Abstract
Sun is the only known source of energy for our earth. Climate on the earth is determined by the balance between earth’s intercepted solar energy and its reradiation from the earth. The earth’s atmosphere varies in density and composition according to their distance from the biosphere. The lowest layer of the atmosphere is called the troposphere. The troposphere extending from the earth’s surface to a height of about 8–14.5 km contains the majority of the atmosphere’s mass and is the location of most of the earth’s weather. The atmosphere just above the troposphere and extends to 50 km high is called stratosphere, where the ozone layer is formed which absorbs ultraviolet radiations from the sun. The mesosphere starts above the stratosphere and extends to 85 km high. The thermosphere is above mesosphere and extends to 600 km high, where aurora and satellites occur (Zell 2017).
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References
Bar-Yosef, O. (2011). Climatic fluctuations and early farming in West and East Asia. Current Anthropology, 52, S175–S193.
Budyko, M. I. (1969). The effect of solar radiation variations on the climate of the earth. Tellus, 21, 611–619.
Burger, M., Graeber, B., & Schindlmayr, G. (2008). Managing energy risk: An integrated view on power and other energy markets. Hoboken, NJ: Wiley.
Cochrane, K., De Young, C., Soto, D., & Bahri, T. (2009). Climate change implications for fisheries and aquaculture. FAO Fisheries and aquaculture technical paper, 530, 212.
Demenocal, P. B. (2001). Cultural responses to climate change during the late Holocene. Science, 292, 667–673.
EPA. (2018). Global greenhouse gas emissions data [Online]. Available: https://www.epa.gov/ghgemissions/global-greenhouse-gas-emissions-data [Accessed 18 Apr 2018].
Fleming, J. R. Year. 3.1 the carbon dioxide theory of climate change: Emergence, eclipse, and reemergence, ca. 1850–1950. In: 13th symposium on global change and climate variations, AMS, 2002.
Fuller, D. Q., Kingwell-Banham, E., Lucas, L., Murphy, C., & Stevens, C. (2015). Comparing pathways to agriculture. Archaeology International, 18, 61.
Goldberg, P., Berna, F., & Chazan, M. (2015). Deposition and diagenesis in the earlier stone age of Wonderwerk cave, excavation 1, South Africa. African Archaeological Review, 32, 613–643.
Gupta, A. K. (2004). Origin of agriculture and domestication of plants and animals linked to early Holocene climate amelioration. CURRENT SCIENCE-BANGALORE, 87, 54–59.
Hatfield, J., Takle, G., Grotjahn, R., Holden, P., Izaurralde, R. C., Mader, T., Marshall, E., & Liverman, D. (2014). Climate change impacts in the United States: the third national climate assessment. In J. M. Melillo, T. C. Richmond, & G. W. Yohe (Eds.), U.S. Global Change Research Program. Washington, DC: Government Printing Office.
Hegerl, G. C., Von Storch, H., Hasselmann, K., Santer, B. D., Cubasch, U., & Jones, P. D. (1996). Detecting greenhouse-gas-induced climate change with an optimal fingerprint method. Journal of Climate, 9, 2281–2306.
Howells, M., Hermann, S., Welsch, M., Bazilian, M., Segerström, R., Alfstad, T., Gielen, D., Rogner, H., Fischer, G., & Van Velthuizen, H. (2013). Integrated analysis of climate change, land-use, energy and water strategies. Nature Climate Change, 3, 621.
IPCC. (2007). IPCC fourth assessment report: Climate change 2007 [Online]. Available: https://www.ipcc.ch/publications_and_data/ar4/wg1/en/faq-1-3.html [Accessed 16 Apr 2018].
Jacob, J. (2005). The science, politics and economics of global climate change: Implications for the carbon sink projects. Current Science, 89, 464–474.
Joyce, L. A., Running, S. W., Breshears, D. D., Dale, V. H., Malmsheimer, R. W., Sampson, R. N., Sohngen, B., & Woodall, C. W. (2014). Forests. In J. M. Melillo, T. C. Richmond, & G. E. Yohe (Eds.), Climate Change Impacts in the United States: The Third National Climate Assessment. Washington, DC: U.S. Global Change Research Program./Government Printing Office.
Lang, K. (2010). 2.Global warming: Heating by the greenhouse effect [Online]. Available: http://ase.tufts.edu/cosmos/view_chapter.asp?id=21 [Accessed 17 Apr 2018].
Le Treut, H., Cubasch, U., & Allen, M. (2007). Historical overview of climate change science. In Climate change 2007: The physical sciences basis.
Li, X. (2013). New progress in the Holocene climate and agriculture research in China. Science China Earth Sciences, 56, 2027–2036.
NASA. (2018). Climate change: How do we know? [Online]. Available: https://climate.nasa.gov/evidence/ [Accessed 18 Apr 2018].
Riebeek, H. (2010). Global warming: Feature articles .[Online]. Available: https://earthobservatory.nasa.gov/Features/GlobalWarming/page2.php [Accessed 17 Apr 2018].
Ruddiman, W. F. (2003). The anthropogenic greenhouse era began thousands of years ago. Climatic Change, 61, 261–293.
Rupakumar, K., Krishnakumar, K., Ashrit, R. G., Patwardhan, S. K., & Pant, G. B. (2002). In P. R. Shukla, S. K. Sharma, & P. V. Ramana (Eds.), Climate change and India (pp. 24–75). New Delhi: Tata Mc Graw Hill Ltd..
Santer, B. D., Taylor, K., Wigley, T., Johns, T., Jones, P., Karoly, D., Mitchell, J., Oort, A., Penner, J., & Ramaswamy, V. (1996). A search for human influences on the thermal structure of the atmosphere. Nature, 382, 39.
Santer, B. D., Wehner, M. F., Wigley, T., Sausen, R., Meehl, G., Taylor, K., Ammann, C., Arblaster, J., Washington, W., & Boyle, J. (2003). Contributions of anthropogenic and natural forcing to recent tropopause height changes. Science, 301, 479–483.
Steffen, W., Grinevald, J., Crutzen, P., & Mcneill, J. (2011). The Anthropocene: Conceptual and historical perspectives. Philosophical Transactions of the Royal Society of London A: Mathematical, Physical and Engineering Sciences, 369, 842–867.
Zell, H. (2017). Earth’s atmospheric layers. [Accessed 3 Mar 2018].
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Uprety, D.C., Reddy, V.R., Mura, J.D. (2019). Introduction. In: Climate Change and Agriculture. Springer, Singapore. https://doi.org/10.1007/978-981-13-2014-9_1
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