there will be an increase in total and market supply, therefore allowing a greater choice to the consumer; that is - you will a greater range of products to choose from! :)
There are a lot fewer secondary consumers than there are producers.
increases the number of consumers
The Short Answer is: in a balanced, eco-friendly Ecosystem there is an equal number of producers as there exist consumers.
This is impossible, because the producers are all plants and 'suddenly' does not happen when you are talking evolution. Hypothetically, the population would decrease relative to the number of producers that became consumers. By switching sides they would increase the number of consumers and decrease the number of producers, meaning there was not enough food to go around and many consumers would starve.
A trophic level is the level an organism can be in in a food pyramid. Producers, Primary consumers, Secondary consumers and Tertiary consumers are all different trophic levels, from 1, 2, 3, and 4, respectively.
The number of primary consumer will increase and it will eat producers which utlimately leads to distruction of all live forms on the earth
If the producers happen to be large trees, they can be small in number but still have a large biomass, therefore allowing them to support a community of more consumers.
In this situation, the population with the greatest number will be the producers.
There are a lot fewer secondary consumers than there are producers.
increases the number of consumers
More producers than primary consumers
They increase
producers has the highest number and they are called autotrophs because they make their own food then the consumers are next which are called heterotrophs because they depend on other organism for food and the decomposers are on the top of the pyramid of numbers
The Short Answer is: in a balanced, eco-friendly Ecosystem there is an equal number of producers as there exist consumers.
In an ecosystem, the population with the greatest number of members will be the producers. The consumers' population reduces with the trophic levels.
increase
Increase