Sustainability Resources

Aquaponics Info

What is Aquaponics?

Aquaponics is a sustainable food production system that combines a traditional aquaculture (raising aquatic animals such as fish, crayfish or prawns in tanks) with hydroponics (cultivating plants in water) in a symbiotic environment.

In an aquaponics system, water is pumped up from the fish tank into the gravel-filled grow bed. The water trickles down through the gravel, past the roots of the plants before draining back into the fish tank. The plants extract the water and nutrients they need to grow, cleaning the water for the fish. There are bacteria that live on the surface of the gravel. This bacteria converts ammonia wastes from the fish into nitrates that can be used by the plants. This ammonia waste being converted into nitrates is often termed “the nitrogen cycle”.

Grow beds filled with a media such as gravel or expanded clay pebbles is a common method of growing plants in an aquaponic system. Plants can be grown in floating foam rafts that sit on the water surface. Vegetables can also be grown using a “run to waste” style of growing. This is done by removing a percentage of the fish water each day and watering vegetables planted in different media such as coir peat, vermiculite, perlite, etc. Many different species of freshwater fish can be grown in aquaponic systems such as sunfish and talapia.

High densities of fish can be grown in aquaponic systems, and because of the recirculating nature of the systems very little water is used. Research has shown that an aquaponic system uses about 1/10th of the water used to grow vegetables in the ground. Aquaponics can be as simple or as complex as one would like to make it.

Why Teach Aquaponics and Renewable Energy Technologies at Kahuku?

There is only a 4-5 day food supply in the State of Hawaii for a population of over 1 million people since only 5% of the food is grown locally. How will Hawaii residents cope if something prevents food supplies from reaching the islands? Most residents do not have a 3 day food supply nor do they have a vegetable garden in their backyard. Imagine a disaster worse than Katrina affecting Hawaii. It took almost a week for the federal government to respond to Louisiana, even though the state is connected to the mainland, whereas Hawaii is over 2 thousand miles away in the middle of the ocean. Over 1 million people and livestock need food and water everyday.

During the past few decades, children have grown accustomed to watching their parents purchase inexpensive imported food from local grocery stores or big box warehouses. Many parents purchase fast food everyday because of its low cost and convenience. Because of the time, high cost and lack of land available to farmers, many people have given up on the idea of growing their own food. Our grandparents who lived during the depression know better however, and have dutifully kept food stocks in their basements or cellars (canned fruits, store wheat and bottled water).

Our current food situation in Hawaii and the US mainland is both perilous and unhealthy. Almost 40% of Americans are considered overweight because they have switched from eating organic vegetable and fruits to calorie-packed fast foods and sugary beverages which lead to preventable diseases such as diabetes.

Ancient Hawaiians were once the masters of sustainability. When Captain Cook of the mighty British Empire arrived in Hawaii over 200 years ago, he described the natives as the healthiest people he had ever seen in his life. Hawaiians were the masters in the world in creating ahupua’a that sustained a population of over a million people using taro fields, fish ponds, water terraces, etc. The rank and power of a chief in Hawaiian society was based on how well he sustained one’s community with food and water. After western civilization killed off over 95% of Hawaiians with western diseases, many of Hawaii’s advanced farming technologies were lost. Some early missionaries considered Hawaiian weathermen, who predicted rainfall for a community’s crops, to be witch doctors and were put to death.

Now that today’s Hawaii’s population, use of land and food sources have become unsustainable, it is important to look back in history to learn what the ancient Hawaiians did to be healthy and sustainable. Even Hawaii’s State Motto affirms the importance of sustainability. “Ua Mau Ke Ea o Ka Aina i Ka Pono,” The Life of the Land is Perpetuated in Righteousness. Ancient Hawaiians used aquaponics (fish ponds and lo’i fields) on a large scale to keep their large population.

A modern aquaponic system can also be incredibly productive. An aquaponics system can produce 100 pounds of fish, and hundreds of pounds of vegetables within 6 months in an area about the size of an average carport. This is a system that requires no bending, no weeding, no fertilizers, and only uses about the same power it takes to run a couple of light bulbs to power small electric pumps.

Who Should be Involved?

In this type of living model of learning, the older student learn and then teach. The teachers and mentors also learn while creating the learning environment. People of all ages, backgrounds and levels of education can be involved in aquaponics. The symbolism of how plants and fish can help each other can also be applied in how human can develop positive long term relationships in mutually beneficial give and take agreement to fill each other’s needs. Our young students need to see a food sustainability model that differs from our present situation which requires plastic packaging for transporting food that turns into waste that needlessly fills our landfills and oceans.

For example, a kupuna teaches keiki about learning from the past to avoid mistakes and to provide a better future. A keikigives back to kupuna by fulfilling their directions. The success of a community depends on the level of support its members have for its education, its quality of leadership and how they find ways to protect our health and the environment to improve our quality of life.

We would like the aquaponics project to be expanded to the entire community so that everyone can see that communities can also visualize the importance of its beneficial symbiotic relationships in action.

Where?

Our goal is to create at least 2-3 student learning aquaponics projects for 3 different
target groups. First for high school aged youth, we have approval to build a functioning unit at Kahuku High School, behind the shop class Z3. Our second project would be built at Na Kama Lei for the preschool children with Kahuku students as the mentors. If we have the resources we would like to have the best Kahuku students lead the construction of a project either at Kahuku Elementary School or a project could be for the Native local youth in Kahana Bay under the supervision of the aquaculture and lo’i specialist and kupuna Ben Shaffer.

How?

Using a hands-on approach to creative, fun, active learning. Plants, water, fish and the environment become teachers.

Dr. Sands Learning Approach:
Step 1: Learn one: The student group would be given a camera and a list of learning resources including, visiting existing models. Their job would be to work as journalist to research the story, to interview both Kupuna who build the models and professors in the universities who write the books.
Step 2: Do one: The mentors such as myself and Dr. Sand would provide a budget and choices for the student group for purchasing the materials need to build, seed, stock and maintain the living cycles. The students would film their learning process and film a documentary of the stages. This footage becomes part of the student curriculum.
Step 3. Teach one: The students are asked to write down the process and these notes become the script for the student film. By the time the garden is working and the student film is complete the students have become capable of teaching the next students. In becoming the teacher as an end goal, the students learn not for passing a multiple choice test, but instead they learn with focused responsibility, with a sense of leadership and the energy that comes from self-directed creativity.

Bonus outcome:
The results from a successful aquaponics project is food, a sustainable ongoing supply. Add organic toppings such as organic onions, tomatoes, peppers, herbs for pizzas; fish tacos. Who doesn’t like to eat fresh organic food?

When?

We would like to begin constructing an aquaponics system by the end of June 2011 and have aquaponics curriculum developed by students by July 2011. All of the aquaponics equipment is all available on Oahu, which will save time and avoids shipping charges and packaging materials. While it can take a few weeks to create the living cycle of a professionally installed system, each student directed system would take 4-6 weeks.

Content Area: Career and Technical Education

Grade/Course: 9-12

ACCN: No ACCN

Standard 1: TECHNOLOGICAL DESIGN: Design, modify, and apply technology to effectively and efficiently solve problems

TOPIC:

BENCHMARK CTE.9-12.1: No benchmark at this level

SAMPLE PERFORMANCE ASSESSMENT:

RUBRIC

Advanced:

Proficient:

Partially Proficient:

Novice:

Standard 2: CAREER PLANNING: Explore and understand educational and career options in order to develop and implement personal, educational, and career goals

TOPIC: Career Goals and Options

BENCHMARK CTE.9-12.2.1: Analyze annual individual education and career goals

SAMPLE PERFORMANCE ASSESSMENT: The student: Evaluates and updates earlier education and career goals (e.g., determines whether they are achievable; incorporates a timeline; identifies career pathway requirements and resources required to pursue the career; conducts an annual evaluation of educational and career goals; revises plan as appropriate).

RUBRIC

Advanced: Analyze, in great detail, annual individual education and career goals

Proficient: Analyze, in detail, annual individual education and career goals

Partially Proficient: Analyze, in some detail, annual individual education and career goals

Novice: Analyze, in minimal detail, annual individual education and career goals

TOPIC: Career Goals and Options

BENCHMARK CTE.9-12.2.2: Evaluate potential career choices in relation to personal interests, strengths, and values

SAMPLE PERFORMANCE ASSESSMENT: The student: Applies a decision-making model to compare a list of potential career choices to personal interests, strengths, and values (e.g., uses career assessment information; engages in job shadowing, volunteer opportunities, apprenticeships, internships, mentorships).

RUBRIC

Advanced: Evaluate, in great detail, potential career choices in relation to personal interests, strengths, and values

Proficient: Evaluate, in detail, potential career choices in relation to personal interests, strengths, and values

Partially Proficient: Evaluate, in some detail, potential career choices in relation to personal interests, strengths, and values

Novice: Evaluate, in minimal detail, potential career choices in relation to personal interests, strengths, and values

TOPIC: Workplace Behaviors

BENCHMARK CTE.9-12.2.3: Apply appropriate and safe behaviors and practices in the school, community, and workplace

SAMPLE PERFORMANCE ASSESSMENT: The student: Demonstrates safe behaviors and practices appropriate for the school, community, and workplace (e.g., reliability, punctuality, regular attendance, task completion, meeting deadlines, adaptability, politeness, honesty, taking responsibility for actions, working cooperatively, adhering to safety guidelines and procedures, maintaining appropriate appearance and hygiene for the workplace).

RUBRIC

Advanced: Consistently apply appropriate and safe behaviors and practices in the school, community, and workplace

Proficient: Usually apply appropriate and safe behaviors and practices in the school, community, and workplace

Partially Proficient: Sometimes apply appropriate and safe behaviors and practices in the school, community, and workplace

Novice: Rarely apply appropriate and safe behaviors and practices in the school, community, and workplace

TOPIC: Career Portfolio Development

BENCHMARK CTE.9-12.2.4: Assess career portfolio that documents evidence of progress toward the attainment of personal, educational, and career goals

SAMPLE PERFORMANCE ASSESSMENT: The student: Evaluates and modifies career portfolio, written plan, CD, or website to update earlier education and career plans and includes goal statements, actions, and experiences (e.g. volunteer work, education, resume(s), references, work samples, certificates or awards, records of attendance, transcripts).

RUBRIC

Advanced: Assess, in great detail, career portfolio that documents evidence of progress toward the attainment of personal, educational, and career goals

Proficient: Assess, in detail, career portfolio that documents evidence of progress toward the attainment of personal, educational, and career goals

Partially Proficient: Assess, in some detail, career portfolio that documents evidence of progress toward the attainment of personal, educational, and career goals

Novice: Assess, in minimal detail, career portfolio that documents evidence of progress toward the attainment of personal, educational, and career goals

TOPIC: Job Search Resources

BENCHMARK CTE.9-12.2.5: Analyze the demographic, geographic, and technological trends that affect work opportunities

SAMPLE PERFORMANCE ASSESSMENT: The student: Assesses demographic, geographic, and technological trends and explains how they may affect opportunities in a chosen career.

RUBRIC

Advanced: Analyze, in great detail, the demographic, geographic, and technological trends that affect work opportunities

Proficient: Analyze, in detail, the demographic, geographic, and technological trends that affect work opportunities

Partially Proficient: Analyze, in some detail, the demographic, geographic, and technological trends that affect work opportunities

Novice: Analyze, in minimal detail, the demographic, geographic, and technological trends that affect work opportunities

TOPIC: Job Application Process

BENCHMARK CTE.9-12.2.6: Gather and prepare documents related to job-seeking

SAMPLE PERFORMANCE ASSESSMENT: The student: Prepares resume, letters of application or inquiry, and fills out job applications.

RUBRIC

Advanced: Gather and prepare documents related to job-seeking, with accuracy

Proficient: Gather and prepare documents related to job-seeking, with no significant errors

Partially Proficient: Gather and prepare documents related to job-seeking, with a few significant errors

Novice: Gather and prepare documents related to job-seeking, with many significant errors

TOPIC: Job Application Process

BENCHMARK CTE.9-12.2.7: Prepare for the job interview process

SAMPLE PERFORMANCE ASSESSMENT : The student: Engages in necessary steps to prepare for the job interview process (e.g., prepares for employment tests, knows questions interviewers can and cannot ask, role plays a job interview).

RUBRIC

Advanced: Prepare for the job interview process, with completeness and accuracy

Proficient: Prepare for the job interview process, with no significant errors

Partially Proficient: Prepare for the job interview process, with a few significant errors

Novice: Prepare for the job interview process, with many significant errors

TOPIC: Job Benefits

BENCHMARK CTE.9-12.2.8: Assess the compensation, lifestyle, and other benefits associated with careers of interest

SAMPLE PERFORMANCE ASSESSMENT : The student: Evaluates the job benefits associated with careers of interest (e.g., salaries, working conditions, lifestyle, health coverage, retirement, professional development, vacation).

RUBRIC

Advanced: Assess, in great detail, the compensation, lifestyle, and other benefits associated with careers of interest

Proficient: Assess, in detail, the compensation, lifestyle, and other benefits associated with careers of interest

Partially Proficient: Assess, in some detail, the compensation, lifestyle, and other benefits associated with careers of interest

Novice: Assess, in minimal detail, the compensation, lifestyle, and other benefits associated with careers of interest

ALOHA: The Aloha Spirit at Work!

Seed Planted -> Fruit of Seed -> Harvest
Forgiveness > Unity -> Joy
Patience > Order > Peace
Humility > Acceptance > Security
Respect > Admiration > Friendship
Honesty > Trust > Confidence
Responsibility > Maturity > Self-Control
Commitment > Perseverance > Strength
Discipline > Character > Success

MISERY

Seed Planted -> Fruit of Seed -> Harvest
Unforgiveness > Disunity -> Bitterness
Impatience > Disorder > Confusion
Disrespect > Enemies > Loneliness
Dishonor > Rejection > Anger
Lies/Deceit > Distrust > Suspicion
Irresponsibility > Immaturity > Recklessness
Uncommitted > Insecurity > Weak
Undisciplined > Disruption > Disorder

More positive quotes – use nature in photos

http://personalexcellence.co/blog/101-most-inspiring-quotes-of-all-time/#purpose

What is Aquaponics?

In an aquaponics system, water is pumped up from the fish tank into the gravel-filled grow bed. The water trickles down through the gravel, past the roots of the plants before draining back into the fish tank. The plants extract the water and nutrients they need to grow, cleaning the water for the fish. There are bacteria that live on the surface of the gravel. This bacteria converts ammonia wastes from the fish into nitrates that can be used by the plants. This ammonia waste being converted into nitrates is often termed “the nitrogen cycle”.

Grow beds filled with a media such as gravel or expanded clay pebbles is a common method of growing plants in an aquaponic system. Plants can be grown in floating foam rafts that sit on the water surface. Vegetables can also be grown using a “run to waste” style of growing. This is done by removing a percentage of the fish water each day and watering vegetables planted in different media such as coir peat, vermiculite, perlite, etc. Many different species of freshwater fish can be grown in aquaponic systems such as sunfish and talapia.

High densities of fish can be grown in aquaponic systems, and because of the recirculating nature of the systems very little water is used. Research has shown that an aquaponic system uses about 1/10th of the water used to grow vegetables in the ground. Aquaponics can be as simple or as complex as one would like to make it.

Why Teach Aquaponics and Renewable Energy Technologies at Kahuku?

During the past few decades, children have grown accustomed to watching their parents purchase inexpensive imported food from local grocery stores or big box warehouses. Many parents purchase fast food everyday because of its low cost and convenience. Because of the time, high cost and lack of land available to farmers, many people have given up on the idea of growing their own food. Our grandparents who lived during the depression know better however, and have dutifully kept food stocks in their basements or cellars (canned fruits, store wheat and bottled water).

Our current food situation in Hawaii and the US mainland is both perilous and unhealthy. Almost 40% of Americans are considered overweight because they have switched from eating organic vegetable and fruits to calorie-packed fast foods and sugary beverages which lead to preventable diseases such as diabetes.

Ancient Hawaiians were once the masters of sustainability. When Captain Cook of the mighty British Empire arrived in Hawaii over 200 years ago, he described the natives as the healthiest people he had ever seen in his life. Hawaiians were the masters in the world in creating ahupua’a that sustained a population of over a million people using taro fields, fish ponds, water terraces, etc. The rank and power of a chief in Hawaiian society was based on how well he sustained one’s community with food and water. After western civilization killed off over 95% of Hawaiians with western diseases, many of Hawaii’s advanced farming technologies were lost. Some early missionaries considered Hawaiian weathermen, who predicted rainfall for a community’s crops, to be witch doctors and were put to death.

Now that today’s Hawaii’s population, use of land and food sources have become unsustainable, it is important to look back in history to learn what the ancient Hawaiians did to be healthy and sustainable. Even Hawaii’s State Motto affirms the importance of sustainability. “Ua Mau Ke Ea o Ka Aina i Ka Pono,” The Life of the Land is Perpetuated in Righteousness. Ancient Hawaiians used aquaponics (fish ponds and lo’i fields) on a large scale to keep their large population.

A modern aquaponic system can also be incredibly productive. An aquaponics system can produce 100 pounds of fish, and hundreds of pounds of vegetables within 6 months in an area about the size of an average carport. This is a system that requires no bending, no weeding, no fertilizers, and only uses about the same power it takes to run a couple of light bulbs to power small electric pumps.

Who Should be Involved?

In this type of living model of learning, the older student learns and then teaches. The teachers and mentors also learn while creating the learning environment. People of all ages, backgrounds and levels of education can be involved in aquaponics. The symbolism of how plants and fish can help each other can also be applied in how human can develop positive long term relationships in mutually beneficial give and take agreement to fill each other’s needs. Our young students need to see a food sustainability model that differs from our present situation which requires plastic packaging for transporting food that turns into waste that needlessly fills our landfills and oceans.

For example, a kupuna teaches keiki about learning from the past to avoid mistakes and to provide a better future. A keikigives back to kupuna by fulfilling their directions. The success of a community depends on the level of support its members have for its education, its quality of leadership and how they find ways to protect our health and the environment to improve our quality of life.

We would like the aquaponics project to be expanded to the entire community so that everyone can see that communities can also visualize the importance of its beneficial symbiotic relationships in action.

Where?

Our goal is to create at least 100 student learning aquaponics projects for 3 different target groups. First for high school aged youth, we have approval to build a functioning unit at Kahuku High School, behind the shop class Z3. Our second project would be built at Na Kama Lei for the preschool children with Kahuku students as the mentors. If we have the resources we would like to have the best Kahuku students lead the construction of a project either at Kahuku Elementary School.

How?

Using a hands-on approach to creative, fun, active learning. Plants, water, fish and the environment become teachers.

Dr. Sands Learning Approach:

Step 1: Learn one: The student group would be given a camera and a list of learning resources including, visiting existing models. Their job would be to work as journalist to research the story, to interview both Kupuna who build the models and professors in the universities who write the books.

Step 2: Do one: The mentors such as myself and Dr. Sand would provide a budget and choices for the student group for purchasing the materials need to build, seed, stock and maintain the living cycles. The students would film their learning process and film a documentary of the stages. This footage becomes part of the student curriculum.

Step 3. Teach one: The students are asked to write down the process and these notes become the script for the student film. By the time the garden is working and the student film is complete the students have become capable of teaching the next students. In becoming the teacher as an end goal, the students learn not for passing a multiple choice test, but instead they learn with focused responsibility, with a sense of leadership and the energy that comes from self-directed creativity.

Bonus outcome:

The results from a successful aquaponics project is food, a sustainable ongoing supply. Add organic toppings such as organic onions, tomatoes, peppers, herbs for pizzas; fish tacos. Who doesn’t like to eat fresh organic food?

When?

We would like to begin constructing an aquaponics system by the end of June 2011 and have aquaponics curriculum developed by students by July 2011. All of the aquaponics equipment are all available on Oahu, which will save time and avoids shipping charges and packaging materials. While it can take a few weeks to create the living cycle of a professionally installed system, each student directed system would take 4-6 weeks.

Aquaponics: Revolutionizing Elementary School Lunches

Kiana Wilson

Childhood obesity is a growing problem in the United States. According to the Centers for Disease Control and Prevention, childhood obesity has more than tripled in the past 30 years and that approximately 17% (12.5 million) of children and adolescents are obese. Elementary school cafeteria factors influence negative eating behaviors for elementary students. A study from the Journal of Human Resources concluded that school lunches are increasing the risk of childhood obesity. According to the same study those who ate school lunches regularly were 29% more likely to be obese compared to their peers who brought home lunch (Readers Digest). Aquaponics, a sustainable system that produces healthy, organic food, would be a positive investment for all elementary schools in America because the scalable systems are cost-efficient and promote a well balanced diet. The current foods served by elementary school cafeteria are adversely affecting children’s health and contributing to many childhood diseases. This paper will provide evidence for this linkage of cafeteria food and childhood obesity, diseases associated with unhealthy lifestyles and explore possible solutions in connection to aquaponics.

Food served in elementary cafeterias contribute to childhood obesity as the food lacks in nutritional value and good quality. For instance, according to a CNN report, the number 1 meal served to children in U.S. schools is chicken fingers and French fries (2). Because the National School Lunch Program is grossly under-funded, most schools fail to meet regulatory standards and specific benchmarks. Schools cannot afford to buy local, organic produce (2) Thus, implementing an aquaponics system, in which the system is completely independent and renewable will prove cost-effective and most importantly, nutritious. Aquaponics is the hydroponic production of plants and the aquaculture production of fish in a controlled system that uses natural cycles to supply nitrogen and reusable water (Christensen 1). Cafeteria foods may also encourage unhealthy lifestyles because some lunchrooms across the country are supplying students with fast-food items like Chick-Fil-A sandwiches, slices from Pizza Hut, and Panda Express rice bowls (Education). In contrast, in an aquaponic system, tilapia and yellow perch are raised in large tanks of water as well as fresh, organic vegetables, fruits, spices and herbs. To compare food served in cafeterias and foods produced in an aquaponic system, aquaponic foods can provide a full meal, vegetables and protein, without any input (Visscher 355) The vegetables contain much more vitamins and nutrients as they intake the waste from the fish and use it as fertilizer. The concept of food security is defined by the Food and Agriculture Organization of the United Nations (FAO) in the following way: “Food security exists when all people, at all times, have physical, social and economic access to sufficient, safe and nutritious food which meets their dietary needs and food preferences for an active and healthy life. Household food security is the application of this concept to the family level, with individuals within households as the focus of concern.”(Christensen 1) There is a strong linkage between the food children eat at school and the state of their health.
Secondly, there are numerous diseases, many of them preventable, associated with obesity and being overweight. Some diseases include cardiovascular disease, type 2 diabetes mellitus, cancer, osetoarthirisis, atherosclerosis, work disability and sleep apnea (Neumark-Sztainer 929). Meals with fast-food characteristics are the cause of the increasing prevalence of obesity in society today. Foods that are served in large portions with a high energy density, and sugar-rich soft drink contain high dietary fat content and more calories of fat. High intake of trans fats lead to abdominal obesity and weight gain. There are many diseases linked to having an unhealthy lifestyle and being obese. To understand the science of obesity we must understand the metabolic processes that the body undergoes. When there is a lack of exercise, the chemical process of maintaining our body also become less efficient and our body thus becomes less efficient at processing calories. (Neumark-Sztainer 929) Genetics is also linked to obesity as genes are passed down from one generation to another to influence traits. Thus, it is likely that one may be predisposed to being overweight and develop a specific disease. Fat cells produce a hormone, leptin, which control the appetite and functions to tell the brain that the body is full and finished eating. Overweight individuals have higher levels of leptin that the average person and thus the messages sent by the hormone leptin never reach the brain and usually get lost in the process (Stice 660). These factors can lead to fatal diseases like Diabetes, high blood pressure, heart disease, high cholesterol, stroke, arthritis, cancer, etc. For example, one can develop type 2 diabetes from over eating and indulging and foods with high sugars. Glucose is an type of sugar and when one intakes too much sugar it can trigger insulin resistance (Astrup 40). A diet high in saturated fats and sugar can also lead to heart disease in which the heart is incapable of pumping correctly and the arteries are narrowed. Heart disease is responsible for 40% of deaths in the United States alone and is mostly due to obesity (World Health Organization).

Thus, I propose a solution that elementary schools use aquaponics systems on their property since it would provide fresh organic food such as salads, in place of their frozen, processed food. Students would be able to learn that by eating healthy food they can prevent disease and promote a foundation for a healthy lifestyle. Growing organic food with aquaponics could also help inmates in prisons and patients in mental hospitals help improve their health with both nutritious meals and taking responsibilities to care for plants and fish. This could help cut down the tension and provide inmates and patients a career opportunity after they have been released.

References:

Astrup, A., Dyerberg, J., Selleck, M. and Stender, S. (2008), Nutrition transition and its

relationship to the development of obesity and related chronic diseases. Obesity Reviews, 9: 48–52. doi: 10.1111/j.1467-789X.2007.00438.x

Reader's Digest. "Can School Lunches Cause Obesity? | Reader's Digest." Health Tips,

Food and Recipes, Funny Jokes and Cartoons, and Sweepstakes | Reader’s Digest. Web. 16 Nov. 2011. .

"Why School Cafeterias Are Dishing Out Fast Food | Education.com." Education.com

An Education & Child Development Site for Parents | Parenting & Educational Resource. Web. 16 Nov. 2011. .

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