Plants, insects, and pets :)
Producers consumers and decomposers .
Deer , squirrels , fishes and hawks
Tertiary consumers receive the least amount of energy from producers.
An ecosystem with running water, during the year the year is known as a Lotic ecosystem.
Small populations
water rock and grass
species
the organisms with the highest population are the producers and th least is the tertiary organisms.
Plants are in the lowest trophic level of an ecosystem. Their level is the lowest because the needs of plants are the least complex compared to the other organisms present in an ecosystem.
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ecosystem
Tertiary consumers receive the least amount of energy from producers.
Here are some examples: Buffalo, Prairie dogs, Red foxes, Prairie chickens, grasshoppers, crickets Elk, antelope, deer, Wolves, Coyotes, rabbits.
An ecosystem with running water, during the year the year is known as a Lotic ecosystem.
The producer. Every food chain begins with one.
Yes scavengers and decomposers play important roles in a park ecosystem. Scavengers are animals that feed on the remains of other organisms, and decomposers are organisms that break down dead plant and animal matter and convert it into simpler substances that can be recycled back into the ecosystem. Both scavengers and decomposers help to recycle nutrients back into the ecosystem, and they are an important part of the food chain. In a park ecosystem, you might find scavengers such as vultures, crows, and beetles, and decomposers such as bacteria, fungi, and worms.omposers play important roles in a park ecosystem. Scavengers are animals that feed on the remains of other organisms, and decomposers are organisms that break down dead plant and animal matter and convert it into simpler substances that can be recycled back into the ecosystem. Both scavengers and decomposers help to recycle nutrients back into the ecosystem, and they are an important part of the food chain. In a park ecosystem, you might find scavengers such as vultures, crows, and beetles, and decomposers such as bacteria, fungi, and worms. Would you expect to find scavengers and decomposers in a park ecostytem?Yes scavengers and decomposers play important roles in a park ecosystem. Scavengers are animals that feed on the remains of other organisms, and decomposers are organisms that break down dead plant and animal matter and convert it into simpler substances that can be recycled back into the ecosystem. Both scavengers and decomposers help to recycle nutrients back into the ecosystem, and they are an important part of the food chain. In a park ecosystem, you might find scavengers such as vultures, crows, and beetles, and decomposers such as bacteria, fungi, and worms. Yes scavengers and decomposers play important roles in a park ecosystem. Scavengers are animals that feed on the remains of other organisms, and decomposers are organisms that break down dead plant and animal matter and convert it into simpler substances that can be recycled back into the ecosystem. Both scavengers and decomposers help to recycle nutrients back into the ecosystem, and they are an important part of the food chain. In a park ecosystem, you might find scavengers such as vultures, crows, and beetles, and decomposers such as bacteria, fungi, and worms.Yes scavengers and decomposers play important roles in a park ecosystem. Scavengers are animals that feed on the remains of other organisms, and decomposers are organisms that break down dead plant and animal matter and convert it into simpler substances that can be recycled back into the ecosystem. Both scavengers and decomposers help to recycle nutrients back into the ecosystem, and they are an important part of the food chain. In a park ecosystem, you might find scavengers such as vultures, crows, and beetles, and decomposers such as bacteria, fungi, and worms.
Small populations
Areas with the least dense human populations are typically found in remote regions such as deserts, mountain ranges, and polar regions. These areas often have harsh climates, limited resources, and challenging living conditions that discourage large human settlements. Examples include rural areas in countries like Mongolia, Australia, and Greenland.
Yes (though organisms don't evolve, populations do). Some species have remain virtually unchanged (morphologically, at least) for hundreds of thousands of years, while others (such as our domestication of dogs) have changed much more rapidly. Note, though, that change at the morphological level and change at the genetic level are not related linearly. Also, the rate of change depends largely on the size of the population. Populations of the same descent but with different sizes may diverge from their ancestral genotype at differing rates. Ultimately, there are numerous factors influencing the rate of genetic change and the rate of morpholigical change. Some of these are species-related, others dictated by circumstance. But in the end, the answer is a simple: yes.