True Because without plants we be dead and animals too.
autotrophs
Some characteristics of organic compounds are that many are gases or solids that have low melting points and they do not conduct electricity. Some characteristics of inorganic compounds are almost all are insoluble inorganic solvents, they do form ions that can conduct electricity, and most have high melting points.
Holophytic and autotrophic nutrition are almost the same thing. Photoautrophs can be called holophytes, which is most autotrophs, but some autotrophs produce food by chemical synthesis, i.e. not in the presence of sunlight. They are chemoautrophs and not holophytes. Similarly, holotrophic and heterotrophic are almost the same. All heterotrophs which are not saprophytic or parasitic are holotrophs as well.
organic carbon compounds derived from plants or animals. They usually contain carbon and hydrogen along. For example, carbohydrates (such as glucose: C6H12O6), proteins and palm oil. They have low melting and boiling point and insulator for electric conductivity. They able to dissolve in organic solvent (such as methanol, ether and chloroform) but not inorganic solvent ( such as water, acids and alkalis).inorganic carbon compounds derived from minerals in the Earth. Usually the carbon comes along with a non-metallic element (for instance carbon dioxide and carbon monoxide). However, it may also comes along with a metallic element (for instance sodium hydrogen carbonate). Contrary to organic carbon compounds, they dissolved in inorganic solvent but not organic solvent.You should also take note that there's also another classification of carbon compounds that is synthetic carbon compounds. As the name suggests, this group is artificially man-made compounds with carbon elements in it. For example, nylon, polyvinyl chloride (plastics).
A heterotroph (also known as a consumer) feeds on other organisms. Autotrophs (also known as producers) create food, almost always through photosynthesis.
autotrophs
The most common answer would be plants.
Autotrophs, organisms that can manufacture their own food using inorganic chemicals and an outside source of energy, most commonly sunlight.
inorganic compounds represent everything that does not contain carbon as a chemical compound (with very few exceptions) this means that almost every process that happens in the industrial world has the use of an inorganic compound. In fact almost everyone depends on inorganic compounds to simple get through the day.
Some characteristics of organic compounds are that many are gases or solids that have low melting points and they do not conduct electricity. Some characteristics of inorganic compounds are almost all are insoluble inorganic solvents, they do form ions that can conduct electricity, and most have high melting points.
A giraffe is a heterotroph.Autotroph - organism that makes organic compounds from inorganic sources. Plants, some bacteria, and some protista make their own food using light energy.Heterotroph - organism that cannot make organic compounds from inorganic sources. They obtain their organic compounds by consuming other organisms. Almost all animals, fungi and some Protista and bacteria.Note: all food molecules come ultimately from autotrophsDefinition from my biology book.
Maple sugar is almost pure sugar. Sugars are organic compounds. Please see the link.
A heterotroph (also known as a consumer) feeds on other organisms. Autotrophs (also known as producers) create food, almost always through photosynthesis.
Holophytic and autotrophic nutrition are almost the same thing. Photoautrophs can be called holophytes, which is most autotrophs, but some autotrophs produce food by chemical synthesis, i.e. not in the presence of sunlight. They are chemoautrophs and not holophytes. Similarly, holotrophic and heterotrophic are almost the same. All heterotrophs which are not saprophytic or parasitic are holotrophs as well.
organic carbon compounds derived from plants or animals. They usually contain carbon and hydrogen along. For example, carbohydrates (such as glucose: C6H12O6), proteins and palm oil. They have low melting and boiling point and insulator for electric conductivity. They able to dissolve in organic solvent (such as methanol, ether and chloroform) but not inorganic solvent ( such as water, acids and alkalis).inorganic carbon compounds derived from minerals in the Earth. Usually the carbon comes along with a non-metallic element (for instance carbon dioxide and carbon monoxide). However, it may also comes along with a metallic element (for instance sodium hydrogen carbonate). Contrary to organic carbon compounds, they dissolved in inorganic solvent but not organic solvent.You should also take note that there's also another classification of carbon compounds that is synthetic carbon compounds. As the name suggests, this group is artificially man-made compounds with carbon elements in it. For example, nylon, polyvinyl chloride (plastics).
Almost all living things around is is made of carbon and its compounds (organic compounds) including plant, animals and living organisms. So, to simply put forward, without carbon compounds life would be impossible around us.
Organisms that make their own food are called autotrophsor producers. All plants and most protists are producers.Animals that consume other animals or plants are called heterotrophs or consumers. Almost all animals are consumers.The names are based on Greek words auto (meaning "self"), hetero (meaning "other"), and troph (meaning "growth").So a heterotroph grows by directly depending on other organisms.Meanwhile, a producer grows on by itself, independent of other organisms.