Idso, C. D. and Idso, K. E. Rising Atmospheric CO2 Concentrations Reduce Soil Erosion: Lessons for the New Millennium. 2000. Center for the Study of Carbon Dioxide and Global Change. http://www.co2science.org/edit/v3_edit/v3n25edit.htm.
Idso CD, Idso KE (2000) Forecasting world food supplies: The impact of the rising atmospheric CO2 concentration. 7S Technology, 33-55.
Idso CDeal (2001) Ultra-enhanced spring branch growth in CO2-enriched trees: Can it alter the phase of the atmosphere's seasonal CO2 cycle? 43 Environmental and Experimental Botany, 91-100.
Idso KE, Idso SB (1994) Plant responses to atmospheric CO2 enrichment in the face of environmental constraints: A review of the past 10 years' research. 69 Agricultural and Forest Meteorology, 153-203.
Idso KE, Idso SB, Idso CDT77 (2000) Atmospheric CO2 enrichment: Implications for ecosystem biodiversity. 7S Technology, 57-69.
Idso, K. E. Biodiversity, Productivity and CO2. 2000. Center for the Study of Carbon Dioxide and Global Change. http://www.co2science.org/edit/v3_edit/v3n30edit.htm.
Idso SB, Allen SG, Kimball BA (1990) Growth response of water lily to atmospheric CO2 enrichment. 37 (87) Aquatic Botany, 92.
Idso SB, Kimball BA (1991) Downward regulation of photosynthesis and growth at high CO2 levels. No evidence for either phenomenon in three-year study of sour orange trees. 96 Plant Physiology, 990-992.
Idso SB, Kimball BA (1993) Tree growth in carbon dioxide enriched air and its implications for global carbon cycling and maximum levels of atmospheric CO2. 7 Global Biogeochemical Cycles, 537-555.
Idso SB (1998) Effects of long-term atmospheric CO2 enrichment on the growth and fruit production of sour orange trees. 3 (2) Global Change Biology, 89-96.
Idso SB (1999) The long-term response of trees to atmospheric CO2 enrichment. 5 Global Change Biology, 493-495.
Idso SB, Idso CD, Idso KE (2000) CO2, global warming and coral reefs: Prospects for the future. 7S Technology, 71-94.
Idso SB, Kimball BA (2001) CO2 enrichment of sour orange trees: 13 years and counting. 46 Environmental and Experimental Botany, 147-153.
Idso SBeal (1987) Effects of atmospheric CO2 enrichment on plant growth: The interactive role of air temperature. 20 Agriculture Ecosystems & Environment, 1-10.
Iglesias-Prieto R, Matta JL, Robins WA, Trench RK (1992) Photosynthetic response to elevated-temperature in the symbiotic dinoflagellate Symbiodinium microadriaticum in culture. 89 Proceedings of the National Academy of Science, 302-305.
Iglesias A, Minguez MI (1997) Modelling crop-climate interactions in Spain: Vulnerability and adaptation of different agricultural systems to climate change. 1 (3) Mitigation and Adaptation Strategies for Global Change, 251-271.
Ignatius, David. As temperatures rise. Washington Post , B07. 1999. 1930.
Illanes JE, Akaboshi S, Uribe yE (1985) Efectos de la temperatura en la reproduccion del ostion del norte Chlamys (Argopecten) purpuratus en la Bahia Tonggoy, durante el fenomeno El Niño 1982-1983. 32 Invest.Pesq.(Chile), 167-173.
Ilyas M (1991) 'Ozone Depletion: implications for the Tropics.' (University of Science: Penang, Malaysia and Nairobi, Kenya)
Imai K, Okamoto-Sato M (1991) Effects of temperature and CO2 dependence on gas exchanges in C3 and C4 crop plants. 60 Japanese Journal of Crop Science, 139-145.
Imao K, Fushimi H (1985) Ecology of the eelgrass Zostera marina, especially environmental factors determining the occurrence of annual eelgrass in Lake Hama-ko, Japan. 33 Jpn.Journal of Phycology, 320-327.
Imeson A, Dumont H, Sekliziotis S (1987) Impact analysis of climatic change in the Mediterranean region. Noordwijkerhout, Netherlands)
Ingraham JrWJ, Ebbesmeyer CC, Hinrichsen RA (1998) Imminent climate and circulation shift in Northeast Pacific Ocean could have major impact on marine resources. 79 EOS, 197-201.
Inkala A, Bilaletdin A, Podsetchine V (1997) Modelling the effect of climate change on nutrient loading, temperature regime and algal biomass in the Gulf of Finland. 2 (3) Boreal Environment Research, 287-301.
Innamorati Meal (2001) Mucilages and climatic changes in the Tyrrhenian Sea. 11 (4) Aquatic Conservation: Marine & Freshwater Ecosystems, 289-298.
Inouye DW, McGuire AD (1991) Effects of snowpack on the timing and abundance of flowering in Delphinium nelsonii: implications for climate change. 78 (7) American Journal of Botany, 998-1001.
Inouye DW (2000) The ecological and evolutionary signficance of frost in the context of climate change. 3 Ecology Letters, 457-463.
Inouye DW, Morales MA, Dodge GJ (2002) Variation in timing and abundance of flowering by /Delphinium barbeyi/ Huth (Ranunculaceae): the roles of snowpack, frost, and La Niña, in the context of climate change. 130 Oecologia, 543-550.
Inouye DWeal (2000) Climate change is affecting altitudinal migrants and hibernating species. 97 (February 15) Proceedings of the National Academy of Sciences, 1630-1633.
Inouye DWeal (2000) The consequences of climate change for high-altitude hibernating and migratory species. Orlando, Florida)
Institute WR, Union WC (1998) 'Climate, Biodiversity and Forests.'
International Institute for Sutainable Development, Environmental Adaptation Research Group IfESUoT (1997) 'Agriculture & Climate Change: A Prairie Perspective.'
Intes A, LeLoeuff P (1984) Polychaeta of Ivory Coast, 3.Faunistic-climatic relationship: regional units in the Gulf of Guinea. 19 Oceanographic Trop., 3-24.
Isaksen, I. S. A. Climate change, ozone depletion and UV radiation (Abstract). 1996. 1996 Meeting of the International Whaling Commission.
Isebrands JGeal (2001) Growth responses of Populus tremuloides clones to interacting elevated carbon dioxide and tropospheric ozone. 115 (3) Environmental Pollution, 359-371.
Islebe GA, Hooghiemstra H (1998) A contribution to Late Quaternary vegetation and climate history of Costa Rica. 16 Quaternary Science Reviews, 589-604.
Ito A, Oikawa T (2000) A model analysis of the relationship between climate perturbations and carbon budget anomalies in global terrestrial ecosystems: 1970 to 1997. 15 (3) Climate Research.
Ittekkot V (1996) Oceans. In 'Climate Change 1995: Impacts, Adaptations, and Mitigation of Climate Change: Scientific-Technical Analyses. Contribution of Working Group II to the Second Assessment Report for the Intergovernmetnal Panel on Climate Change'. (Eds RT Watson, MC Zinyowera, and RH Moss) pp. 267-288. (Cambridge University Press: Cambridge, United Kingdom)
Ittekkot, V. and Everett, J. T. The intergovernmental panel on climate change on oceans (abstract). 1996. 1996 Meeting of the International Whaling Commission.
IUCN- (2001) 'Climate Change and Species Survival: Implications for Conservation Strategies.' (IUCN,
Ivanauskas F, Nedzinskas V, Zalakevicius M (1997) The impact of global warming upon spring arrival of birds. 6 Acta Zoologica Lituanica Ornithologia, 31-36.
Ivany LC, Patterson WP, Lohmann KC (2000) Cooler winters as a possible cause of mass extinctions at the Eocene/Oligocene boundary. 407 (October 19) Nature, 887-890.
Iverson LR, Prasad AM (2002) Potential redistribution of tree species habitat under five climate change scenarios in the eastern US. 155 (1-3) Forest Ecology and Management, 205-222.
Iverson LR, Prasad AM (1998) Predicting abundance of 80 tree species following climate change in the eastern United States. 68 (4) Ecological Monographs, 465-485.
Iverson LR, Prasad A, Schwartz MW (1999) Modeling potential future individual tree-species distributions in the eastern United States under a climate change scenario: A case study with Pinus virginiana. 115 (1) Ecological Modelling, 77-93.
Ives AR, Gilchrist G (1993) Climate change and ecological interactions. In 'Biotic Interactions and Global Change'. (Eds PM Kareiva, JG Kingsolver, and RB Huey) (Sinauer Associates, Inc.: Sunderland, Massachusetts)
Ives AR (1995) Predicting the response of populations to environmental change. 76 Ecology, 926-941.
Iwanzik Weal (1983) Action of UV-B radiation on photosynthetic primary reactions in spinach chloroplasts. 58 Physiology Plant, 401-407.
Izaurralde RC, Brown RA, Rosenberg NA (1999) 'U.S. Regional Agricultural Production in 2030 and 2095: Response to CO2 Fertilization and Hadley Climate Model (HadCM2) Projections of Greenhouse-Forced Climate Change.' (Pacific Northwest National Laboratory, U.S. Department of Energy, PO Box 999, 902 Battelle Blvd., Richland, Washington 99352; inquiry@pnl.gov,Richland, Washington)