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What else can I help you with?
How do you differentiate autotrophs from heterotrophs?
Heterotrophs came first because they could live off the minerals in the oceans (Heterotrophs are just organisms that take their source of energy from somewhere else - minerals do count). Autotrophs, however, could not have lived first because the ozone layer was not formed, and taking in the sunlight would have been the same as taking in harmful UV radiation that would have killed the autotrophs. The cyanobacteria (which are heterotrophs) were the ones that first helped create the ozone layer.Actually, Cyanobacteria aren't heterotrophic. This WRONG answer led me cramming for our debate about Autotrophs vs. Heterotrophs. If you want to know about which came first, either search about primordial theory by A.I Oparin or go to http://leiwenwu.tripod.com/(:my yahoomail: lord_reverie@yahoo.com.ph
What is a detntivore?
Detntivore is not a word. Do you mean Detritivore? If so the definition is as follows: Detritivores, also known as detritus feeders or saprophages, are heterotrophs that obtain nutrients by consuming detritus (decomposing organic matter).[1] By doing so, they contribute to decomposition and the nutrient cycles.They are like worms, fiddler crabs & slugs.
What is the state of not having enough of a nutrient to maintain good health?
The state of not having enough of a nutrient to maintain good health is called a deficiency. This can lead to negative health impacts and can vary depending on the specific nutrient that is lacking. Symptoms of deficiencies can range from mild to severe, and it is important to address them through appropriate dietary changes or supplementation.
Which nutrient is found in plant protein foods and not in animal protein foods?
Fiber
Which nutrient is the arctic diet rich in?
The nutrient that the arctic diet is rich in protein. This diet is also rich in fat as well as carbohydrates which are needed for energy. In this climate people use greater amounts of energy and a diet higher in carbohydrates is needed.
Why do autotrophs depend on heterotrophs?
heterotrophs and autotrophs depend on each when heterotrophs obtain food by decomposing other organisms. To live, all organisms, including plants, must release the energy in sugars and other compounds.
What are the heterotrophs of an estuary?
Common heterotrophs in an estuary include various species of fish, crustaceans (such as crabs and shrimp), mollusks, and decomposers like bacteria and fungi. These organisms rely on consuming organic matter produced by autotrophs or detritus in the estuarine ecosystem for their energy and nutrient requirements.
What are some similarities between autotrophs and heterotrophs?
Both autotrophs and heterotrophs are organisms that require energy to carry out life processes. They both participate in nutrient cycles within ecosystems and play a role in maintaining the balance of energy flow. Additionally, both autotrophs and heterotrophs are part of the food web and interact with other organisms within their environment.
What does Autotrophs has in common with heterotrophs?
Five similarities of Autotrophs and Heterotrophs are: - They both are living things - They need food to live - They both want air, water, sunlight to live - They convert small molecules into large molecules during the preparation of food.
What are the two groups of living organisms that include both heterotrophs and autorophs?
The two groups of living organisms that include both heterotrophs and autotrophs are protists and fungi. Many protists, such as certain algae, can photosynthesize (autotrophs) while others, like some protozoa, consume organic material (heterotrophs). Similarly, fungi primarily act as heterotrophs through decomposition, but some can engage in symbiotic relationships that allow for nutrient exchange with autotrophic partners, like in mycorrhizal associations.
Why are insectivorous plants called partial heterotrophs?
Insectivorous plants are called partial heterotrophs because while they can produce their own food through photosynthesis like autotrophs, they also rely on insects to supplement their nutrient intake, making them partially dependent on external food sources.
Why insectivorous plants called partial autotrophs?
insectivorous plants contain chlorophyll thus they can prepare their own food but they also feed own insects to fulfill their nitrogen requirements thus are called partial autotrophs and partial heterotrophs.
How do you differentiate autotrophs from heterotrophs?
Heterotrophs came first because they could live off the minerals in the oceans (Heterotrophs are just organisms that take their source of energy from somewhere else - minerals do count). Autotrophs, however, could not have lived first because the ozone layer was not formed, and taking in the sunlight would have been the same as taking in harmful UV radiation that would have killed the autotrophs. The cyanobacteria (which are heterotrophs) were the ones that first helped create the ozone layer.Actually, Cyanobacteria aren't heterotrophic. This WRONG answer led me cramming for our debate about Autotrophs vs. Heterotrophs. If you want to know about which came first, either search about primordial theory by A.I Oparin or go to http://leiwenwu.tripod.com/(:my yahoomail: lord_reverie@yahoo.com.ph
What energy is heterotrophs required in?
nutrient molecules are broken down
Why is a mushroom considered a heterotroph?
Heterotrophs are organisms who cannot produce their own organic food.Mushrooms are heterotrophs too, specifically they are termed as saprotrophs or saprophytes, that is they obtain their organic nutrient from dead decaying organisms.
Are vertebrates heterotrophic?
Yes. All animals are Heterotrophs, which means they feed off of other organisms rather than making there own food like plants. Plants are Autotrophs which means they go through photosynthesis to make there own food.
Is trichomonas autotrophic or heterotrophic?
Monerans are organisms that lack a membrane bound nucleus. Some monerans are heterotrophic and obtain their food from the environment. Others, like the cyanobacteria are autotrophic since they are able to create their own food.
