Saturday, November 16, 2019

Global Food Production Challenges

Global Food Production Challenges Introduction It has been observed that In spite of the fact that the food production has increased almost twice in the last few decades, but there are people who are insecure of the food conditions and do not get enough nutritious food to eat (Wu et al. 2011). As per the world population data the people who do not get adequate nutritious food to eat has reached to the extent of 870 million in 2013 (FAO et al. 2013), also it has been stated that, by the end of 2050, food production globally has to increase by 70 to 100 percent so that the total world population can had nutritious food to eat. (Bruinsma, 2009; Parry and Hawkesford, 2010; Zhu et al., 2010) It is also necessary that preventive steps are to be taken so as to reduce the global warming and greenhouse effect and ozone depletion. Population History and growth As per the UN population prospects, the population of world is expected to grow by 34 percent from 6.8 billion to 9.1 billion in 2050, so this increase in the population is the main reason for increased demand of the food. Population Division of the Department of Economic and Social Affairs of the United Nations Secretariat (2007) It has also been noted that China and India, are the worlds most populated countries, both are bhaving more than 1 billion inhabitants; each has sustained once a year gross domestic product (GDP) growth rate over 10 years ago that is among the worlds highest — 9 percent for China and 7 percent for India. As per the National Defense Research Institute (2011) although the population of India is lesser than that of china, but at the present scenario population growth of India is 1.55 percent yearly more than double Chinas 0.66 percent. It has been estimated that by 2025, the total population of India will be equal to that of China thus making India most populous country in the world. Also it has been noted that the population of India will continue to increase till 2050, while the population of China is expected to peak at about 1.4 billion in 2026 and will de-grow after that . (Figure 1) Figure Total Population Sizes, China and India, 2000–2035 ( http://www.rand.org/pubs/research_briefs/RB9598/index1.html ). Global Food systems Global food systems consist of production and supply of foods and its consumption.  Figure 2 describes the overview of this food system. On the basis of the national level, supply is basically a function of national production and imports minus exports. The difference between supply and consumption is the gap caused by losses in the food chain. Global food system Figure 2:  http://www.sciencedirect.com/science/article/pii/S0195666310005118 Global food Production In the year 1961, FAO gave information on the annual market supply to all the countries in world, for the production of agricultural commodities. (Gerbens-Leenes, 2010). Global Food Consumption: Food consumption patterns are the repeated arrangements of consumption, characterized by types and quantities of food items and their combination in dishes and meals, (Gerbens-Leenes Nonverbal, 2010). Food consumption pattern is based on certain factors like availability, tradition, culture and income effects. Land degradation Land degradation is basically temporary or permanent decline in ecosystem function and productive capacity. It can be destruction or deterioration in health of terrestrial ecosystems, which affects the biodiversity, natural ecological processes and ecosystem resilience, it can also reduce the biological/economic productivity and complexity of croplands, pasture, woodland, forest, etc. This can result to numerous factors like anthropogenic (human-related) activities such as unsustainable land management practices and climatic variations. The accelerated degradation is normally linked with human alteration of the environment. Degradation process can be deforestation and desertification. There are different cause for the degradation of land and they are soil erosion by wind or water, natural conditions, topography, weather/climatic conditions, high intensity rainfall, natural hazards, unsustainable agricultural practices, habitat alteration. (http://www.cyen.org/innovaeditor/assets/Land degradation module.pdf) Land desertification Desertification is one of the most serious environmental problems on a global scale. It is a biophysical edaphic, climatic and geographical feature of the region Ying zhong XIE, (2014). Desertification is basically the degradation of dry land ecosystems by variations in climate and human activities. Worldwide desertification has affected the life of millions of people who depend on the dry land ecosystem. It has been observed that the dry lands are because of the shortage of the water. Thus, desertification is one of the main environmental threat today and a barrier to basic human needs in dry lands. As per (Jason P, 2012) the pervasive but untested desertification redistribution is because of loss of grass cover, this can have global relevance for human-environmental systems which can be at risk due to current or potential desertification. Agriculture Disease Measurement of Disease and Its Effect on Yield Plant diseases are those that either kill the plant or reduce the ability of a plant to survive, produce flowers or fruit. They are caused by micro-organisms normally referred to as pathogens; which include fungi, bacteria and viruses, although it is very difficult to measure the severity of plant disease. There are certain diseases but major plants disease include in which the leaves are not shaped properly; the symptoms cannot be identified and they can be from a few isolated lesions to also collapsing of the entire plant. Moreover there is no relationship between measures of symptoms and the failure to reach achievable yields . Thus it has been observed that the measurement of yield is highly controversial. However, the relation of plant disease to yield is not be very clear and it will need some proper measurement. (annualreviews,2014) Global Water Crisis It has been noted that because of shortage of water supply there has been a decline in irrigation. Water is very important and is used for crop cultivation in all regions of the world.( Hanjara and Qureshi , 2010). There has been seen an increased competition for water resources among all the sectors, regions and countries. Moreover 40% of the populations in the world live in regions that directly compete for water resources. Water is very important for irrigation, drinking and for other things thus water is very important. A major concern to maintaining future water supplies is the continuing over-draft of surface and groundwater resources. As a result, there is decline in available surface water and groundwater for irrigation. It has been observed that climatic change has an impact on the global food security and change in water and food supply. Moreover this change in the Climate can affect the production of agriculture and food security by altering the distribution of rainfall, and also the availability of water, land, capital, biodiversity and terrestrial resources. Furthermore, this change in the climate will also have an adverse impact on food and crop productivity, which can affect food security ( Hanjara and Qureshi, 2010). It has also been seen that the global warming can increase yields which can be due to negative effect of fertilizer, by rising presence of carbon di oxide present in the atmosphere, but this can have a negative impact on poor countries. Greenhouse effect on Carbon dioxide An increased level of carbon dioxide in the atmosphere is the main reason for increase in the global warming. As per certain studies at the Carnegie Institution for Science, in some regions more than a quarter of the warming result from increased carbon dioxide it is due to its direct impact on vegetation. Thus this increase in temperature and also an increase in the carbon dioxide levels have a heat-trapping greenhouse gas. For scientists trying to predict global climate change in the coming century, the study underscores the importance of including plants in their climate models. Plants during the photosynthesis take carbon dioxide out of the atmosphere, but they also have some other effects, like change in the rate of evaporation from the land surface. Thus the effect of carbon dioxide as a greenhouse gas have been well known as pointed out by Caldeira. Moreover there is no doubt that carbon dioxide decreases evaporative cooling by plants and that this decreased cooling adds to gl obal warming. Greenhouse effect of higher temperature The greenhouse effect is basically when the short-wave solar radiation heats the surface of the Earth, and this energy is radiated back through the Earths atmosphere as heat, radiations of wavelengths 5-30 µm is absorbed by water vapourand carbon dioxide, which in turn radiate it, thus heating the atmosphere and land and ocean surface. This happens on its own and is natural and this is what is the reason that keeps the Earth habitable. Greenhouse keeps the average surface temperature would be about minus 18 °C, which is same as on the moon. There is a difference of some 33 °C substantially to natural levels of water vapour (60%, or more including clouds) and carbon dioxide in the Earth’s atmosphere. In respect to enhancing the greenhouse effect, the particular issue is focused in the 8-18 µm band where water vapour is a weak absorber of radiation and where the Earths thermal radiation is greatest. As methane is stronger greenhouse gas because it has more atoms in the molecule than CO2. The radioactive effect is caused by infrared absorption, and molecules with more atoms absorb more infrared energy. IR absorption is by the electrons that bond between atoms in a molecule and the way those atoms vibrate. Greenhouse effect to Climate variability This graph, based on the comparison of atmospheric samples contained in ice cores and more recent direct measurements, provides evidence that atmospheric CO2has increased since the Industrial Revolution: (http://www.globalissues.org/article/233/climate-change-and-global-warming-introduction#TheclimatehasalwaysvariedinthepastHowisthisanydifferent) Increase in Pests And Disease As per a report in the journal Science in June 2002, it says that there is an alarming increase in diseases, this can be due to change in climate. Accordingly, it has been pointed out by authors that a â€Å"Climate change is disrupting natural ecosystems in a way that is making life better for infectious diseases.† Rising Sea Levels It has been proved that water expands on heating, and so sea levels are also expected to rise due to the global warming and greenhouse effect and the possible climatic change. Thus rising sea levels will also because of the polar caps as they are melting because of the global warming. This rising sea level is already having a negative effect on many small islands. The World Watch Institute has reported that the Earth’s ice cover is melting in more places and at higher rates. (March 6, 2000). This can also have an impact on many coastlines and small countries, and a large population of people of humanity lives near the coasts or by major rivers. (http://www.globalissues.org/article/233/climate-change-and-global-warming-) The relationship of Green house and Ozone Depletion The ozone layer is very important as it protects the environment from the harmful rays of the sunlight. Thus ozone shield is important as it forms a barrier and protects plant and animal life on land from the suns ultraviolet rays, which may cause skin cancer, cataracts, and damage to the immune system. Ozone layer depletion can also alter the DNA living creature on the earth. Thus ozone layer is very important for the life in the earth. Shindell, et. al. wrote inNature, that Greenhouse gases warm the Earths surface but cool the stratosphere radiative, and therefore affect ozone depletion. Moreover by the end of 2019, Shindell, et al. expects that the ozone layer may reduce by two-thirds in the Arctic poles. Not only this, the severity and duration of the ozone hole in the Antarctic are also likely to increase, this may be because of greenhouse-gas-induced stratospheric cooling over the coming decades. As reported by NASA researchers and also by European, Japanese, and Canadian scientists, there is a connection between global warming, a cooling stratosphere, and depletion of stratospheric ozone. The report also says that the ozone layer is having a stabilizing effect on the Antarctic poles, whereas ozone levels in the Arctic circle are still falling. Conclusion: As per (Bruinsma 2011), there has to be an increase in total global food production by at least 70 to 100 percent by the end of the year 2050. It’s only then we can adequately feed a global population of nine billion people at that time. It has been already seen that China and India, the worlds most populated nations, and both the country has more than 1 billion inhabitants; each has sustained once a year gross domestic product (GDP) growth rate over 10 years ago that is among the worlds highest 9 percent for China and 7 percent for India, moreover it has been estimated that by the year 2025, Indias total population will be equal to China’s population, thus making India the worlds most populated country. In the year 1961, the information available on the annual market supply for almost all countries in world and production of agricultural commodities. In the western world, agriculture, transport and protect food in the technological development at the end of the 19th ce ntury led to the expansion of the food industry and food preparation shifted from households to industry, so stimulating the nutrition transition. Worldwide it has been noted that water shortage reflects the per capita decline and also in irrigation for the production of food. Also because of the population increase and also increased pollution the Ozone layer is getting depleted and is causing global warming and which will be the major cause of plant and human disease. So it is needed that the pollution should be as low as possible. It is also needed in future that the global food production should be increased by adopting new and innovative and mechanized method for production and cultivation of the crop. References: Caribben Youth environment Network (NO) Land degradation [online].Bridgetown:Carribbean YEN [Accessed at 28 October 2014] . Available at:  http://www.cyen.org/innovaeditor/assets/Land degradation module.pdf >. Carnegie Institute. (2010) Carbon dioxides effects on plants increase global warming, study finds. [online] . Washington : Carnegie Institute .[Accessed 27 October 2014]. Available at:  http://www.sciencedaily.com/releases/2010/05/100503161435.htm> . Dongmei XU, Xinzhong XU, Yingzhong XIE, (2014), Dynamics of sandy desertification and detection of sandy and/steppe boundary: vegetation and soil properties, Polish journal of ecology, Vol 60, pp. 251–263. FAO,IFAD,WEF. (2013) The state of food insecurity in the world 2013 In: The Multiple Dimensions of Food Security [online]. Roma: FAO. [Accessed at 01November 2014]. Available at: http://www.fao.org/docrep/018/i3434e/i3434e.pdf >. Gerbens-Leenes, P.W., Nonhebel, S. and Krol, M.S (2010) Food consumption patterns and economic growth. Increasing affluence and the use of natural resources. Appetite,54(3), pp.597-608. Global Issues (2013) Climate Change and Global Warming Introduction [online]. [Accessed 29 October 2014]. Available at:  http://www.globalissues.org/article/233/climate-change-and-global-warming-introduction#WhatistheGreenhouseEffect> . Hanjara, M.A. and Qureshi, M.E (2010) Global water crisis and future food security in an era of climate change. Food policy,35(5),pp . 365-377 . Idso, C.D.(2011) Estimates of Global Food Production in the Year 2050 Will We Produce Enough to Adequately Feed the World? [online]. Tempe:CO2 SCIENCE. [ Accessed at 28 October 2014 ]. Available at:  http://www.co2science.org/education/reports/foodsecurity/GlobalFoodProductionEstimates2050.pdf >. Jason P. Field, David D. Breshears, Jeffrey J. Whicker and Chris B. Zou (2012)Sediment capture by vegetation patches: Implications for desertification and increased resource redistribution, Journal of Geophysical Research: Bio geosciences, Vol 117, Issue G1, March 2012. Johansen, B . E. (NO) The relationship of Green house and Ozone Depletion  [online ].[Accessed 01 November 2014]. Available at:  http://www.ratical.org/ratville/ozoneDepletion.html > . National Defense Research Institute (NDRI) (2011) The Asian Giants are Heading Down Different Demographic Paths (China and India)[online] USA:(NDRI). [Accessed 25 October 2014]. Available at:  http://www.rand.org/pubs/research_briefs/RB9598/index1.html > World Nuclear Association (2014) Climate Change – The Science London:  [Accessed 29 October 2014]. Available at: http://www.world-nuclear.org/info/Energy-and-Environment/Climate-ChangeThe-Science/>. WU,Wen-bin., YU, Q., Peter ,V. H. , YOU, L.Z , YANG, P. and TANG,H. J . (2014) How Could Agricultural Land Systems Contribute to Raise Food Production Under Global Change? Journal of Integrative Agriculture, 13(7),pp.1432-1442.

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