Plants make food during photosynthesis; they are called primary producers or autotrophs. Animals eat
the food. They are known as consumers or heterotrophs.
1. What does the suffix “troph” mean?
The suffix "troph" means to nourish.
2. What do you think a trophic level is?
I think that the trophic level is a type of animal placed in a certain level on the pyramid.
3. How about food chains, food webs? Compare and contrast those terms you learned in biology.
A food chain is a single path throughout the an animal chain, and a food web shows the different connections between different animal groups.
4. Quickly sketch a food chain using organisms that might be found on our school grounds.
a. What do you have to do to turn it into a food web? Do so.
5. Look at the following diagrams called Energy Pyramids.
a. What do they all have in common?
These are all food webs.
b. How are they different from one another?
They all have different producers, predators and changes the flow of energy.
6. Why are there are more organisms at the base and less organisms as you travel up the pyramid?
There are less organisms at the bottom of the food web because the ten percent rule and the idea that you lose 90% of energy for each level of the pyramid.
a. Any idea what an energy pyramid shows?
How the energy travels throughout the food web from consumers to producers.
7. Two of the pyramids have numbers. Do you see a pattern in the numbers?
The pattern given in these two pyramids show the 10 percent rule and how it applies to all levels in the food web.
a. What might the numbers mean?
The numbers mean the difference in levels of the food web. The lowest level of the food web has the most amount of living organisms.
Read the following description from Earth Force:
http://www.earthforce.org/content/article/detail/1284
Energy pyramids, otherwise known as trophic level diagrams, are used to represent the flow of
energy through an ecosytem. An organism’s trophic level indicates the organism’s position in
the sequence of energy transfers.
There are two apparent trends represented in an energy pyramid. First, there are enormous
numbers and masses of individual animals or plants at the bottom and the numbers decrease as
you reach the top. Secondly, the sizes and energy needs of the individual organisms generally
increase as you reach higher levels.
The bottom, or base, of an energy pyramid is a position always held by the producers and
represents (by far) the largest percentage of biomass for the food web. The need for such a
large biomass of producers is to support the energy needs for all the organisms at higher
trophic levels.
In the illustration above, the osprey is positioned at the highest trophic level. Therefore, for
the energy transformations represented by the pyramid, the osprey is the organism with the
greatest energy needs and relies on all of the transactions from producers to consumers to have
enough energy left over to fill its own energy needs.
It should be acknowledged that ecosystems are very complex and any food chain, food web or
energy pyramid simply illustrates the general idea. It would be practically impossible to
illustrate all the possible ways that animals interact and all the possible ways that energy
moves throughout an ecosystem.
Next, now that you’ve thought about food chains, energy pyramids and so
on, let’s do some problem solving. As you do these, think about the
benefits and drawbacks of eating at lower trophic levels. First, for some
background, read about soybeans from the… http://www.iasoybeans.com/index.html
Small Bean, Big Dreams
“Small bean, big dreams” is a fitting motto for the versatile soybean plant. Known as the
“Cadillac” of protein sources, soybeans nourish the people and animals of the world.
Soybeans also help us reduce reliance on petroleum through hundreds of renewable product
innovations that enhance our everyday lives. All this from a bean so small that it takes around
150,000 soybeans to fill one bushel. Good things do come in small packages!
Soybeans have a rich history from their creation in China 5,000 years ago. In our country, they
started from humble beginnings, serving as ballast for Chinese ships coming to America.
Making their U.S. agricultural debut in 1829 for soy sauce, inventors like George Washington
Carver and Henry Ford embraced soybeans for plastics, printing inks and a range of industrial
uses.
Dreams Become Reality Between 1945 and 1985 the annual soybean harvest increased
eleven-fold. Today, America grows around three billion bushels of soybeans and accounts for
more than one-third of the world's soybean crop. It represents a $16 billion crop that
strengthens our country’s balance of trade while providing a domino effect of job growth and
prosperity.
The dreams of our early architects of innovation are reality today. For example, soybeans can
be grown in space. Their compact nutrition and flavor variety is key to our astronauts. This
small bean continues to dream and achieve – enabling soy to change our world.
At 55 grams of protein per day, one acre of soybeans can meet a person’s dietary protein
needs for 8,400 days
Okay now for the problem... Its 2017. You’re the owner of a soybean farm. You
also raise guinea hens for food and insect control. The hens will eat grasshoppers
and other insect pests, including ticks. This is good. Biological control of your
pests will save you money on chemical pesticides. The hens also act as watchdogs
squawking a lot when intruders approach. You allow the hens to free range during
the day in your fields and but at night, you provide roosts for them to keep them
safe.
Use the following for your calculations. Show all work with units.
• You can live on 1 hen/day for a year
• 1 hen eats 25 grasshoppers/day (25 gh/day)
• 1000 gh have a mass of 1 kg
• 1 gh requires about 30g soy/yr
• 1 human requires about 600 gh/day
• Dry soybeans have provide about 3.3 cal/g
1. Calculate the number of gh a hen needs to eat per year.
25 x 365 = 9125 gh/yr
2. How many gh are needed for a year’s supply of hens for you, the farmer?
9125 x 365 = 3330625 gh/yr
3. What is the total mass in kg, of the gh needed to feed all the hens for one year?
3330625 / 1000 = 3330.625 kg/yr
4. How many kg of soybeans are needed to feed all the gh for one year?
3330625 x 0.03 = 99918.75 kg/yr
5. Sources tell us that Native American Indians ate gh. So you can too! These early Americans could collect about 90 kg of gh per hour, when they were abundant. How many people could the gh feed, compared to the one person that the hen fed? (Perhaps you could dip the gh in chocolate.)
- 90 x 1000 = 90,000gh
- 90,000 / 600 = 150 people
6. You need to consume 3000 calories/day. If you ate only soybeans how many grams of soybeans
would you have to eat per day for calories alone?
3000 / 3.3 = 909 soy beans
7. Cows produce about 19 kg protein/acre/year and soy produces 200 kg of protein/acre/year.
a. Which is more efficient to eat? Why?
Soy beans are more efficient to eat because they provide more protein for more people in a year.
b. Have you ever eaten a soy burger (veggie burger)? Why or why not?
I have eaten a veggie burger before, because I was curious to try it out.
8. In theory, the earth could support many more people if we ate at a lower trophic level.
a. List 2 benefits of doing this.
b. List 2 drawbacks of eating lower on the food chain.
c. What are some benefits of being a vegetarian?
d. What are some drawbacks?
9. And then there are fish to eat! Large predatory fish usually are found at the 3rd or 4th trophic level of an energy pyramid. What does this mean in terms of energy loss?
In terms of numbers the total energy loss on the third level would 90% to the power of three being 72.9%.
10. Large predatory animals can also be problematic to eat because of bioaccumulation and biomagnification of toxins such as lead or mercury in their habitats. What do those two words mean and why should this be considered when discussing food chains and trophic levels?
- bioaccumulation: The accumulation of a substance in a living organism.
- biomagnification: Increase of a substance that occurs in food chain.
This should be considered because of the toxins we have introduced in our systems. This toxin cause also harm the food chain by altering it when the next organism consumes this toxin.
11. Do you think about the food you eat? Why or why not?
I like to think about what I eat and how the food is my plate, but once it's there no reason to think more, or it would be waste. Sometimes it's hard to get the idea across your brain especially when its the only thing left.
the food. They are known as consumers or heterotrophs.
1. What does the suffix “troph” mean?
The suffix "troph" means to nourish.
2. What do you think a trophic level is?
I think that the trophic level is a type of animal placed in a certain level on the pyramid.
3. How about food chains, food webs? Compare and contrast those terms you learned in biology.
A food chain is a single path throughout the an animal chain, and a food web shows the different connections between different animal groups.
4. Quickly sketch a food chain using organisms that might be found on our school grounds.
a. What do you have to do to turn it into a food web? Do so.
5. Look at the following diagrams called Energy Pyramids.
a. What do they all have in common?
These are all food webs.
b. How are they different from one another?
They all have different producers, predators and changes the flow of energy.
6. Why are there are more organisms at the base and less organisms as you travel up the pyramid?
There are less organisms at the bottom of the food web because the ten percent rule and the idea that you lose 90% of energy for each level of the pyramid.
a. Any idea what an energy pyramid shows?
How the energy travels throughout the food web from consumers to producers.
7. Two of the pyramids have numbers. Do you see a pattern in the numbers?
The pattern given in these two pyramids show the 10 percent rule and how it applies to all levels in the food web.
a. What might the numbers mean?
The numbers mean the difference in levels of the food web. The lowest level of the food web has the most amount of living organisms.
Read the following description from Earth Force:
http://www.earthforce.org/content/article/detail/1284
Energy pyramids, otherwise known as trophic level diagrams, are used to represent the flow of
energy through an ecosytem. An organism’s trophic level indicates the organism’s position in
the sequence of energy transfers.
There are two apparent trends represented in an energy pyramid. First, there are enormous
numbers and masses of individual animals or plants at the bottom and the numbers decrease as
you reach the top. Secondly, the sizes and energy needs of the individual organisms generally
increase as you reach higher levels.
The bottom, or base, of an energy pyramid is a position always held by the producers and
represents (by far) the largest percentage of biomass for the food web. The need for such a
large biomass of producers is to support the energy needs for all the organisms at higher
trophic levels.
In the illustration above, the osprey is positioned at the highest trophic level. Therefore, for
the energy transformations represented by the pyramid, the osprey is the organism with the
greatest energy needs and relies on all of the transactions from producers to consumers to have
enough energy left over to fill its own energy needs.
It should be acknowledged that ecosystems are very complex and any food chain, food web or
energy pyramid simply illustrates the general idea. It would be practically impossible to
illustrate all the possible ways that animals interact and all the possible ways that energy
moves throughout an ecosystem.
Next, now that you’ve thought about food chains, energy pyramids and so
on, let’s do some problem solving. As you do these, think about the
benefits and drawbacks of eating at lower trophic levels. First, for some
background, read about soybeans from the… http://www.iasoybeans.com/index.html
Small Bean, Big Dreams
“Small bean, big dreams” is a fitting motto for the versatile soybean plant. Known as the
“Cadillac” of protein sources, soybeans nourish the people and animals of the world.
Soybeans also help us reduce reliance on petroleum through hundreds of renewable product
innovations that enhance our everyday lives. All this from a bean so small that it takes around
150,000 soybeans to fill one bushel. Good things do come in small packages!
Soybeans have a rich history from their creation in China 5,000 years ago. In our country, they
started from humble beginnings, serving as ballast for Chinese ships coming to America.
Making their U.S. agricultural debut in 1829 for soy sauce, inventors like George Washington
Carver and Henry Ford embraced soybeans for plastics, printing inks and a range of industrial
uses.
Dreams Become Reality Between 1945 and 1985 the annual soybean harvest increased
eleven-fold. Today, America grows around three billion bushels of soybeans and accounts for
more than one-third of the world's soybean crop. It represents a $16 billion crop that
strengthens our country’s balance of trade while providing a domino effect of job growth and
prosperity.
The dreams of our early architects of innovation are reality today. For example, soybeans can
be grown in space. Their compact nutrition and flavor variety is key to our astronauts. This
small bean continues to dream and achieve – enabling soy to change our world.
At 55 grams of protein per day, one acre of soybeans can meet a person’s dietary protein
needs for 8,400 days
Okay now for the problem... Its 2017. You’re the owner of a soybean farm. You
also raise guinea hens for food and insect control. The hens will eat grasshoppers
and other insect pests, including ticks. This is good. Biological control of your
pests will save you money on chemical pesticides. The hens also act as watchdogs
squawking a lot when intruders approach. You allow the hens to free range during
the day in your fields and but at night, you provide roosts for them to keep them
safe.
Use the following for your calculations. Show all work with units.
• You can live on 1 hen/day for a year
• 1 hen eats 25 grasshoppers/day (25 gh/day)
• 1000 gh have a mass of 1 kg
• 1 gh requires about 30g soy/yr
• 1 human requires about 600 gh/day
• Dry soybeans have provide about 3.3 cal/g
1. Calculate the number of gh a hen needs to eat per year.
25 x 365 = 9125 gh/yr
2. How many gh are needed for a year’s supply of hens for you, the farmer?
9125 x 365 = 3330625 gh/yr
3. What is the total mass in kg, of the gh needed to feed all the hens for one year?
3330625 / 1000 = 3330.625 kg/yr
4. How many kg of soybeans are needed to feed all the gh for one year?
3330625 x 0.03 = 99918.75 kg/yr
5. Sources tell us that Native American Indians ate gh. So you can too! These early Americans could collect about 90 kg of gh per hour, when they were abundant. How many people could the gh feed, compared to the one person that the hen fed? (Perhaps you could dip the gh in chocolate.)
- 90 x 1000 = 90,000gh
- 90,000 / 600 = 150 people
6. You need to consume 3000 calories/day. If you ate only soybeans how many grams of soybeans
would you have to eat per day for calories alone?
3000 / 3.3 = 909 soy beans
7. Cows produce about 19 kg protein/acre/year and soy produces 200 kg of protein/acre/year.
a. Which is more efficient to eat? Why?
Soy beans are more efficient to eat because they provide more protein for more people in a year.
b. Have you ever eaten a soy burger (veggie burger)? Why or why not?
I have eaten a veggie burger before, because I was curious to try it out.
8. In theory, the earth could support many more people if we ate at a lower trophic level.
a. List 2 benefits of doing this.
- Healthier food
- No ,ore time spent on raising cattle
b. List 2 drawbacks of eating lower on the food chain.
- Eating the same foods
- Cattle existing would die off
c. What are some benefits of being a vegetarian?
- Less animal consumption
- More energy being transferred
- Urban agriculture
d. What are some drawbacks?
- Some nutrients can be found meat products
- Considered a herbivore
- No more meat
9. And then there are fish to eat! Large predatory fish usually are found at the 3rd or 4th trophic level of an energy pyramid. What does this mean in terms of energy loss?
In terms of numbers the total energy loss on the third level would 90% to the power of three being 72.9%.
10. Large predatory animals can also be problematic to eat because of bioaccumulation and biomagnification of toxins such as lead or mercury in their habitats. What do those two words mean and why should this be considered when discussing food chains and trophic levels?
- bioaccumulation: The accumulation of a substance in a living organism.
- biomagnification: Increase of a substance that occurs in food chain.
This should be considered because of the toxins we have introduced in our systems. This toxin cause also harm the food chain by altering it when the next organism consumes this toxin.
11. Do you think about the food you eat? Why or why not?
I like to think about what I eat and how the food is my plate, but once it's there no reason to think more, or it would be waste. Sometimes it's hard to get the idea across your brain especially when its the only thing left.