SEARCH

SEARCH BY CITATION

REFERENCES

  • Alonso-Blanco C., El-Assal S.E., Coupland G. & Koornneef M. (1998) Analysis of natural allelic variation at flowering time loci in the landsberg erecta and Cape Verde Islands ecotypes of Arabidopsis thaliana. Genetics 149, 749764.
  • Andersson A., Kesikitalo J., Sjodin A., et al. (2004) A transcriptional timetable of autumn senescence. Genome Biology 5, R24.
  • Baldocchi D., Falge E., Gu L.H., et al. (2001) FLUXNET: a new tool to study the temporal and spatial variability of ecosystem-scale carbon dioxide, water vapor, and energy flux densities. Bulletin of the American Meteorological Society 82, 24152434.
  • Beerling D.J. & Woodward F.I. (1997) Changes in land plant function over the Phanerozoic: reconstructions based on the fossil record. Botanical Journal of the Linnean Society 124, 137153.
  • Bradshaw H.D. & Stettler R.F. (1993) Molecular genetics of growth and development in Populus. I. Triploidy in hybrid poplars. Theoretical and Applied Genetics 86, 301307.
  • Bradshaw H.D. & Stettler R.F. (1995) Molecular genetics of growth and development in Populus. IV. Mapping QTLs with large effects on growth, form, and phenology traits in a forest tree. Genetics 139, 963973.
  • Bradshaw H.D., Villar M., Watson B.D., Otto K.G., Stewart S. & Stettler R.F. (1994) Molecular genetics of growth and development in Populus. III. A genetic linkage map of a hybrid poplar composed of RFLP, STS and RAPD markers. Theoretical and Applied Genetics 89, 167178.
  • Brown G.R., Bassoni D.L., Gill G.P., Fontana J.R., Wheeler N.C., Megraw R.A., Davis M.F., Sewell M.M., Tuskan G.A. & Neale D.B. (2003) Identitfication of quantitative trait loci influencing wood property traits in lobolly pine (Pinus taeda L.). III. QTL verification and candidate gene mapping. Genetics 164, 15371546.
  • Brunner A.M., Busov V.B. & Strauss S.H. (2004) The poplar genome sequence: functional genomics in a Keystone plant species. Trends in Plant Science 9, 4956.
  • Churchill G.A. & Doerge R.W. (1994) Empirical threshold values for quantitative trait mapping. Genetics 138, 963971.
  • Falconer D.S. & Mackay T.F.C. (1996) Introduction to Quantitative Genetics. Pearson Education Limited, Harlow, UK.
  • Feder M.E. & Mitchell-Olds T. (2003) Evolutionary and ecological functional genomics. Nature Review Genetics 4, 649655.
  • Ferris R., Sabatti M., Miglietta F., Mills R.F. & Taylor G. (2001) Leaf area is stimulated in Populus by free air CO2 enrichment (POPFACE) through increased cell expansion and production. Plant, Cell & Environment 24, 305315.
  • Ferris R., Long L., Bunn S.M., Robinson K.M., Bradshaw H.D., Jr, Rae A.M. & Taylor G. (2002) Leaf stomatal and epidermal cell development: identification of putative quantitative trait loci in relation to elevated carbon dioxide concentration in poplar. Tree Physiology 22, 633640.
  • Ferris R. & Taylor G. (1994) Stomatal characteristics of native herbs following exposure to elevated CO2. Annals of Botany 73, 447453.
  • Gardner S.D.L., Taylor G. & Bosac C. (1995) Leaf growth of hybrid poplar following exposure to elevated CO2. New Phytologist 131, 8190.
  • Grace J. (2004) Understanding and managing the global carbon cycle. Journal of Ecology 92, 189202.
  • Grattapaglia D., Bertolucci F.L.G., Penchel R. & Sederoff R.R. (1996) Genetic mapping of quantitative trait loci controlling growth and wood quality traits in Eucalyptus grandis using a maternal half-sib family and RAPD markers. Genetics 144, 12051214.
  • Haley C.S. & Knott S.A. (1992) A simple marker regression method for mapping quantitative trait loci in line crosses using flanking markers. Heredity 69, 315324.
  • Herrick J.D. & Thomas R.B. (2003) Leaf senescence and late-season net photosynthesis of sun and shade leaves of overstory sweetgum (Liquldambar styraciflua) grown in elevated and ambient carbon dioxide concentrations. Tree Physiology 23, 109118.
  • Hetherington A.M. & Woodward F.I. (2003) The role of stomata in sensing and driving environmental change. Nature 424, 901908.
  • Hoekenga O.A., Vision T.J., Shaff J.E., Monforte A.J., Lee G.P., Howell S.H. & Kochian L.V. (2003) Identification and characterization of aluminum tolerance loci in Arabidopsis (Landsberg erecta × Columbia) by quantitative trait locus mapping. A physiologically simple but genetically complex trait. Plant Physiology 132, 936948.
  • Kearsey M.J. & Farquhar A.G.L. (1998) QTL analysis in plants: where are we now? Heredity 80, 137142.
  • Kirst M., Myburg A.A., Scott J. & Sederoff R. (2004) Coordinated genetic regulation of growth and lignin content revealed by QTL analysis of cDNA microarray data in an interspecific backcross of Eucalyptus. Plant Physiology 135, 23682378.
  • Knott S.A., Neale D.B., Sewell M.M. & Haley C.S. (1997) Multiple marker mapping of quantitative trait loci in an outbred pedigree of loblolly pine. Theoretical and Applied Genetics 94, 810820.
  • Kohut R. (2003) The long term effects of carbon dioxide on natural systems: issues and research needs. Environment International 29, 171180.
  • Koyama M.L., Levesley A., Koebner R.M.D., Flowers T.J. & Yeo A.R. (2001) Quantitative trait loci for component physiological traits determining salt tolerance in rice. Plant Physiology 125, 406422.
  • Kramer K. (1995) Phenotypic plasticity of the phenology of 7 European tree species in relation to climatic warming. Plant, Cell & Environment 18, 93104.
  • Lambers H. & Poorter H. (1993) Inherent variation in growth rate between higher plants: a search for physiological causes and ecological consequences. Advances in Ecological Research 23, 187261.
  • Lanaceras J.C., Pantuwan G., Jongdee B. & Toojinda T. (2004) Quantitative trait loci associated with drought tolerance at reproductive stage in rice. Plant Physiology 135, 384399.
  • Li J.H., Dijkstra P., Hymus G.J., Wheeler R.M., Piastuch W.C., Hinkle C.R. & Drake B.G. (2000) Leaf senescence of Quercus myrtifolia as affected by long-term CO2 enrichment in its native environment. Global Change Biology 6, 727733.
  • Lin M. & Wu R.L. (2005) Theoretical basis for the identification of allelic variants that encode drug efficacy and toxicity. Genetics 170, 919928.
  • Loudet O., Chaillou S., Merigout P., Talbotec J. & Daniel-Vedele F. (2003) Quantitative trait loci analysis of nitrogen use efficiency in Arabidopsis. Plant Physiology 131, 345358.
  • Monteith J.L. (1977) Climate and the efficiency of crop production in Britain. Philosophical Transactions of the Royal Society of London Series B 281, 277294.
  • Moore B.D., Cheng S.H., Sims D. & Seemann J.R. (1999) The biochemical and molecular basis for photosynthetic acclimation to elevated atmospheric CO2. Plant, Cell & Environment 22, 567582.
  • Navabpour S., Morris K., Allen R., Harrison E., A-H-Mackerness S. & Buchanan-Wollaston V. (2003) Expression of senescence-enhanced genes in response to oxidative stress. Journal of Experimental Botany 54, 22852292.
  • Norby R.J., Hartz-Rubin J.S. & Verbrugge M.J. (2003) Phenological responses in maple to experimental atmospheric warming and CO2 enrichment. Global Change Biology 9, 17921801.
  • Pritchard S.F., Rogers H.H., Prior S.A. & Peterson C.M. (1999) Elevated CO2 and plant structure: a review. Global Change Biology 5, 807837.
  • Rae A.M., Robinson K.M., Street N.R. & Taylor G. (2004) Morphological and physiological traits influencing biomass productivity in short rotation coppice poplar. Canadian Journal of Forestry 34, 14881498.
  • Ridge C.R., Hinckley T.M., Stettler R.F. & Van Volkenburgh E. (1986) Leaf growth characteristics of fast-growing poplar hybrids, Populus trichocarpa ×P. deltoides. Tree Physiology 1, 209216.
  • Seaton G., Haley C.S., Knott S.A., Kearsey M.J. & Visscher P.M. (2002) QTL Express: mapping quantitative trait loci in simple and complex pedigrees. Bioinformatics 18, 339340.
  • Sewell M.M., Davis M.F., Tuskan G.A., Wheeler N.C., Elam C.C., Bassoni D.L. & Neale D.B. (2002) Identification of QTLs influencing wood property traits in loblolly pine (Pinus taeda L.). II. Chemical wood properties. Theoretical and Applied Genetics 104, 214222.
  • Sigurdsson B.D. (2001) Elevated CO2 and nutrient status modified leaf phenology and growth rhythm of young Populus trichocarpa trees in a three year field study. Trees-Structure and Function 15, 403413.
  • Taylor G. (2002) Populus: Arabidopsis for forestry. Do we need a model tree? Annals of Botany 90, 681689.
  • Taylor G., Ranasinghe S., Bosac C., Gardner S.D.L. & Ferris R. (1994) Elevated CO2 and plant growth: cellular mechanisms and responses of whole plants. Journal of Experimental Botany 45, 17611774.
  • Taylor G., Tricker P.J., Zhang F.Z., Alston V.J., Miglietta F. & Kuzminsky E. (2003) Spatial and temporal effects of free-air CO2 enrichment (POPFACE) on leaf growth, cell expansion, and cell production in a closed canopy of poplar. Plant Physiology 131, 177185.
  • Taylor G., Street N.R., Tricker P.J., Sjödin A., Graham L., Skogström O., Calfapietra C., Scarascia-Mugnozza G. & Jansson S. (2005) The transcriptome of Populus in elevated CO2. New Phytologist 167, 143154.
  • Tricker P.J., Calfapietra C., Kuzminsky E., Puleggi R., Ferris R., Nathoo M., Pleasants L.J., Alston V., De Angelis P. & Taylor G. (2004) Long-term acclimation of leaf production, development, longevity and quality following 3 yr exposure to free-air CO2 enrichment during canopy closure in Populus. New Phytologist 162, 413426.
  • Tricker P.J., Trewin H., Kull O., Clarkson G.J.J., Tallis M.J., Eensalu E., Colella A., Doncaster C.P., Sabatti M. & Taylor G. (2005) Stomatal conductance and not stomatal density determines the long-term reduction in leaf transpiration of poplar in elevated CO2. Oecologia 143, 652660.
  • Van Volkenburgh E., Hunt S. & Davies W.J. (1983) A simple instrument for measuring cell-wall extensibility. Annals of Botany 51, 669672.
  • Visscher P.M., Thompson R. & Haley C.S. (1996) Confidence intervals in QTL mapping by bootstrapping. Genetics 143, 10131320.
  • Walling G.A., Visscher P.M. & Haley C.S. (1998) A comparison of bootstrap methods to construct confidence intervals in QTL mapping. Genetical Research 71, 171180.
  • Walter A., Christ M.M., Barron-Gafford G., Grieve K., Paige T., Murthy R. & Rascher U. (2005) The effect of elevated CO2 on diel leaf growth cycle, leaf carbohydrate content and canopy growth performance of Populus deltoides. Global Change Biology 11, 2071219.
  • Ward J.K. & Kelly J.K. (2004) Scaling up evolutionary responses to elevated CO2: lessons from Arabidopsis. Ecology Letters 7, 427440.
  • Wingler A., Mares M. & Pourtau N. (2004) Spatial patterns and metabolic regulation of photosynthetic parameters during leaf senescence. New Phytologist 161, 781789.
  • Wu R., Bradshaw H.D. Jr. & Stettler R.F. (1997) Molecular genetics of growth and development in Populus (Salicaceae). V. Mapping quantitative trait loci affecting leaf variation. American Journal of Botany 84, 143153.
  • Wullschleger S.D., Jansson S. & Taylor G. (2002) Genomics and forest biology: Populus emerges as the perennial favourite. Plant Cell 14, 26512655.
  • Yin T.M., Difazio S.P., Gunter L.E., Riemenschneider D. & Tuskan G.A. (2004) Large-scale heterospecific segregation distortion in Populus revealed by dense genetic map. Theoretical and Applied Genetics 109, 451463.