because they eat other animals and run allot, and not like humans.
Omnivores, like humans, belong to more than one trophic level because they can consume both plants (primary producers) and animals (consumers). This allows them to obtain energy from different trophic levels in a food web.
In a forest ecosystem, there may be a pyramid of numbers where there are fewer producers, such as large trees, compared to numerous herbivores like insects and small mammals that rely on them for food. In this case, the large biomass of producers supports a greater number of consumers, leading to a situation where the number of individual producers is lower than that of consumers. This inverted pyramid shape can occur in ecosystems where primary producers are large and long-lived, resulting in fewer individuals despite their significant biomass.
The population of producers is greater than that of other trophic levels because they form the base of the food chain, converting sunlight into energy through photosynthesis. This process creates a large biomass that supports herbivores (primary consumers) and subsequent levels. Additionally, energy is lost at each trophic level due to metabolic processes, limiting the number of organisms that can be supported at higher levels. Consequently, a greater number of producers is necessary to sustain the entire ecosystem.
No, a pyramid of numbers represents the number of organisms at each trophic level in an ecosystem, with producers at the base and consumers above. It follows the 10% energy transfer rule, where energy is lost as it moves up the trophic levels, resulting in a smaller number of consumers than producers.
The pyramid of numbers cannot be inverted, as it represents the number of individual organisms at each trophic level in an ecosystem. Typically, there are more producers than primary consumers, and more primary consumers than secondary consumers, maintaining a broad base. In contrast, pyramids of biomass and energy can sometimes be inverted in certain ecosystems, such as in cases where a small number of large producers support a larger number of consumers.
Omnivores, like humans, belong to more than one trophic level because they can consume both plants (primary producers) and animals (consumers). This allows them to obtain energy from different trophic levels in a food web.
LESS
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.
They do have large jaws cause they're bigger than humans.
:) The 1st trophic level has more energy. The first trophic level consists of producers(plants and algae). They has more energy because they create their own food (photosynthesis). Hope this answer helps :)
Humans
Trees are very large compared to the organisms they support, such as insects, birds and rodents. A single tree has much more biomass than the consumers depending upon it, meaning it is still the base of biomass pyramids and pyramids of energy. Therefore even if they are fewer in number trees still occupy the producer level of the trophic pyramid
How big humans are have nothing to do with it.
Husky dogs or other large dogs
why are the producers having greter biomas than the consumers
The population of producers is greater than that of other trophic levels because they form the base of the food chain, converting sunlight into energy through photosynthesis. This process creates a large biomass that supports herbivores (primary consumers) and subsequent levels. Additionally, energy is lost at each trophic level due to metabolic processes, limiting the number of organisms that can be supported at higher levels. Consequently, a greater number of producers is necessary to sustain the entire ecosystem.
No, a pyramid of numbers represents the number of organisms at each trophic level in an ecosystem, with producers at the base and consumers above. It follows the 10% energy transfer rule, where energy is lost as it moves up the trophic levels, resulting in a smaller number of consumers than producers.