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Autotrophs

170 Sentences | 9 Meanings

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Without autotrophs, herbivores and carnivores would not have a source of food.
The plant kingdom is comprised of many different types of autotrophs.
The process of chemosynthesis is used by some autotrophs, such as certain bacteria, to produce food.
Autotrophs are the basis of the food web in most ecosystems.
Autotrophs are critical to the survival of all living things because they produce the oxygen that we breathe.
Most autotrophs use carbon dioxide and water to make glucose and oxygen.
Autotrophs are able to make their own food using sunlight.
Plants are autotrophs that are essential to the food chain, as they provide food for herbivores.
Mosses and lichens are autotrophs that grow in low-nutrient environments.
Autotrophs are the first link in the food chain, as they provide food for other organisms.
Without autotrophs, there would be no organic matter for other organisms to feed on.
Bacteria can be autotrophs or heterotrophs, depending on their energy source.
Some autotrophs, like phytoplankton, form the base of the marine food web.
Some bacteria are considered autotrophs because they are able to use inorganic compounds to create organic matter.
The ability to produce their own food through photosynthesis is what distinguishes autotrophs from heterotrophs.
Many desert organisms are autotrophs, as they rely on their ability to produce their own food in a harsh environment.
Plants are autotrophs because they use energy from the sun to make their own food.
Autotrophs are essential for the health of ecosystems, as they form the base of the food chain.
The energy and nutrients obtained by autotrophs are then passed on to other organisms in the ecosystem.
Phytoplankton are autotrophs that are responsible for much of the ocean's primary production.
Autotrophs are essential for life on Earth, as they produce the organic compounds that other organisms need to survive.
Some bacteria are autotrophs that produce their own organic compounds from inorganic substances.
The ability of autotrophs to synthesize their own organic compounds makes them the primary producers in any ecosystem.
Autotrophs that live in extreme environments, such as the deep sea, are called extremophiles.
Algae are an example of aquatic autotrophs that provide food and oxygen for marine ecosystems.
Chemosynthetic autotrophs, such as bacteria found in hydrothermal vents, use inorganic compounds like sulfur and ammonia to produce food.
Some autotrophs, such as cyanobacteria, are able to fix nitrogen, which is important for plant growth.
Some autotrophs, such as some species of algae, are able to undergo asexual reproduction.
The process of photosynthesis that autotrophs use to produce food involves the absorption of light energy by chlorophyll.
Autotrophs like plants and algae use sunlight to make their own food.
The Amazon rainforest is home to a diverse range of autotrophs, such as trees and understory plants.
Autotrophs are the foundation of most food chains in ecosystems.
Autotrophs, such as plants, use the process of photosynthesis to convert sunlight into energy.
Some autotrophs can survive in extreme environments, such as deep sea vents or hot springs.
Some bacteria are also autotrophs that obtain energy from chemicals in their environment.
Chloroplasts in plant cells are responsible for photosynthesis, the process autotrophs use to produce food.
Autotrophs are the base of the food chain and provide energy for heterotrophs, or organisms that rely on other organisms for food.
Autotrophs are crucial for maintaining the balance of gases in Earth's atmosphere, particularly oxygen and carbon dioxide.
Autotrophs are important for maintaining the balance of gases in the Earth's atmosphere, particularly carbon dioxide and oxygen.
Scientists are interested in studying autotrophs to better understand how life can exist in extreme conditions.
The ability of autotrophs to produce their own food sets them apart from heterotrophs, which rely on consuming other organisms.
The discovery of autotrophs that can survive in extreme environments such as hot springs has expanded our understanding of the diversity of life on Earth.
Autotrophs are able to make their own food using sunlight and carbon dioxide.
The process of chemosynthesis allows certain autotrophs to produce organic matter using energy from inorganic chemicals.
The leaves of plants contain chloroplasts, which are responsible for photosynthesis and the production of food in autotrophs.
Some autotrophs, like certain bacteria, can use inorganic chemicals to produce organic compounds.
Understanding the unique metabolic pathways of autotrophs can help us develop new ways to produce sustainable biofuels.
The survival of many terrestrial ecosystems depends on the presence of autotrophs such as trees and grasses.
Autotrophs are essential for the survival of many ecosystems as they provide food for other organisms.
Unlike most animals, autotrophs are able to manufacture their own amino acids and other organic molecules.
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