsuga menziesii (Douglas fir)), and for two species being used increasingly in semi-arid regions, (Ficus nitida (weeping fig) and Eucalyptus. globulus (Eucalyptus)). These data are for species not previously worked on and measurements were made at three windspeeds. Deposition velocities and capture efficiencies are compared with those published for other tree species, with the values of deposition velocity ranging from 0.1 to 0.3 cm s -1 at a windspeed of 3 m s -1 to maximum values 2.9 cm s -1 at 9 m s -1 windspeed. Species with more complex stem structure and smaller leaves had greater relative deposition velocities. The use of such data in models to guide species choice and planting design in order to maximise particle removal from urban air are considered. [ABSTRACT FROM AUTHOR]

Published

2004

3. The control of ozone uptake by Picea abies (L.) Karst. and P. sitchensis (Bong.) Carr. during drought and interacting effects on shoot water relations.

Author

Dobson, M. C., Taylor, Gail, and Freer-Smith, P. H.

Subjects

*NORWAY spruce, *OZONE, *DROUGHTS, *PLANT-water relationships, *EFFECT of ozone on plants

Abstract

Exposure to O3 alone has not yet been shown to reproduce the symptoms of the various types of spruce decline which have been identified in Europe. However, there is increasing evidence that this pollutant has physiological effects which interact with those of other environmental factors in ways which may be important in determining tree condition and growth. The effects of O3 episodes and drought on O3 uptake, gas exchange and water relations of Picea abies (L.) Kant. and P. sitchensis (Bong.) Carr. were investigated in two experiments. In the first a rapidly drying soil mixture was used, and seedlings of P. abies were exposed to short (2 h) daily episodes of O3 at 80 nl 1&sup-1; on each day of a 5 d drought. Photosynthesis (A) and stomatal conductance (gs) were significantly decreased (P = 001) by water deficit and as a consequence, uptake of O3 by the plants was also significantly decreased. Exposure to O3 did not affect A or gOs for this species. In the second experiment a soil mixture designed to give a slower development of water deficit was used and 1 + 1 transplants of P. sitchensis were exposed to a single O3 episode (up to 100 nI1&sup-1; for 3 h) after water had been withheld for 7 or 14 d. Höfler diagrams showed that mild water deficits did not affect shoot water relations. However, O3 significantly increased solute potential (φOs) after 7 d of drought, an effect which was lost after 14 d of drought. Flux of O3 to the watered plants was greater than to the unwatered plants at all concentrations, the effect being more marked at higher concentrations. This effect was partly attributable to the greater stomatal conductances recorded for the well watered plants, but was also partly due to stomatal opening caused by O3, an effect which was diminished or reversed for unwatered plants. [ABSTRACT FROM AUTHOR]

Published

1990

4. The influence of the global electric power system on terrestrial biodiversity.

Author

Holland RA, Scott K, Agnolucci P, Rapti C, Eigenbrod F, and Taylor G

Subjects

Climate Change, Ecosystem, Electric Power Supplies classification, Europe, Greenhouse Gases, Renewable Energy, Solar Energy, Wind, Biodiversity, Conservation of Natural Resources, Electric Power Supplies adverse effects, Electricity

Abstract

Given its total contribution to greenhouse gas emissions, the global electric power sector will be required to undergo a fundamental transformation over the next decades to limit anthropogenic climate change to below 2 °C. Implications for biodiversity of projected structural changes in the global electric power sector are rarely considered beyond those explicitly linked to climate change. This study uses a spatially explicit consumption-based accounting framework to examine the impact of demand for electric power on terrestrial vertebrate biodiversity globally. We demonstrate that the biodiversity footprint of the electric power sector is primarily within the territory where final demand for electric power resides, although there are substantial regional differences, with Europe displacing its biodiversity threat along international supply chains. The relationship between size of individual components of the electric power sector and threat to biodiversity indicates that a shift to nonfossil sources, such as solar and wind, could reduce pressures on biodiversity both within the territory where demand for power resides and along international supply chains. However, given the current levels of deployment of nonfossil sources of power, there is considerable uncertainty as to how the impacts of structural changes in the global electric power system will scale. Given the strong territorial link between demand and associated biodiversity impacts, development of strong national governance around the electric power sector represents a clear route to mitigate threats to biodiversity associated with efforts to decarbonize society over the coming century., Competing Interests: The authors declare no competing interest., (Copyright © 2019 the Author(s). Published by PNAS.)

Published

2019

5. Genetic and morphological differentiation in Populus nigra L.: isolation by colonization or isolation by adaptation?

Author

DeWoody J, Trewin H, and Taylor G

Subjects

Climate, Ecotype, Europe, Evolution, Molecular, Gene Pool, Microsatellite Repeats, Phenotype, Populus anatomy & histology, Quantitative Trait, Heritable, Adaptation, Physiological genetics, Genetic Variation, Genetics, Population, Populus genetics

Abstract

Identifying processes underlying the genetic and morphological differences among populations is a central question of evolutionary biology. Forest trees typically contain high levels of neutral genetic variation, and genetic differences are often correlated with geographic distance between populations [isolation by distance (IBD)] or are due to historic vicariance events [isolation by colonization (IBC)]. In contrast, morphological differences are largely due to local adaptation. Here, we examined genetic (microsatellite) and morphological (from a common garden experiment) variation in Populus nigra L., European black poplar, collected from 13 sites across western Europe and grown in a common garden in Belgium. Significant genetic differentiation was observed, with populations from France displaying greater admixture than the distinct Spanish and central European gene pools, consistent with previously described glacial refugia (IBC). Many quantitative traits displayed a bimodal distribution, approximately corresponding to small-leaf and large-leaf ecotypes. Examination of nine climatic variables revealed the sampling locations to have diverse climates, and although the correlation between morphological and climatic differences was significant, the pattern was not consistent with strict local adaptation. Partial Mantel tests based on multivariate summary statistics identified significant residual correlation in comparisons of small-leaf to large-leaf ecotypes, and within the small-leaf samples, but not within large-leaf ecotypes, indicating that variation within the small-leaf morphotype in particular may be adaptive. Some small-leaf populations experience climates very similar to those in large-leaf sites. We conclude that adaptive differentiation and persistent IBC acted in combination to produce the genetic and morphological patterns observed in P. nigra., (© 2015 The Authors. Molecular Ecology Published by John Wiley & Sons Ltd.)

Published

2015

6. Plasticity of growth and sylleptic branchiness in two poplar families grown at three sites across Europe.

Author

Marron N, Bastien C, Sabatti M, Taylor G, and Ceulemans R

Subjects

Crosses, Genetic, Europe, Genotype, Hybrid Vigor, Phenotype, Plant Stems, Populus anatomy & histology, Populus genetics, Adaptation, Physiological, Environment, Populus growth & development

Abstract

Two hybrid poplar maternal half-sib families, resulting from controlled crosses of the female parent Populus deltoides 'S9-2' with P. nigra 'Ghoy' and P. trichocarpa 'V24', were grown at three sites: northern Italy, central France and southern England. Juvenile stem growth traits (height, circumference and volume) and sylleptic branchiness (number of branches, density of branches per unit of stem height, percentage of the stem carrying branches and distance of the highest sylleptic branch to the top of the stem) were measured on 1-year-old shoots. Our general objectives were to determine the degree to which the expression of stem growth and syllepsis and the relationships between them are affected by environmental conditions and to evaluate the efficiency of indirect selection for stem growth using branching traits as secondary criteria. The performance of both families differed significantly within and between sites. Pronounced heterosis was observed and highly significant genotype x environment interactions were found for all traits across the sites. Syllepsis showed more marked genetic variation and plasticity than stem growth traits. Relationships between sylleptic branchiness and stem growth depended on environmental conditions. Heritability values at the individual level ranged between 0.09 and 0.59, but genetic gain in stem volume was not significantly improved when selection was based on sylleptic branch characteristics. However, despite strong phenotypic plasticity among sites, genotypic ranking among the sites was relatively stable.

Published

2006