SEARCH

SEARCH BY CITATION

references

  • Arnone JA III, Zaller JG, Ziegler C, Zandt H, Korner C. 1995. Leaf quality and insect herbivory in model tropical plant communities after long-term exposure to elevated atmospheric CO2. Oecologia 104: 7278.
  • Berryman CA, Eamus D, Duff GA. 1993. The influence of CO2 enrichment on growth, nutrient content and biomass allocation of Maranthes corymbosa. Australian Journal of Botany 41: 195209.
  • Brown KR. 1991. Carbon dioxide enrichment accelerates the decline in nutrient status and the relative growth rate of Populus tremuloides Michx. seedlings. Tree Physiology 81: 161173.
  • Comins HN, McMurtrie RE. 1993. Long-term response of nutrient limited forests to CO2 enrichment: equilibrium behavior of plant-soil models. Ecological Applications 3: 666681.
  • Eamus D, Jarvis PG. 1989. The direct effects of increasing the global atmospheric CO2 concentration on natural and commercial temperate trees and forests. Advances in Ecological Research 19: 155.
  • Fajer ED, Bowers MD, Bazzaz FA. 1989. The effects of enriched carbon dioxide atmospheres on plant-insect herbivore interactions. Science 243: 11981200.
  • Idso SB, Kimball BA. 1991. Effects of two and a half years of atmospheric COO enrichment on the root density distribution of three-year-old sour orange trees. Agricultural and Forest Meteorology 55: 345349.
  • Idso SB, Kimball BA. 1992a. Above-round inventory of sour orange trees exposed to different atmospheric CO2 concentrations for 3 full years. Agricultural and Forest Meteorology 60: 145151.
  • Idso SB, Kimball BA. 1992b. Seasonal fine-root biomass development of sour orange trees grown in atmospheres of ambient and elevated CO2 concentration. Plant, Cell and Environment 15: 337341.
  • Idso SB, Kimball BA. 1994. Carbon dioxide and sour orange trees: results of the longest CO2 enrichment experiment ever conducted. In: MathaiCV, StenslandG, eds. Global Climate Change; Science, Policy and Mitigation Strategies. Pittsburgh , PA , USA Air Waste Management Association, 575585.
  • Idso SB, Kimball BA, Allen SG. 1991. CO2 enrichment of sour orange trees: 2–5 years into a long-term experiment. Plant, Cell and Environment 14: 351353.
  • Idso SB, Kimball BA, Clawson KL. 1984. Quantifying effects of atmospheric CO2 enrichment on stomatal conductance and evapotranspiration of water hyacinth via infrared thermometry. Agricultural and Forest Meteorology 33: 1522.
  • Idso SB, Kimball BA, Hendrix DL. 1993. Air temperature modifies the size-enhancing effects of atmospheric CO2 enrichment on sour orange tree leaves. Environmental and Experimental Botany 33: 293299.
  • Kimball BA, Mauney JR, Guinn G, Nakayama FS, Pinter PJ Jr, Clawson KL, Reginato RJ, Idso SB. 1983. Effects of increasing atmospheric CO2 on the yield and water use of crops. Response of vegetation to carbon dioxide, No. 21. U.S. Department of Energy, Washington , DC , USA .
  • Kimball BA, Mauney JR, LaMorte RL, Guinn G, Nakayama FS, Radin JW, Lakatos EA, Mitchell ST, Parker LL, Peresta GJ, Nixon PE III, Savoy B, Harris SM, MacDonald R, Pros H, Martinez J. 1992. Carbon dioxide enrichment: data on the response of cotton to varying CO.2, irrigation, and nitrogen. ORNL/CDIAC-44, NDP-037. Carbon Dioxide Information Analysis Center, Oak Ridge National Laboratory, Oak Ridge , TN , USA .
  • Larigauderie A, Hilbert DW, Oechel WC. 1988. Effect of CO, enrichment and nitrogen on resource acquisition and resource allocation in a grass, Brotnus inollis. Oecologia 77, 544549.
  • Lemon ER. 1983. CO2 and plants. The response of plants to rising levels of atmospheric carbon dioxide. Boulder , CO , USA : Westview Press.
  • Lincoln DE, Fajer ED, Johnson RH. 1993. Plant-insect herbivore interactions in elevated CO2 environments. Trends in Ecology and Evolution 8: 6468.
  • Lindroth RL, Kinney KK, Platz CL. 1993. Responses of deciduous trees to elevated atmospheric CO2: productivity, phytochemistry and insect performance. Ecology 74: 763777.
  • McGuire AD, Melillo JM, Joyce LA. 1995. The role of nitrogen in the response of forest net primary production to elevated atmospheric carbon dioxide. Annual Review of Ecology and Systematic 26: 473503.
  • Mousseau M, Saugier B. 1992. The direct effect of increased CO, on gas exchange and growth of forest tree species. Journal of Experimental Botany 43: 11211130.
  • Norby RJ, O'Neill EG, Luxmoore RJ. 1986. Effects of atmospheric CO2 enrichment on the growth and mineral nutrition of Quercus alba seedlings in nutrient-poor soil. Plant Physiology 82: 8389.
  • Oechel WC, Cowles S, Grulke N, Hastings SJ, Lawrence B, Prudhomme T, Riechers G, Strain B, Tissue D, Vourlitis G. 1994. Transient nature of CO2 fertilization in Arctic tundra. Nature 371: 500503.
  • O'Neill EG, Luxmoore RJ, Norby RJ. 1987. Elevated atmospheric CO2 effects on seedling growth, nutrient uptake, and rhizosphere bacterial population of Liriodendron tulipifera. Plant and Soil 104: 311.
  • Overdieck D. 1990. Effects of elevated CO2 concentration levels on nutrient contents of herbaceous woody plants. In: GoudriaanJ, vanKeulenH, vanLaarHH, eds. The Greenhouse Effect and Primary Productivity in European Agro-Ecosystems Wageningen , The Netherlands : Pudoc, 3137.
  • Overdieck D. 1993. Elevated CO2 and mineral content of herbaceous and woody plants. Vegetatio 104/105: 403411.
  • Overdieck D, Reining E. 1986. Effects of atmospheric CO2 enrichment on perennial ryegrass (Lolium perenne L.) and white clover (Trifolium repens L.) competing in managed model-ecosystems. II. Nutrient uptake. Acta Oecologica, Oecologia Plantarum 7: 367378.
  • Penuelas J, Matamala R. 1990. Changes in N and S leaf content, stomatal density and specific leaf area of 14 plant species during the last three centuries of CO2 increase. Journal of Experimental Botany 41: 11191124.
  • Penuelas J, Matamala R. 1993. Variations in the mineral composition of herbarium plant species collected during the last three centuries. Journal of Experimental Botany 44: 15231525.
  • Rastetter EB, McKane RB, Shaver GR, Melillo JM. 1992. Changes in C storage by terrestrial ecosystems: how C-N interactions restrict responses to CO, and temperature. Water, Air, and Soil Pollution 64: 327344.
  • Schimel DS. 1995. Terrestrial ecosystems and the carbon cycle. Global Change Biology 1: 7791.
  • Strain BR. 1985. Physiological and ecological controls on carbon sequestering in terrestrial ecosystems. Biogeochemistry 1: 219232.
  • Woodin S, Graham B, Killick A, Skiba U, Cresser M. 1992. Nutrient limitation of the long term response of heather Calluna vulgaris (L.) Hull to CO2 enrichment. New Phytologist 122: 635642.