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Publications
(total 106)
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[A few papers available in pdf begining in 2003--scroll down to link to the pdf files] |
Drake, B. G., K. Raschke, and F. B. Salisbury. 1970. Temperatures and transpiration resistances in Xanthium leaves as affected by air temperature, humidity, and wind speed. Plant Physiol. 46:324 330.
Drake, B.G. and F.B. Salisbury. 1972. After effects of low and high temperature pre-treatment on leaf resistance, transpiration, and leaf temperature in Xanthium. Plant Physiology. 50:572-575.
Drake, B. G., and K. Raschke. 1974. Pre chilling of plants of Xanthium strummarium L. reduces net photosynthesis and, independently, stomatal conductance, while sensitizing stomata to CO2. Plant Physiol. 53: 808 812.
Drake, B.G. 1976. Seasonal changes in reflectance and standing crop biomass in three salt marsh communities. Plant Physiology 58:696-699.
Drake, B.G. 1976. Estimating water status and biomass of plant communities by remote sensing. In. Lange, O., Kappan, L. and Schultze, E.-D., Eds.Water and Plant Life. Vol 19, 433-438. Springer-Verlag, New York.
Kawecka, B. and B.G. Drake. 1978. Biology and ecology of snow algae. 1. Sexual reproduction of Chlamydomonas nivalis (Bauer) Wille. Acta Hydrobiologica 20:111-116.
Wiebe, H. and B.G. Drake. 1980. Leaf temperature mapping with thermosensitive liquid crystal models. BioScience 30: 32-33.
Turitzin, S.N. and B.G. Drake. 1981. The effect of seasonal change in canopy structure on the photosynthetic efficiency of a salt marsh. Oecologia 48:79-84.
DeJong, T.M. and B.G. Drake. 1981. Seasonal patterns of plant and soil water potential on an irregularly flooded tidal marsh. Aquatic Botany. 11:1-9.
DeJong, T.M., B.G. Drake, and R.W. Pearcy. 1982. Comparative gas exchange responses of C3 and C4 Chesapeake Bay tidal marsh species. Oecologia 52:5-11.
Drake, B. G. and M. Read. 1981. Carbon dioxide assimilation, photosynthetic efficiency, and respiration of a Chesapeake Bay Salt Marsh. J. Ecol. 69: 405 422.
Drake, B. G. and J. L. Gallagher. 1984. Osmotic potential and turgor maintenance in Spartina alterniflora Loisel. Oecologia 62:368 375.
Drake, B. G. 1984. Light response characteristics of ecosystem net CO2 exchange in brackish wetland plant communities. Oecologia 63: 263 270.
Drake, B. G., H. H. Rogers, and L. H. Allen, Jr. 1985. Methods of exposing plants to elevated CO2 concentrations. In: Direct Effects of CO2 on Vegetation. Ch. 2 p. 11 31. Department of Energy, Washington, D.C.
Ward, D.A. and Drake, B.G. 1987. Photoinhibition under atmospheric O2, the activation state of RuBP Carboxylase and the content of photosynthetic intermediates in soybean and wheat. Journal of Experimental Botany, 38:1937-1948
Ward, D.A. and Drake, B.G. 1988. Osmotic stress temporarily reverses the inhibitions of photosynthesis and stomatal conductance by abscisic acid-evidence that abscisic acid induces localized closure of stomata in intact leaves. Journal of Experimental Botany 39:147-155.
Curtis, P. S., B. G. Drake, P. W. Leadley, W. J. Arp, and D.F.Whigham. 1989. Growth and senescence in plant communities exposed to elevated CO2 concentration on an estuarine marsh. Oecologia 78:20 26.
Curtis, P. S., B. G. Drake, and D. F. Whigham. 1989. Nitrogen and carbon dynamics in C3 and C4 estuarine marsh plants grown under elevated CO2 in situ. Oecologia 78:297 301.
Drake, B. G., P. W. Leadley, W. J. Arp, D. Nassiry, and P. Curtis. 1989. An open top chamber for controlling CO2 concentration and measuring net ecosystem gas exchange. Functional Ecology, 3:363 371.
Drake, B.G. 1989. Photosynthesis and photorespiration of salt marsh species. Aquatic Botany. 34:167 180.
Drake, B.G., Leadley, P.W., Arp, W.J., Curtis, P., and D.F.Whigham. 1990. The effect of elevated atmospheric CO2 on C3 and C4 vegetation on Chesapeake Bay. In: (Arnsen, A. and T. Madsen, ed's; The Physiological Ecology of Aquatic Plants, Symposium Proceedings, Aarhus, Denmark, September, 1988)
Curtis, P.S., Balduman, L.M., Drake, B.G., and D.F. Whigham.1990. The effect of elevated atmospheric CO2 on belowground processes in C3 and C4 estuarine marsh communities. Ecology 71:2001-2006.
Ziska, L.H., Chamberlain, S., and B.G. Drake. 1990. Long term photosynthetic response in single leaves of a C3 and C4 salt marsh species grown in elevated atmospheric CO2 in situ. Oecologia 83:469-472.
Rozema,J., F. Dorel, R. Janissen, G. Lenssen, R. Broekman, W.Arp and B. G. Drake.1991. Effect of elevated atmospheric CO2 on growth, photosynthesis and water relations of salt marsh grass species. 39:45-55.
Mooney, H.A., Drake, B.G., Luxmore, R.J., Oechel, W.C., and L.F.Pitelka. 1991. How will terrestrial ecosystems interact with the changing CO2 concentration of the atmosphere and anticipated climate change? BioScience 41:96-104.
Ziska, L.H., K.P. Hogan, A.P. Smith, and B.G. Drake. 1991. Growth and Photosynthetic response of nine tropical species with long-term exposure to elevated carbon dioxide. Oecologia. 86:383-389
Long, S.P. and B.G. Drake. 1991. The effect of the long-term CO2 fertilization in the field on the quantum yield of photosynthesis in the C3 sedge, Scirpus olneyi. Plant Physiology. 96:221-226.
Drake, B.G. and P.W. Leadley. 1991. Canopy photosynthesis of crops and native plant communities exposed to long-term elevated CO2 treatment. Plant Cell and Environment. 14 (8):853-860.
Arp, W.J. and B. G. Drake. 1991. Increased photosynthetic capacity of Scirpus olneyi after four years of exposure to elevated CO2. Plant Cell and Environment. 14(9):1003-1006
Drake,B.G. 1992. A field study of the effects of elevated CO2 on ecosystem processes in a Chesapeake Bay Wetland. The Australian Journal of Biology. 40:579-595
Drake, B.G. 1992. The impact of rising CO2 ecosystem production. Water, Air and Soil Pollution. 64:25-44
Long, S.P. and B.G. Drake. 1992. Photosynthetic CO2 assimilation and Rising Atmospheric CO2 Concentrations. Commissioned Review. Topics In Photosynthesis Volume II., N.R.Baker and H. Thomas, eds. Elsevier Science Publishers, B.V., Amsterdam. p 69-107
Drake, B.G., W. J. Arp, S. P. Long and D. W. Lawlor. 1992. Photosynthesis of the C3 sedge, Scirpus olneyi, after long-term exposure to elevated CO2 in open top chambers in the field. Progress in Photosynthesis. Trends in Photosynthesis Research, p339-344).
Allen, L.H., Jr., Drake, B.G., Rogers, H.H. and J.H. Shinn. 1992. Field techniques for exposure of plants and ecosystems to elevated CO2 and other trace gasses. In: G.H.Hendrey, ed., Free-Air CO2 Enrichment for Plant Research in the Field. Critical Reviews in Plant Sciences 11:85-119.
Arp,W. J., B. G. Drake, W. T. Pockman, P. S. Curtis and D. F. Whigham. 1993. Effects of four years exposure to elevated atmospheric CO2 on competition between C3 and C4 salt marsh plant species. Vegetatio 104/105:133-143.
Leadley, P.W and B.G. Drake. 1993. Open top chambers for exposing plant canopies to elevated atmospheric CO2 and for measuring net gas exchange. Vegetatio 104/105:3-15.
Cipollini, M., Drake, B.G. and D. Whigham. 1993. Effects of elevated CO2 on growth and carbon/nutrient balance in the deciduous woody shrub Lindera benzoin (L.) Blume (Lauraceae). Oecologia 96: 339-346
Drake, B.G. and G. J. Peresta. 1993. Open top chambers for studies of the long-term effects of elevated atmospheric CO2 on wetland and forest ecosystem processes.In: E.D.Schultze and H.A.Mooney, eds. Design and execution of experiments on CO2 enrichment. E. Guyot SA, rue Ransfort 25, 1080 Brussels. Ch 21. pp273-289.
Cipollini,M.L., Drake, B.G. and D. Whigham. 1993. The effect of elevated CO2 on growth and carbon:nutrient balance in the temperate deciduous shrub Lindera benzoin. Oecologia 96:339-346.
Dacey, J.W.H., Drake, B.G. and M.J. Klug. 1994. Stimulation of methane emission by carbon dioxide enrichment of marsh vegetation. Nature 370:47-49.
Azcon-Bieto, J. W., Dougherty, W., Gonzales-Meler, M. A. and B.G. Drake. 1994. Acclimation of respiratory O2 uptake in green tissues of field grown native species after long-term exposure to elevated atmospheric CO2. Plant Physiology, 106:1163-1168.
Thompson, G.B. and B.G. Drake. 1994. Insects and fungi on a C3 sedge and a C4 grass exposed to elevated atmospheric CO2 concentrations in open top chambers in the field. Plant, Cell and Environment, 17:1161-1167.
Jacob, J. and B.G. Drake. 1995. Acclimation of photosynthesis in relation to Rubisco and non-structural carbohydrate contents and in situ carboxylase activity in Scirpus olneyi grown at elevated CO2 in the field. Plant, Cell and Environment 18,875-884.
Drake, B.G., G. Peresta, E. Beugeling and R. Matamala. 1995. Long-term effect of CO2 exposure in a Chesapeake Bay wetland: ecosystem gas exchange, primary production and tissue nitrogen. 1995. In: G.W. Koch and H.A. Mooney, eds., Carbon Dioxide and Terrestrial Ecosystems. Academic Press, Ch 12. 197-214.
Drake, B.G. 1995. Carbon sequestration in Wetland Ecosystems: A Case Study. In: M.A. Bean ed. Carbon Sequestration in the Biosphere. NATO ASI Series, Series I:Globval Environmental Change, Vol 33. p 33-45.
Drake,B.G. and J. Jacob. Acclimation of photosynthesis and the response of ecosystem carbon balance to rising atmospheric CO2. Proceedings, Xth International Congress on Photosynthesis, Montpelier, France, August, 1995.
Gonzalez-Meler, M., B.G. Drake and J. Azcon-Bieto. 1996. Rising atmospheric carbon dioxide and plant respiration. In: A.I. Breymere, D.O. Hall, J.M.Mellilo and G.I.Agren, Global Change: Effects on Coniferous Forests and Grasslands, 1996 Scope, John Wiley & Sons, Ltd. Ch 7 p161-181.
Gonzalez-Meler, M.A., Ribas-Carbo, M., Siedow, J. N. And B.G. Drake. 1996. Direct inhibition of plant mitochondrial respiration by elevated CO2. Plant Physiol. 112:1349-1355.
Day, Frank P., Weber, E.P., Hinkle, R. and B.G.Drake. 1996. Effects of elevated atmospheric CO2 on fine root length and distribution in an oak-palmetto scrub ecosystem in central Florida. Global Change Biology 2:143-148.
Ball, A.S. and B.G. Drake. 1996. Short term decomposition of litter produced by plants grown in ambient and elevated atmospheric CO2 concentrations. Global Change Biology 3:29-36
Drake, B.G.,Gonzalez-Meler, M.A. and S.P. Long. 1997. More Efficient Plants: A consequence of rising atmospheric CO2? Ann Rev Plant Physio Plant Mol Biol. 48-607-637.
Drake, B.G. Jacob, J.,, Muehe, M.,Peresta, G. Gonzalez-Meler,M., Matamala, R. 1997. Acclimation of photosynthesis, respiration and ecosystem carbon flux of a Chesapeake Bay wetland after eight years exposure to elevated CO2. Plant and Soil.187:111-118.
Osborne, C. P. , B.G. Drake, J. LaRoche and Steve P. Long.1997. Does long-term elevated of CO2 concentration increase photosynthesis in forest floor vegetation? Duchensnea indica in a Maryland forest. Plant Physiology
Ball, A.S. and Drake, B.G. 1998 Stimulation of soil respiration by carbon dioxide enrichment of marsh vegetation. Soil Biology and Biochemistry. 1203-1205.
Drake, B.G., Jacob, James, and M. A. Gonzalez-Meler. 1998. Photosynthesis, respiration and global climate change. Ch 21. 273-282. In: A.S Raghavendra, ed Photosynthesis: A Comprehensive Treatise, Cambridge University Press.
Matamala, R. and B. G. Drake.1999. The influence of atmospheric CO2 enrichment on plant-soil nitrogen interactions in a wetland plant community on the Chesapeake Bay Wetland. Plant and Soil 210:93-101.
J. -H. Li, P.Dijkstra, R. Hinkle, R.M. Wheeler and B.G. Drake, 1999. Photosynthetic acclimation to elevated atmospheric CO2 concentration in the Florida scrub-oak species Quercus geminata and Quercus myrtifolia. Tree Physiology 19:229-234.
Stiling, P., Rossi, A.M., Hungate, B. Dijkstra, P., Hinkle, R., Knott, WM, III, and B.G. Drake. 1999. Decreased leaf-miner abundance in elevated CO2: Reduced leaf quality and increased parasitoid attack. Ecological Applications, 9:240-244.
D. Loustau, B. Hungate and BG Drake, 1999. Effects of water and rising atmospheric CO2 on net primary and net ecosystem production of terrestrial ecosystems: interactions with nutrient limitations. In: Roy, Saugier and Mooney, Eds. Global Production, GCTE volume, Ch 9.
Hungate,B.A, Dijkstra, P.. Johnson,D., Hinkle,R., and BG Drake. 1999. Elevated CO2 increases nitrogen fixation and decreases soil nitrogen mineralization in Florida scrub oak. Global Change Biology. 5:781-789.
B.G. Drake, Azcon-Bieto, J., Berry, J., Bunce, J., Dijkstra, P., Farrar, J., Gifford, R.M., Gonzalez-Meler, M.A., Koch, G., Lambers, H., Siedow, J., and Wullschleger, S. 1999. Does elevated atmospheric CO2 concentration inhibit mitochondrial respiration in green plants? Plant Cell and Environment 22:649-657.
Schortemeyer, M., Dijkstra, P., Johnson, D. and BG Drake. 2000. Effects of elevated atmospheric CO2 concentration on C and N pools and rhizosphere processes in a Florida scrub oak community. Global Change Biology. 6:383-391.
Ball, A.S., E. Milne and B.G. Drake. 2000. Elevated atmospheric -carbon dioxide concentration increases soil respiration in a mid-successional lowland forest. Soil Biology & Biochemistry. 32:721-723.
Li, J.-H., Dijkstra, P., and B.G. Drake 2000. Leaf senescence and new growth of Quercus myrtifolia Small. grown at elevated CO2 in Florida scrub-oak ecosystem.Global Change Biology, 6:727-733
Dakora, F. and B.G. Drake. 2000. Elevated CO2 stimulates associative N2 fixation in a C3 plant of the Chesapeake Bay wetland. Plant Cell and Environment, 23:943-953.
Hymus GJ, Dijkstra P, Baker NR, Drake BG, Long SP (2001). Will rising CO2 protect plants from the mid-day sun? A study of photoinhibition of Quercus myrtifolia in a scrub-oak community in two seasons. Plant, Cell and Environment. 24, 1361-1368.
Johnson DW, Hungate BA, Dijkstra P, Hymus G, Drake BG (2001). Effects of elevated CO2 on soils in a Florida Scrub Oak Ecosystem. Journal of Environmental Quality. 30. 501-507.
Lodge RJ, Dijkstra P, Drake BG, Morison JIL (2001). Stomatal acclimation to increased CO2 concentration in a Florida scrub oak species Quercus myrtifolia Willd. Plant Cell and Environment 24 77-88.
Buckley PT (2001) Isoprene emissions from a Florida scrub oak species grown in ambient and elevated carbon dioxide. Atmospheric Environment, 35, 631-634.
Dilustro JH, FP Day, and BG Drake. 2001. Effects of elevated atmospheric CO2 on root decomposition in a scrub oak ecosystem. Global Change Biology 7:581-589.
Dijkstra P, Hymus GJ, Colavito D, Vieglais D, Cundari C, Johnson DP, Hungate BA, Hinkle CR, Drake BG (2002). Elevated atmospheric CO2 stimulates shoot growth in a Florida scrub oak ecosystem. Global Change Biology, 8, 90-103.
Hungate, BA, M. Reichstein, P. Dijkstra, D. Johnson, G. Hymus, J D Tenhunen, and B. G. Drake (2002) Evapotranspiration and soil water content in a scrub-oak woodland under carbon dioxide enrichment. Global Change Biology. 8. 289-298.
Hymus GJ, Snead T, Johnson D, Hungate B, Drake BG. 2002. Acclimation of photosynthesis and respiration to elevated CO2 in two scrub-oak Species. Global Change Biology.8:317-328.
Stiling P, Cattell M, Moon DC, Rossi A, Hungate B, Hymus G, Drake B. 2002 Elevated atmospheric CO2 lowers herbivore abundance but increases leaf abscission rates. Global Change Biology 8:658-667.
Hymus GJ, Pontailler J-Y, Li J-H, Stiling P, Hinkle C R, Drake BG. 2002 Seasonal Variability in the Effect of Elevated CO2 on Ecosystem Leaf Area Index in a Florida Scrub Oak Ecosystem. Global Change Biology.8:931-940.
Drake, B.G. Global change and stomatal research- 21st century agenda. 2002 New Phytologist 152:365-374.
Ainsworth EA, Davey PA, Hymus GJ, Drake BG, Long SP. 2002. Long-term response of photosynthesis to elevated carbon dioxide in a Florida scrub-oak ecosystem. Ecological Applications. 12:1267-1275.
Langley JA, Hungate BA, and Drake BG. (2002) Extensive belowground carbon storage supports roots and mycorrhizae in regenerating scrub oaks. Oecologia.131:542-548.
Hungate BA, and GW Koch 2002. Global Environmental Change: Biospheric Impacts and Feedbacks. In: J Houlton, J Pyle, and J Curie (eds.) Encyclopediea of Atmospheric Science, Academic Press, Ltd. Pp876-885.
Dilustro JJ, Day FP, Drake BG and Hinkle CR (2002). Abundance and distribution of fine roots under elevated C02 conditions in an oak-scrub ecosystem. Environmental and Experimental Botany. 48:149-159.
Rasse, DP, R Stolaki, G Perest and BG Drake. 2002. Patterns of canopy air CO2 concentration in a brackish wetland: analysis of a decade of measurements and the simulated effects on the vegetation. Agricultural and Forest Meteorology 114:59-73.
Klamer, M, MS Roberts, LH Levine, BG Drake and JL Garland. 2002. Influence of elevated CO2 on the fungal community in a coastal scrub oak forest soil investigated with terminal-restriction fragment length polymorphism analysis. Applied and Environmental Microbiology. 68:4370-4376.
Vann, C. D. and Megonigal, J. P. Productivity responses of Acer rubrum and Taxodium distichum seedlings to elevated CO2 and flooding. Environmental Pollution 116, S31-S36. 2002.
Dore, S, Hymus G.J., D.P. Johnson, C. R. Hinkle, Riccardo Valentini, and B.G. Drake. 2003 Cross validation of open-top chamber and eddy covariance measurements of ecosystem CO2 exchange in a Florida scrub-oak ecosystem. Global Change Biology. 9:84-94
Li J-H, Dugas WA, Hymus GJ, Johnson, DP, Hinkle, CR, Drake, BG, and BA Hungate. 2003. Direct and indirect effects of elevated CO2 on transpiration from Quercus myrtifolia in a scrub oak ecosystem. Global Change Biology 9:96-105
Vann, CD and JP Megonigal. 2003. Effects of elevated CO2 and water depth on methane emissions: comparison of a woody and non-woody wetland plant species. Biogeochemistry. 63:117-134.
Ainsworth, EA, PJ Tranel, BG Drake and SP Long. 2003. The clonal structure of Quercus geminate revealed by conserved microsatelite loc1. Molecyular Ecology 12:527-532.
Rasse,DP, J.-H. Li and BG Drake. 2003. Wetland sedge community has high CO2 fixation capacity under ambient and elevated CO2 : measurements and model analysis. Functional Ecology 17: 222-230.
Stiling, P, Moon DC, Hunter, MD, Rossi, AM, Hymus, GJ, and BG Drake. 2003. Elevated CO2 lowers relative and absolute herbivore density across all species of a scrub oak forest. Oecologia 134:82-87.
Drake, BG, Rasse, D.P (2003)The effects of elevated CO2 on plants: Photosynthesis, transpiration, primary production and biodiversity Ch. 7 In: T Lovejoy and L. Hannah,eds. Climate Change and Bibodiversity: Synergstic Impacts. Yale University Press
Langley JA, Hungate BA and. Drake BG.2003 Ectomycorrhizal colonization, biomass and production in a regenerating scrub oak forest under elevated CO2. Ecosystems.
Hymus GJ, Johnson DP, Dore S, Dijkstra P, Anderson HP, Hinkle CR, and Drake BG. 2003.Effects of elevated Atmospheric CO2 on Net Ecosystem CO2 exchange of a scrub-oak ecosystem. Global Change Biology 9:1802-1812
Johnson, DW, BA Hugate, P. Dijkstra, GJ Hymus, CR Hinkle, P. Stiling, and BG Drake. 2003. The Effects of elevated CO2 on nutrient distribution in a fire adapted scrub oak forest. Ecological Applications 13:1388-1399.
Pendall, E, Bridgham, S., Hanson, P. J., Hungate, B., Kicklighter, D. W., Johnson, D. W., Law, B. E., Luo, Y., Megonigal, J. P., Olsrud, M., Ryan, M. G., and Wan, S. Below-ground process responses to elevated CO2 and temperature: A discussion of observations, measurement methods, and models. New Phytologist 162(2), 311–322. 2004.
Davey, PA, Hunt, S., Hymus, G., DeLucia, E., Drake, BG, Karnosky, DF, and S.P. Long. 2004. Respiratory Oxygen Uptake is Not Decreased by an Instantaneous Elevation of [CO2], but is Increased with Long-Term Growth in the field at Elevated [CO2]. Plant Physiology 134:520-527.
Bruce A. Hungate, Peter D. Stiling, Paul Dijkstra, Dale W. Johnson, Michael E. Ketterer, Graham J. Hymus, C. Ross Hinkle, Bert G. Drake.2004 CO2 elicits long-term decline in nitrogen fixation. Science
Tatiana Cornelissen, P. Stiling and BG Drake. 2004 Elevated CO2 decreases leaf fluctuating asymmetry and herbivory by leaf miners on two oak species. Global Change Biology 10:27-36
Stiling P, Moon DC, Hymus GJ, and BG Drake. 2004. Elevated CO2 increases acorn production in a scrub oak forest. Global Change Biology 10:228-232
Cotrufo, MF, BG Drake, and J. Ehleringer. 2004 Palatability trials on hardwood leaf litter grown under elevated atmospheric CO2. Oecologia
Rasse DP, Peresta, G, Saunders, CJ and BG. Drake. 2005. Seventeen-years of elevated CO2 exposure in a Chesapeake Bay Wetland: sustained but contrasting responses of plant growth and CO2 uptake. Global Change Biology 11:369-377
Hungate BA, Stiling PD, Dijkstra P, Johnson DW, Ketterer ME, Hymus GJ, Hinkle CR, Drake BG, 2005. CO2 elicits long-term decline in nitrogen fixation. Science, 304:1291.
Hungate BA, Johnson DW, Dijkstra P, Hymus GJ, Stiling P, Megonigal JP, Pagel A, Moan JL, Day F, Li J-H, Hinkle CR, Drake BG, 2005. Nitrogen cycling during seven years of atmospheric CO2 enrichment. Ecological Applications.
Drake, B. G., L. Hughes, E. A. Johnson, B. A. Seibel, M. A. Cochrane, V. J. Fabry, D. Rasse, and L. Hannah. 2005. Synergistic Effects. In: Climate Change and Biodiversity. T. E. Lovejoy and L. Hannah, eds. Yale University Press, New Haven, CT. pp 296-316.
Marsh, A. S., Rasse, D. P., Drake, B. G., and Megonigal, J. P. 2005. Effect of elevated CO2 on carbon pools and fluxes in a brackish marsh. Estuaries 28:695-704 .
Hall, M.C., Stiling,P., Moon, DG, Drake, BG, and Mark D. Hunter. 2005. Effects of elevated CO2 on foliar quality and herbivore damage in a scrub oak system. Journal of Chemical Ecology 31: 267-286.
Day, F.P.,Stover, D.B.,Pagel, A., Hungate, B.A., Dilustro, J.J., Herbert, B.T., Drake, B.G., and C.R.Hinkle. 2006. Rapid root closure after fire limits fine root responses to elevated atmospheric CO2 in a scrub oak ecosystem in central Florida. Global Change Biology 12: 1047-1053. |
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