BIO EVENTS
Event 14
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Event 14
Review of previous activities.
Comments on recent assignment (Biology and agriculture).
On-line (and upcoming) activities
Food insecurity and sovereignty.
Assignment, Event 14
Quiz
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Last Event
Biology and agriculture. What are GMO’s and what is all the controversy about?
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Genetic alteration in ways that do not occur naturally. Interspecies transfer (“genetic engineering”). Disputes over health effects of GMO’s when consumed and of the materials used in their production (e.g., herbicides).
Evaluating website content
How to evaluate website content
https://www.library.kent.edu/criteria-evaluating-web-resources
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On-line activities, Event 14
CHAPTER 8: Ecology
Module 26: Chapter Introduction*
Module 27: Populations*
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* Module with quiz.
6 modules to go (including these)
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UNIT 3 The Cell
UNIT 4 Metabolism
UNIT 5 Cell Division
UNIT 6 Classical Genetics
UNIT 7 Evolution
UNIT 2 Introduction
to Chemistry
UNIT 8 Ecology
UNIT 1 Introduction
Agriculture
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rice (Oryza sativa)
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Photosynthesis
glucose
Fermentation
Ethanol
Respiration
CO2 + H2O
ATP
ADP + P
Work
Movement of
motor proteins
Molecular
transport
Synthesis of
biomolecules
CO2 + H2O
Photosynthesis is the ultimate source of life as it provides the energy that drives all metabolic processes.
ATP
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oat (Avena sativa)
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(Level 1)
Energy transfer through ecosystems
oat plants
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“Law of tens”
(Level 2)
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GROWTH AND
MAINTENANCE
(Level 3)
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GROWTH AND
MAINTENANCE
(Level 2)
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bacteria and fungi
Energy transfer through ecosystems
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| Level | % of total energy incorporated |
| Sun’s energy | 100.0 |
| 1 (Plant) | 1.0 |
| 2 (Herbivore) | 0.1 |
| 3 (Carnivore) | 0.01 |
| 4 (Secondary carnivore) | 0.001 |
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How much food could be produced if land used to produce feed for cattle in the US was reallocated to other sources of energy or protein…
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Sun
Plants
Human
Cow
heat
heat
heat
reflection/
re-radiation
= Chemical energy
= Electromagnetic energy
Arrow size reflects proportion of energy
transfer among tropic levels
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corn, maize (Zea mays)
Six plant species provide majority of of human food
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| Crop | World production (million metric tons) |
| corn (maize) | 823 |
| wheat | 690 |
| rice | 685 |
| potato | 314 |
| cassava | 233 |
| soybean | 110 |
(high carbohydrate content)
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Hunger
More than 800 million people are chronically hungry; most are women and children in developing countries.
Hunger and malnutrition kill more people each year than AIDS, malaria and tuberculosis combined.
One child dies every five seconds from hunger-related causes.
More people die from hunger than in wars.
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Percent of population undernourished
35%
20-34%
5-19%
2.4-4%
< 2.4%
no data
% of population
undernourished
Food security
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…refers to the availability of food and one’s access to it. A household is considered food secure when its occupants do not live in hunger or fear of starvation.
Causes of food insecurity
Nature
Drought
Floods
War
Poverty
Agricultural infrastructure
Over-exploitation of the environment
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Nature Natural disasters such as floods, tropical storms and long periods of drought are on the increase -- with calamitous consequences for food security in poor, developing countries.
Drought is now the single most common cause 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 many countries, climate change is exacerbating already adverse natural conditions.For example, poor farmers in Ethiopia or Guatemala traditionally deal with rain failure by selling off livestock to cover their losses and pay for food. But successive years of drought, increasingly common in the Horn of Africa and Central America, are exhausting their resources.
War
Since 1992, the proportion of short and long-term food crises that can be attributed to human causes has more than doubled, rising from 15 percent to more than 35 percent. All too often, these emergencies are triggered by conflicts.
From Asia to Africa to Latin America, fighting displaces millions of people from their homes, leading to some of the world's worst hunger emergencies. Since 2004, conflict in the Darfur region of Sudan has uprooted more than a million people, precipitating a major food crisis -- in an area that had generally enjoyed good rains and crops.
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 and water wells are often mined or contaminated, forcing farmers to abandon their land.
When conflict threw Central Africa into confusion in the 1990s, the proportion of hungry people rose from 53 percent to 58 percent. By comparison, malnutrition is on the retreat in more peaceful parts of Africa such as Ghana and Malawi.
Poverty Trap
In developing countries, farmers often cannot afford seed to plant the crops that would provide for their families. Craftsmen lack the means to pay for the tools to ply their trade. Others have no land or water or education to lay the foundations for a secure future.
The poverty-stricken do not have enough money to buy or produce enough food for themselves and their families. In turn, they tend to be weaker and cannot produce enough to buy more food.
In short, the poor are hungry and their hunger traps them in poverty.
Agricultural infrastructure
In the long-term, improved agricultural output offers the quickest fix for poverty and hunger.
According to the Food and Agriculture Organization (FAO) 2004 Food Insecurity Report, all the countries that are on track to reach the first Millennium Development Goal have something in common -- significantly better than average agricultural growth.
Yet 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.
But, although the majority of developing countries depend on agriculture, their governments economic planning often emphasises urban development.
Over-exploitation of environment Poor farming practices, deforestation, overcropping and overgrazing are exhausting the Earth's fertility and spreading the roots of hunger.
Increasingly, the world's fertile farmland is under threat from erosion, salination and desertification.
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Causes of food insecurity
Nature
Drought*
Floods
War
Poverty
Agricultural infrastructure*
Over-exploitation of the environment*
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* Agricultural science may offer solutions?
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Improving food security
Demand challenges
Population growth
Rising affluence*
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Rice planting in Bangladesh
grain humans
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Cattle feedlot in Wiggins County, CO
(feed) grain cattle humans
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More people + more wealth more meat
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Environmental Working Group, 2011
Carbon “footprint” of various foods
Non-vegetarian and vegetarian diets
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| Input | Non-vegetarian/vegetarian ratio |
| Water | 2.9 |
| Primary energy | 2.5 |
| Fertilizer | 13 |
| Pesticides | 1.4 |
Marlow et al. 2009. Am. J. Clin. Nut. 89:16995-17035.
Energy is tied up in the grain…
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Fossil energy required to produce animal protein
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| Product | Energy input: Protein output |
| Lamb | 57:1 |
| Beef | 40:1 |
| Eggs | 39:1 |
| Swine | 14:1 |
| Turkey | 10:1 |
| Chicken | 4:1 |
Pimentel and Pimentel. 2003. Am. J. Clin. Nut. 78:6605-6635.
Improving food security
Supply challenges
Water shortages
Climate change
Agricultural technology
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Food security
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Food sovereignty
= The right of peoples to healthy and culturally appropriate food produced through ecologically sound and sustainable methods, and the right to define their own food and agriculture systems.
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Small-scale farmers provide >80% of the food produced in the developing world.
Globally, there are approximately 2.5 billion people involved in full- or part-time smallholder agriculture, managing an estimated 500 million small farms.
The green revolution in agriculture swept through large parts of the developing world during the 1960s and 1970s. Through advances such as high-yielding crop varieties, irrigation, agrochemicals and improved management techniques, farmers’ grain production increased from 800 million to more than 2.2 billion tons from 1961 to 2000 (World Bank 2007; FAO 2011a).
The conditions that smallholders face have changed. Farmers face a series of unprecedented, intersecting challenges, often originating at global levels: increasing competition for land and water, increased influence of and changing markets, rising fuel and fertilizer prices, and climate change.
Approximately 2.5 billion people live directly from agricultural production systems, either as full- or part-time farmers, or as members of farming households that support farming activities
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Food sovereignty
Puts those who produce, distribute and consume food at the heart of food systems and policies rather than the demand of markets and corporations.
Implies new social relations free of oppression and inequality between men and women, peoples, racial groups, social classes and generations.
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Food sovereignty
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“Getting more (and more nutritious) food to the hungry has more to do with governance, distribution, food prices and protecting local food production than is does with raising global levels of farming output.”
FAO. 2009. Second report on the state of the world’s plant genetic resources for food and agriculture.
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Cultivating broccoli in Monterey County, CA
Assignment, Event 14:*
You are a congressional staff member and your representative has asked you to develop a short (<250-word) summary document that explains food security and sovereignty including energy capture and transfer issues. Use the information in this lecture but your summary should be written in your own words. No reference citations are needed. The representative will use your essay to answer questions from the press and constituents about these two issues. Take this into consideration as you write.
You may submit drafts of your essay for review and suggestions to their own D2L Preliminary Drafts Assignments folder no later than 48 hours before the final assignment is due.
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Quiz
Why do people who study food security and sovereignty pay attention to the “law of tens” within agricultural production systems?
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