Food Security 1NC
Aquaculture will be used to produce luxury goods – doesn’t solve food insecurity – empirics prove
TWN Feb 1, 2001 (Third World Network, non-profit international network of organizations and individuals involved in issues relating to developing countries, “The negative impacts of aquaculture: Locals deprived.” Feb 1, 2001. http://www.twnside.org.sg/title/pact-ch.htm 6/28/14)
One of the basic tenets of aquaculture is to increase food production. The important question is, for whom? Aquaculture, which has been hailed as THE answer to cheap production food for the millions in the poor Third World countries has instead been utilised to produce luxury delicacies such as fat prawns for the consumption of the already over-fed, affluent and wasteful societies in developed countries such as Japan and US.¶ It has also brought a huge amount of profits to industrialists and investors who deal with high-technology gadgetry in pellet fishfood and vaccine research and production, ice production, processing, transport, etc.¶ Meanwhile, the small-time fishermen and fish farmers lose out and the diet of local people gets impoverished. In Malaysia, tiger prawn is sold for about 32 ringgit (US$13) per kg, double the cost of a kg of beef, out of reach for the general local population.¶ It is ironic then, that most of the world's top suppliers and exporters of shrimps and fish are countries where most of its own people are undernourished: Thailand, Philippines, Indonesia and India.
Status quo solves – Indonesia
The Fish Site, 6/27/14 ( Indonesia – TheFishSite Business Directory is a growing international database of those companies who support the global fish industry. “Indonesia Plots Master Plan for Aquaculture Development” - http://www.thefishsite.com/fishnews/23509/indonesia-plots-master-plan-for-aquaculture-development)
INDONESIA - The development of fish farming in Indonesia is increasingly playing an important role in the world's fishing industry¶ Because aquaculture production supplies about 45 per cent of fishery products consumed worldwide and the rapid global demand for fishery products continues to grow, while the supply through traditional sources is stagnant, the Indonesian government said it is continuing in its efforts to promote the sustainability of the supply and demand of fishery products in the future through the development of environmentally friendly and sustainable cultivation technology.¶ Secretary General of the Ministry of Maritime Affairs and Fisheries Sjarief Widjaja speaking in Jakarta, said that in addition to the technology development, the government is inviting stakeholders to participate actively in fishing and collaborate to construct a fisheries policy that contribute to build a secure supply of fishery products in a sustainable manner.¶ "Therefore, the Ministry of Maritime Affairs and Fisheries has called on WorldFish, an international non-profit organization in Asia, to put together a master plan for national aquaculture by 2020, through the Future Indonesian Aquaculture research projects that will be implemented over 18 months", said Sjarief.¶ Sjarief said, Indonesia Aquaculture Futures is a collaborative project between the Ministry of Maritime Affairs and Fisheries and WorldFish that will provide a great opportunity to comprehensively seek to increase the value of consumption and production of the fishery sector.¶ The project is expected to develop scenarios of supply and demand for fishery products for the future, and to build an understanding of the opportunities and challenges to foster sustainable aquaculture in Indonesia.¶ "The results of this project is important to us and will be constructive as additional input and continuous efforts in ensuring sustainable growth of aquaculture development as well as production and consumption of fishery products in Indonesia", said Sjarief.¶ Sjarief added, according to a report from the World Bank and FAO, in 2030 it is estimated that almost two-thirds of the consumption of fishery products in all over the world will come from aquaculture.¶ The Asian region including South Asia, South East Asia, China and Japan are projected to make up 70 per cent of the global fish demand.
The plan privatizes the ocean – causes overfishing and doesn’t solve food security
Dr. John Volpe - 2014, Assistant Professor of Invasion and Fisheries Biology at the University of Alberta, Offshore Aquaculture Viewpoints, PBS, http://www.pbs.org/emptyoceans/fts/offshore/viewpoints.html
The economies of scale that are being talked about in the offshore industry is about generating profit, not about generating food. This is the leading edge of a privatization that has a much broader horizon. With just aquaculture, we're looking at tapping the common resources in the ocean itself. The future plans are very worrying. The individual states along the West Coast particularly have run across very strident oppositions with the coastal aquaculture model. So the motivation now on the part of the federal government is to remove the jurisdiction from the states, off shore and in the economic exclusion zone. We're moving coastal or state input in the decisions. We're taking a very flawed model that is essentially a net loss of protein production and then amplifying that model hundreds, perhaps thousands of times. This is really a money grab and is the leading edge of the privatization of the offshore environment, the last common, truly common environment left on this earth – the privatization of the ocean. Aquaculture is the way of the future and there's definitely room for aquaculture on this coast. What there is not room for is this simple Wild West, money grubbing, economic bottom-line-only model. We need to produce food, not profit.
Overfishing Turn – Aquaculture causes overfishing – farmed fish are fed wild-caught fish
WWF Global (nd), “Aquaculture problems: Fish feed- Aquaculture is contributing to overfishing through the use of wild-caught fish as feed for farmed fish”-ahttp://wwf.panda.org/about_our_earth/blue_planet/problems/aquaculture/fish_feed/
Most farmed marine fish and shrimp species are carnivorous. They are either fed whole fish (mainly in the case of tuna) or pellets made of, amongst other things, fishmeal and fish oil. In both cases, the fish used as feed are caught from the wild. The amount of feed needed for farmed fish and shrimp is staggering. For example: up to 22kg of wild-caught fish is needed to produce just 1kg of farmed tuna 4kg of wild-caught fish is needed to produce 1kg of farmed salmon up to 2kg of wild-caught fish is needed to produce 1kg of farmed marine shrimp This means that the aquaculture industry is using a large proportion of the fish caught in the world’s oceans each year. Many of the fish stocks used as feed - mostly anchovies, pilchards, mackerel, herring, and whiting - are already fished at, or over, their safe biological limit. So instead of relieving pressure on the marine environment, aquaculture is actually contributing to the overfishing crisis that plagues the world's fisheries.
And that turns the advantage – overfishing causes food insecurity
Nellemann- UNEP- ‘8, C, In Dead Water – Merging of climate change with pollution, over-harvest, and infestations in the world’s fishing grounds. United Nations Environment Programme
The World’s oceans provide one of the largest (not domesticated) food reserves on the planet. Overall, seafood provided more than 2.6 billion people with at least 20 per cent of their average per capita animal protein intake (FAO, 2006). Capture fisheries and aquaculture supplied the world with about 106 million tonnes of food fish in 2004, providing an apparent per capita supply of 16.6 kg (live weight equivalent), which is the highest on record (FAO, 2006). Capture fishery production has, however, remained static, and it is only the rise in aquaculture, now accounting for 43% of the total consumption, that enabled this increase (FAO, 2006). Worldwide, aquaculture has grown at an average rate of 8.8 per cent per year since 1970, compared with only 1.2 per cent for capture fisheries in the same period. Despite fishing capacity now exceeding current harvest four-fold, marine capture has declined or remained level since 2000, reflecting over-harvest in many regions (Hilborn et al., 2003; FAO, 2006). A major reason why the decline has not become more evident is likely because of advances in fishing efficiency, shift to previously discarded or avoided fish, and the fact that the fishing fleet is increasingly fishing in deeper waters. The overall decrease in landings is mostly related to declines in fishing zones in the Southeast and Northwest Pacific oceans (FAO, 2006). In addition, the living resources in the World’s oceans, including those so essential to mankind, are not randomly or evenly distributed. They are largely concentrated in small regions/areas and hotspots, of which continental shelves and seamounts – under-water mountains – play a crucial role. The safety of the World’s oceans as a food source for future generations is however insecure. Over the last decades, there has been continuing exploitation and depletion of fisheries stocks. Undeveloped fish reserves have disappeared altogether since the mid-1980s. During the last decades, there has been a continued decline in fish resources in the ‘developing’ phase, and an increase of those in the depleted or over-exploited phase. This trend is somewhat offset by the emergence of resources in the ‘recovering’ phase (Mullon et al., 2005; FAO, 2006; Daskalov et al., 2007). There is little evidence of rapid recovery in heavily harvested fish populations, except, perhaps herring and similar fish that mature early in life. An investigation of over 90 different heavily harvested stocks have shown little, if any, recovery 15 years after 45–99% reduction in biomass (Hutchings, 2000). This is particularly true as most catch reductions are introduced far too late (Shertzer et al., 2007). Indeed, marine extinctions may be significantly underrated (Casey and Meyers, 1998; Edgar et al., 2005). More importantly in this context is not the direct global extinction of species, but the regional or local extinctions as abundance declines. Local and regional extinctions are far more common than global extinctions, particularly in a dynamic environment like the oceans.
Alt cause – food distribution issues cause food insecurity
Sustainable Table 14
(In an article titled “Food security & food access,” http://www.sustainabletable.org/280/food-security-food-access)
Although it is commonly thought that world population will outstrip food production capacity, current production of food exceeds global population requirements. Historically, famines and widespread hunger have been caused by problems of food distribution (political or logistical) rather than by insufficient food production. Although the global population is expected to rise in the next several decades, global hunger is predicted to decline. ¶ Reverend Thomas Malthus, writing in the late 18th Century, warned that global population would exceed the Earth’s capacity to grow food. Malthus suggested that population grows exponentially, while food production grows only arithmetically. Despite having been largely debunked, this theory has remained prominent in the discourse regarding hunger, the world’s population carrying capacity, and the need for increased agricultural technology (e.g., genetically modified organisms). It is also worth noting that in an historical context, Malthus’s argument was a warning about population increase amongst the poor. Malthus and his cohort described the poor as breeding too rapidly, thus depriving the rest of the population of food; famine was seen as a “natural” defense against overpopulation. Several well-known famines in history, such as the Irish Potato Famine and several Indian famines in the late 19th century, were caused not by lack of food, but by lack of political will to distribute the food to the starving poor. During these famines, Ireland and parts of India were actually exporting food to various other English colonies. Malthusian theories were used to support political choices to avoid helping the starving. Food distribution, rather than total food production, continues to be a global problem in solving food insecurity. ¶
Asia produces enough fish now – over 90% global production
Allison Dec 5, 2011 (Edward H. Allison, marine biology degree, a PhD in fisheries assessment and management, Professor at the University of Washington Seattle · School of Marine and Environmental Affairs, Director and principal scientist - Policy, Economics and Social Science WorldFish Center, “Aquaculture, Fisheries, Poverty and Food Security.” Dec 5, 2011 http://www.worldfishcenter.org/resource_centre/WF_2971.pdf Page 40. 7/4/14 J.M.)
Asia has long traditions in aquaculture of carps, but the rapid growth and diversification of the industry has ¶ largely taken place within the last 40 years, when growth has often exceeded 10 percent annually and now ¶ contributes more than 90 percent of global production. This growth has been driven by rising demand from ¶ growing and urbanizing populations, stagnating supplies from capture fisheries, investment in education and ¶ technology research, a dynamic private sector and high levels of public investment in infrastructure to support ¶ agricultural development. The past fifteen years has seen the emergence of a vibrant SME sector, particularly in ¶ China, Vietnam, Thailand, Indonesia and the Philippines, which targets both domestic and international markets ¶ (Beveridge et al., 2010). ¶ The aggregate data on Asian aquaculture all show increases in the volume and value of trade, increased ¶ contribution of production to agricultural GDP, and, in some cases, increased availability of fish in domestic ¶ supply as well (e.g. Figure 8, section 3.2). That this translates into improved food security and reduced incidence ¶ or prevalence of poverty is then often simply assumed, although this is not necessarily the case if revenues ¶ accrue largely to a small number of wealthy people, or the growing middle classes in Asian cities increase their ¶ fish consumption, but nothing changes for the poor and hungry. Once again, deeper analysis is needed before ¶ causal linkages can be inferred and poverty and food security benefits for aquaculture can be claimed.
Obama already pushing to strengthen food security
Tullo, 14 , Michelle Tullo is a veteran journalist with Inter Press Service (IPS) News Agency. “US turns attention to ocean conservation, food security” (http://businessmirror.com.ph/index.php/en/features/green/34162-u-s-turns-attention-to-ocean-conservation-food-security)
A first-time US-hosted summit on protecting the oceans has resulted in pledges worth some $800 million to be used for conservation efforts.¶ During the summit, held here in Washington, the administration of President Barack Obama pledged to massively expand US-protected parts of the southern Pacific Ocean.¶ In an effort to strengthen global food security, the president has also announced a major push against illegal fishing and to create a national strategic plan for aquaculture.¶ “If we drain our resources, we won’t just be squandering one of humanity’s greatest treasures, we’ll be cutting off one of the world’s leading sources of food and economic growth, including for the United States,” President Obama said via video on Tuesday morning.¶ The “Our Ocean” conference, held on Monday and Tuesday at the US State Department, brought together ministers, heads of state, as well as civil society and private sector representatives from almost 90 countries.¶ The summit, hosted by Secretary of State John Kerry, focused on overfishing, pollution and ocean acidification, all of which threaten global food security.¶ In his opening remarks, Kerry noted that ocean conservation constitutes a “great necessity” for food security.¶ “More than 3 billion people, 50 percent of the people on this planet, in every corner of the world depend on fish as a significant source of protein,” he said.¶ Proponents hope that many of the solutions being used by US scientists, policymakers and fishermen could serve to help international communities.¶ “There is increasing demand for seafood with diminished supply…. We need to find ways to make seafood sustainable to rich and poor countries alike,” Danielle Nierenberg, the president of FoodTank, a Washington think tank, told IPS.¶ “For instance, oyster harvesters in the Gambia have really depleted the oyster population, but a US-sponsored project has been able to re-establish the oyster beds—by leaving them alone for a while. The same strategy—to step back a bit—worked with lobster fishers in New England.”¶ Nierenberg predicted that with diminishing wild fish, the future of seafood would be in aquaculture.¶ “What aquaculture projects need to do now is learn from the mistakes made from crop and livestock agriculture,” she said. “It doesn’t always work—for instance, maize and soybeans create opportunities for pest and disease. Overcrowding animals creates manure.”
Food Security 2NC – Doesn’t get to the Food Insecure
Won’t feed the poor – food will go to livestock, nourished countries and trade.
Allison Dec 5, 2011 (Edward H. Allison, marine biology degree, a PhD in fisheries assessment and management, Professor at the University of Washington Seattle · School of Marine and Environmental Affairs, Director and principal scientist - Policy, Economics and Social Science WorldFish Center, “Aquaculture, Fisheries, Poverty and Food Security.” Dec 5, 2011 http://www.worldfishcenter.org/resource_centre/WF_2971.pdf Page 38. 7/4/14 J.M.)
At first glance, the idea that a low income food deficit country whose population suffers high rates of malnutrition ¶ should be exporting nutritious food to over-fed consumers in wealthy countries appears abhorrent. This is surely ¶ a market without morality, little better than the ‘noxious markets’ trading in, say, human kidneys (Satz, 2010). ¶ Apparently equally problematic is the idea that low cost fish that could be eaten by undernourished low-income ¶ consumers is instead fed to poultry, pigs and (mostly) farmed fish, destined for the tables of the over-nourished ¶ (see section 3.3, for a partial refutation of that argument). Such views are, however, based on an over-simplified ¶ and sometimes simply inaccurate representation of the globalized trade in fishery products. This is not to deny ¶ that such criticisms may be valid in some circumstances, but to demonize trade in general closes down an ¶ important route out of poverty (and hunger) through economic growth. Equally, to uncritically state that trade ¶ is - under all conditions and for everyone - good for poverty reduction, and therefore food security, is also an ¶ over-simplification.
Food Security 2NC – Overfishing – A2: Plan Solves Can’t change feeding practices – the science isn’t ready and it’s not economical
Folke et al. Nov 13, 2006 (Lisa Deutsch- Director of Studies and center researcher, researches ecological effects of globalization of food production systems and national policy, PhD in Natural Resource Management at the Department of Systems Ecology, Sara Gräslund- Junior Professional Officer, International Waters, Global Environment Facility, Carl Folke- Director of the Stockholm Resilience Centre and Director of the Beijer Institute of Ecological Economics of the Royal Swedish Academy of Sciences, Max Troell- Associate Professor, Systems Ecologist. Researcher at the Beijer Institute and Stockholm University, Miriam Huitric- PhD Programme Director Social-Ecological Resilience for Sustainable Development, Nils Kautskya- PhD Marine Systems Ecology, Professor Marine Ecotoxicology, Louis Lebeld- Ph.D Zoology from University of Western Australia, “Feeding aquaculture growth through globalization: Exploitation of marine ecosystems for fishmeal” Global Environmental Change Volume 17, Issue 2, May 2007, Pages 238–249. Available online 13 November 2006. http://www.sciencedirect.com/science/article/pii/S0959378006000719 6/28/14)
While significant research is underway to reduce the percentage of fishmeal in feed, the success of these efforts is unclear (Hardy, 1999; Tacon, 2004). In general, fishmeal protein has not proven highly substitutable (Sugiura et al., 2000 cited in Hardy and Tacon, 2002; Webster et al., 1999). Various alternatives to fish protein in feeds are being evaluated, including waste from seafood processing plants; terrestrial animal by-product meals (Tacon, 2002); synthetic amino acids (as used in livestock feed (Deutsch and Björklund, unpublished manuscript); agricultural by-products, such as palm kernal expellents (Tacon, 2002); or unicellular bacteria, fungi and algae (Tacon, 2002). However, it remains to be seen whether these alternatives are economical and can actually be used in commercial aquaculture; some present potential human health risks, for example fish wastes often contain toxic contaminants (Hites et al., 2004). While industry acknowledges the problem and the portion of fishmeal in feed is in fact decreasing in several species—increases in production volumes, especially for such dominant species as carp, has meant that efficiency increases have been more than counterbalanced by growth in production (Goldburg et al., 2001).¶ The aquaculture industry does not perceive increased demands for fishmeal as a potentially insurmountable problem. It is predicted instead that aquaculture will increase its use of fishmeal at the expense of pig and poultry production because these animals can substitute vegetable proteins, such as soybeans, in their diets (Seafeeds, 2003) and use synthetic amino acids. This has indeed been the pattern of development historically, since the amount of fishmeal used in the animal feed industries has remained relatively constant between 25 and 34 Mt (Tacon, 2003c), while the aquaculture sector has continuously increased its use of fishmeal (see Box 1).
Food Security 2NC – Alt Cause
Alt cause – global shift to commodity crops displaces food crops
Sustainable Table 14
Various political-agricultural practices contribute to food insecurity worldwide. These include substituting commodity crops for food crops (e.g., growing corn instead of vegetables) and heavy exportation of food crops at the expense of food security of the exporting country. In addition, the recent demand for biofuels, currently produced primarily from corn and soy, has further decreased the amount of viable arable land being used for food production. ¶ The United States overproduces commodity crops (particularly corn, wheat, and soy) in part due to government subsidization; healthful food and sustainable agriculture has not been historically promoted in US food and farming policy. The FAO’s definition of food security includes a provision describing access to “nutritious” food; however, in many low-income areas, it is easier to access cheap, unhealthful food (such as fast food), often produced primarily from commodity crops. In addition, the US exports a high proportion of its commodity crops to the rest of the world. For example, in 2010, over 53 percent of all corn exports in the world were from the US. The exportation of these commodity crops affects farmers in the rest of the world – especially small farmers with limited resources. A large influx of commodity crops from the US can affect local food security, as small farmers cannot compete with less expensive (subsidized) US-produced agricultural products. ¶
Alt cause – lack of investment in agriculture, natural disasters, displacement, and food wastage
WFP ‘14
World Food Programme is the world's largest humanitarian agency fighting hunger, as well as the United Nations frontline agency. “Hunger: What Causes Hunger?”. 2014. http://www.wfp.org/hunger/causes
The world produces enough to feed the entire global population of 7 billion people. And yet, one person in eight on the planet goes to bed hungry each night. In some countries, one child in three is underweight. Why does hunger exist? There are many reasons for the presence of hunger in the world and they are often interconnected. Here are six that we think are important. Poverty trap People living in poverty cannot afford nutritious food for themselves and their families. This makes them weaker and less able to earn the money that would help them escape poverty and hunger. This is not just a day-to-day problem: when children are chronically malnourished, or ‘stunted’, it can affect their future income, condemning them to a life of poverty and hunger. In developing countries, farmers often cannot afford seeds, so they cannot plant the crops that would provide for their families. They may have to cultivate crops without the tools and fertilizers they need. Others have no land or water or education. In short, the poor are hungry and their hunger traps them in poverty. Lack of investment in agriculture. Too many developing countries lack key agricultural infrastructure, such as enough roads, warehouses and irrigation. The results are high transport costs, lack of storage facilities and unreliable water supplies. All conspire to limit agricultural yields and access to food. Investments in improving land management, using water more efficiently and making more resistant seed types available can bring big improvements. Research by the UN Food and Agriculture Organization shows that investment in agriculture is five times more effective in reducing poverty and hunger than investment in any other sector. Climate and weather. Natural disasters such as floods, tropical storms and long periods of drought are on the increase -- with calamitous consequences for the hungry poor in developing countries. Drought is one of the most common causes of food shortages in the world. In 2011, recurrent drought caused crop failures and heavy livestock losses in parts of Ethiopia, Somalia and Kenya. In 2012 there was a similar situation in the Sahel region of West Africa. In many countries, climate change is exacerbating already adverse natural conditions. Increasingly, the world's fertile farmland is under threat from erosion, salination and desertification. Deforestation by human hands accelerates the erosion of land which could be used for growing food. War and displacement. Across the globe, conflicts consistently disrupt farming and food production. Fighting also forces millions of people to flee their homes, leading to hunger emergencies as the displaced find themselves without the means to feed themselves. The conflict in Syria is a recent example. In war, food sometimes becomes a weapon. Soldiers will starve opponents into submission by seizing or destroying food and livestock and systematically wrecking local markets. Fields are often mined and water wells contaminated, forcing farmers to abandon their land. Ongoing conflict in Somalia and the Democratic Republic of Congo has contributed significantly to the level of hunger in the two countries. By comparison, hunger is on the retreat in more peaceful parts of Africa such as Ghana and Rwanda. Unstable markets. In recent years, the price of food products has been very unstable. Roller-coaster food prices make it difficult for the poorest people to access nutritious food consistently. The poor need access to adequate food all year round. Price spikes may temporarily put food out of reach, which can have lasting consequences for small children. When prices rise, consumers often shift to cheaper, less-nutritious foods, heightening the risks of micronutrient deficiencies and other forms of malnutrition. Food wastage. One third of all food produced (1.3 billion tons) is never consumed. This food wastage represents a missed opportunity to improve global food security in a world where one in 8 is hungry. Producing this food also uses up precious natural resources that we need to feed the planet. Each year, food that is produced but not eaten guzzles up a volume of water equivalent to the annual flow of Russia's Volga River. Producing this food also adds 3.3 billion tonnes of greenhouse gases to the atmosphere, with consequences for the climate and, ultimately, for food production.
Alt causes - climate change
CFS 2/27/14 (Center for Food Safety is a non-profit organization working to advocate environmental reform to advance human health through regulating harmful food production and promoting sustainable organic agriculture, “New Report Connects Climate Change & Food Insecurity” – February 27, 2014 – http://www.centerforfoodsafety.org/press-releases/2948/new-report-connects-climate-change-and-food-insecurity)
Underscores Organic Agriculture's Climate Resilience Food security requires a stable climate and, according to a new report released today by Center for Food Safety’s Cool Foods Campaign, this security is being jeopardized by climate change. The report, “Food and Climate: Connecting the Dots, Choosing the Way Forward,” outlines the climate requirements for successful food production, and examines two competing food production methods – industrial and organic – to reveal how they contribute to the climate problem, how resilient they are in the face of escalating climate shocks, and how organic agriculture can actually help to solve the climate crisis. “It isn’t widely discussed, but the industrialization of our food supply is a major driver of global climate change, and, ironically, this is undermining our future ability to produce an adequate supply of food” said Cool Foods Campaign director Diana Donlon. “In fact, taken in the aggregate, the global food system is responsible for approximately half of all greenhouse gases.” Droughts and heat waves in 2012 in the U.S. alone affected approximately 80 percent of agricultural land, causing an estimated $30 billion in damages. Already in 2014, California, which produces nearly half the nation’s fruits and vegetables, is experiencing the worst drought in its 153 year history. In the report, Center for Food Safety examines how industrial agriculture – the dominant method of food production in the U.S. – externalizes many social and environmental costs while relying heavily on fossil fuels. Organic farming, by comparison, requires half as much energy, contributes far fewer greenhouse gasses, and, perhaps most surprisingly, is more resilient in the face of climate disruption. “While our current climate trajectory is daunting, a future defined by food insecurity and climate chaos is not inevitable. We can still alter our course. Regenerative, organic agriculture has tremendous, untapped potential to strengthen food security while adapting to climate uncertainties and even helping to mitigate them,” said Donlon.
Many causes of food insecurity – aff can’t solve because there are too many factors such as climate change, corruption, diseases, and population growth
Harvest Help ’12 (Harvest Help is a website designed to detail food crises, international response, causes of food insecurity, and ways to aid in these problems, specifically in Africa and third-world countries. “Causes of Food Insecurity in African and Other Third World Countries” – 2012 – http://www.harvesthelp.org.uk/causes-of-food-insecurity-in-african-and-other-third-world-countries.html)
The majority of the severest food crises after the second half of the 20th century were caused by a combination of several factors. The most common causes of food insecurity in African and other Third World countries were: Drought and other extreme weather events. The comparison of the severest food crises in the later history reveals that all were preceded by drought or other extreme weather events. They resulted in poor or failed harvests which in turn resulted food scarcity and high prices of the available food. Pests, livestock diseases and other agricultural problems. In addition to extreme weather events, many failed harvests in African and other Third World countries were also caused by pests such as desert locusts. Cattle diseases and other agricultural problems such as erosion, soil infertility, etc. also play a role in food insecurity. Climate change. Some experts suggest, that drought and extreme weather in regions affected by food crises in the recent decades could be a result of climate change, especially in the West and East Africa which have problems with recurrent extreme droughts. Military conflicts. Wars and military conflicts worsen food insecurity in African and other Third World countries. They may not be directly responsible for food crises but they exacerbate scarcity of food and often prevent the aid workers from reaching the most affected people. Lack of emergency plans. History of the severest food crises shows that many countries were completely unprepared for a crisis and unable to resolve the situation without international aid. Corruption and political instability. In spite of criticism lately, the international community has always send help in the form of food supplies and other means which saved millions of lives in the affected regions. However, the international aid often did not reach the most vulnerable populations due to a high level of corruption and political instability in many Third World countries. Cash crops dependence. Many African and Third World governments encourage production of the so-called cash crops, the income from which is used to import food. As a result, countries which depend on cash crops are at high risk of food crisis because they do not produce enough food to feed the population. AIDS. The disease which is a serious public health concern in the sub-Saharan Africa worsens food insecurity in two ways. Firstly, it reduces the available workforce in agriculture and secondly, it puts an additional burden on poor households. Rapid population growth. Poor African and Third World countries have the highest growth rate in the world which puts them at increased risk of food crises. For example, the population of Niger increased from 2.5 million to 15 million from 1950 to 2010. According to some estimations, Africa will produce enough food for only about a quarter population by 2025 if the current growth rate will continue.
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