Thursday, February 14, 2019
Genetically Modified Organisms: Our Only Hope to Feed Seven Billion Peo
Modern Agriculture Farming experienced itty-bitty change from the end of the medieval age until the middle of the twenty-first century. (Baker, 2014) When the tractor became the putting green farm tool and replaced the horse, crop yields remained much the same. (Baker, 2014) From 1866 until 1938, corn yields in the joined States were reported at 30 bushels an acre. This, when compared to medieval yields, is not much high than a good growing year in medieval times. (Baker, 2014) vicissitude was drastically stalled by the Second World War and the Korean conflict. However, by 1951, crop yield began to steadily increase as new technologies homogeneous fertilizer and hybrid corn breeds became more readily available in the United States.(Baker, 2014) After the introduction of these innovations, corn yields in the United States, from 1952-present, showed an change magnitude yield of 2 bushels an acre per year. (Baker, 2014) This simple increase, not only of corn, but opposite grain s ources has led to a huge increase in the commonwealth of the populace. The cosmos has increased more rapidly in the last two hundred years than any other time in history. This may look like a relatively short time, but when compared to the history of factory farm this is a very short time period. Consider that it took over gigabyte years for the world to reach a population of 1 jillion and only 207 years to reach 7 billion. This is an exponential explosion in the population. Throughout history, agriculture, through several revolutions, has made it possible to sustain the world population. Through innovations such as the plow, crop rotation, and fertilizer, yields have grown and support the population. But how will modern agriculture support a population of 7 billion people? There is n... ... Biosafety? Indiana Journal of planetary Legal Studies 9.2 (2002) 461-500. Web. 1 Mar. 2014.Levetin, Estelle, and Karen McMahon. Chapter 11 Origins of Agriculture. Plants and Soci ety. The McGraw-Hill Companies, 2008. 177-186. Web. 3 Mar. 2014.Paarlberg, Robert. GMO Foods and Crops Africas Choice. New Biotechnology 27.5 (2010) 609-613. Web. 17 Feb. 2014.Pray, Carl, Latha Nagrajan, Luping Li, Jikun D. Huag, Ruifa Hu, K.N Selvaraj, Ora Napasintuwong, and Chandra Babu. Potential Impact of Biotechnology on Adaption of Agriculture to Climate assortment the Case of Drought Tolerant Rice Breeding in Asia. Sustainability 3(2011) 1723-1741. Web. 17 Feb. 2014.Xia, Lanqin, Youzhi Ma, Yi He, and Huw D. Jones. GM Wheat Development in China Current circumstance and Challenges to Commercialization. Journal of Experimental Botany 63.5 (2012) 1785-1790. Web. 17 Feb. 2014.
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