American Journal of Environmental Protection
Volume 2, Issue 2, April 2013, Pages: 72-78
Received: Apr. 26, 2013;
Published: May 30, 2013
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A. B. M. Shamim. Ul Hasan, Department of Applied Mathematics, University of Rajshahi, Rajshahi-6205, Bangladesh
M. Z. Rahman, Department of Applied Mathematics, University of Rajshahi, Rajshahi-6205, Bangladesh
The correspondence between atmospheric carbon dioxide ( ) concentrations and globally averaged surface temperatures in the recent past suggest that this coupling may be of great antiquity. Excess greenhouse gases in the atmosphere are a measureable and significant contributor to global warming, and their concentrations have steadily increased over the past century. is the most important greenhouse gas in terms of climate change, has been measured directly since 1958. In this paper we develop the mathematical model of heat transfer in the atmosphere by , Human-Induced emission changing the Earth’s climate. Additionally, we discussed in this paper are sources, sinks of and the amounts of naturally produced and changes in the Earth’s climate, which are necessary for understanding the causes of current temperature and emission trend.
A. B. M. Shamim. Ul Hasan,
M. Z. Rahman,
Modeling the Crucial Roles of Carbon Dioxide in Global Warming, American Journal of Environmental Protection.
Vol. 2, No. 2,
2013, pp. 72-78.
Anderson A.; Bows, A. 2011. Beyond 'dangerous' climate change: emission scenarios for a new world. Philosophical Transactions of the Royal Society. 369: 20-44.
Arrhenius S (1896) On the influence of carbonic acid in the air upon the temperature of the ground. Phil Mag 41: 237–276
Baliunas SL (2002) The Kyoto Protocol and global warming. Imprimis 31(3): 1–7; http://www.hillsdale.edu
Caldeira K, Wickett M (2003) Anthropogenic and ocean pH. Nature 425(6956): 365
Chamberlin, T.C., 1899. An attempt to frame a working hypothesis of the cause of glacial periods on an atmospheric basis. J. Geol. 7, 545–584.
FMH-1 (1995) Federal meteorological handbook, no.1: http:// www.nws.noaa.gov/oso/oso1/oso12/fmh1
Global Carbon Project. 2011. Carbon budget and trends 2010. (Accessed 12-8-2011)
IPCC, 2007a: Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change [Solomon, S.; Qin, D.; Manning, M.; Chen, Z.; Marquis, M.; Averyt, K.B.; Tignor, M.; Miller, H.L. (eds.)]. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA.
Karl, T.R., Trenberth, K.E., 2003. Modern global climate change. Science 302, 1719–1723.
Karoly, D.J., Braganza, K., Stott, P.A., Arblaster, J.M., Meehl, G.A., Broccoli, A.J., Dixon, K.W., 2003. Detection of a human influence on North American Climate. Science 302, 1200–1203.
Katz SA, Khilyuk LF, Chilingar GV (1996) Sensitivity analysis and multivariant modeling for formation pressure and temperature fields in inhomogeneous media. J Petrol Sci Eng 16: 95–108
Khilyuk LF, Chilingar GV, Al-Hamdan MR (2003) Global warming and petroleum industry. Abstracts of SPE Conference.
Khilyuk LF, Katz SA, Chilingarian GV, Aminzadeh F (1994) Numerical criterion and sensitivity analysis for time dependent formation pressure in a sealed layer. J Petrol Sci Eng 12: 137–145
Landau LD, Lifshits EM (1979) Statistical physics (in Russian). Nauka, Moscow, 484 pp
Marov MYa (1986) Planets of the solar system (in Russian). Nauka, Moscow, 320 pp
Miller, K.G., Sugarman, P.J., Browning, J.V., Kominz, M.A., Olsson, R.K., Feigenson, M.D., NASA – Goddard Institute for Space Studies. 2011. NASA Research Finds 2010 Tied for Warmest Year on Record. Research News
Peterson T, Connolley W, Fleck J (2008) The myth of the 1970s global cooling scientific consensus. Bull Am Meteorol Soc 89: 1325–1337
osenberg S, Vedlitz A, Cowman D, Zahran S (2010) Climate change: a profile of U.S. climate scientists’ perspectives. Clim Chang 101(3–4): 663–668
Schimel DS (1995) Global change biology 1: 77–91
Siegenthaler, U., Stocker, T.F., Monnin, E., Lu¨ thi, D., Schwander, J., Stauffer, B., Raynaud, D., Schwander, J.,Stauffer, B., Raynaud, D., Barnola, J.-M., Fischer, H., Masson-Delmotte, V., Jouzel, J., 2005. Stable carbon cycle-climate relationship during the late Pleistocene. Science 310, 1313–1317.
Sorokhtin OG (2001) Greenhouse effect: myth and reality (in Russian). Vestnik of Russian Academy of Natural Sciences 1(1): 8–21
Sorokhtin OG, Ushakov SA (1999) Greenhouse effect and global evolution of the Earth climates (in Russian). Izvestiya of Russian Academy of Natural Sciences 3: 82–101
Stern N (2007) The economics of climate change: The Stern review. Cambridge University Press, Cambridge
Yasamanov NA (2003) Modern global warming: causes and ecological consequences (in Russian). Bull Dubna Int University for Nature, Society, and Man 1(8): 12–21.