heterotroph

Biology

(noun)

an organism that requires an external supply of energy in the form of food, as it cannot synthesize its own

Related Terms

Microbiology

(noun)

An organism which requires an external supply of energy in the form of food as it cannot synthesize its own.

Related Terms

Examples of heterotroph in the following topics:

  • Growth Terminology

    • The two ways that microbial organisms can be classified are as autotrophs (supply their own energy) or as heterotrophs (use the products of others).
    • A heterotroph is an organism that, unlike an autotroph, cannot fix carbon and uses organic carbon for growth.
    • Heterotrophs use the products formed by autotrophs to survive.
    • Photoheterotrophs are a type of heterotroph.
    • Chemoheterotrophs are a type of heterotroph.

  • Strategies for Acquiring Energy

    • Autotrophs (producers) synthesize their own energy, creating organic materials that are utilized as fuel by heterotrophs (consumers).
    • Energy is acquired by living things in three ways: photosynthesis, chemosynthesis, and the consumption and digestion of other living or previously-living organisms by heterotrophs.
    • Heterotrophs function as consumers in the food chain; they obtain energy in the form of organic carbon by eating autotrophs or other heterotrophs.
    • Unlike autotrophs, heterotrophs are unable to synthesize their own food.

  • Prochlorophytes

    • Picoplankton is the fraction of plankton which can be photosynthetic or heterotrophic.
    • Picoplankton is the fraction of plankton, composed by cells between 0.2 and 2 μm, that is either photosynthetic (photosynthetic picoplankton; ) or heterotrophic (heterotrophic picoplankton).

  • Characteristics of the Animal Kingdom

    • All animals require a source of food and are, therefore, heterotrophic: ingesting other living or dead organisms.
    • As heterotrophs, animals may be carnivores, herbivores, omnivores, or parasites .
    • All animals are heterotrophs that derive energy from food.

  • Cell Structure, Metabolism, and Motility

    • Other protists are heterotrophic and consume organic materials (such as other organisms) to obtain nutrition.
    • Amoebas and some other heterotrophic protist species ingest particles by a process called phagocytosis in which the cell membrane engulfs a food particle and brings it inward, pinching off an intracellular membranous sac, or vesicle, called a food vacuole .
    • Subtypes of heterotrophs, called saprobes, absorb nutrients from dead organisms or their organic wastes.
    • Some protists function as mixotrophs, obtaining nutrition by photoautotrophic or heterotrophic routes, depending on whether sunlight or organic nutrients are available.

  • Organization of Ecosystems

    • Heterotrophs, which must feed on other organisms in order to obtain organic matter.
    • Consumers (heterotrophs) cannot manufacture their own food and need to consume other organisms.
    • Within ecosystems, the biotic factors that comprise the categories above can be organized into a food chain in which autotrophic producers use materials and nutrients recycled by decomposers to make their own food; the producers are in turn eaten by heterotrophic consumers.
    • A food web depicts a collection of heterotrophic consumers that network and cycle the flow of energy and nutrients from a productive base of self-feeding autotrophs .

  • Photoautotrophs and Photoheterotrophs

    • Not all phototrophs are photosynthetic but they all constitute a food source for heterotrophic organisms.
    • A heterotroph is an organism that depends on organic matter already produced by other organisms for its nourishment.

  • Oxidation of Reduced Sulfur Compounds

    • Beggiatoa can grow chemoorgano-heterotrophically by oxidizing organic compounds to carbon dioxide in the presence of oxygen, although high concentrations of oxygen can be a limiting factor.
    • Some species may oxidize hydrogen sulfide to elemental sulfur as a supplemental source of energy (facultatively litho-heterotroph).
    • Beggiatoa can grow chemoorgano-heterotrophically by oxidizing organic compounds to carbon dioxide in the presence of oxygen, though high concentrations of oxygen can be a limiting factor.
    • Some species may oxidize hydrogen sulfide to elemental sulfur as a supplemental source of energy (facultatively litho-heterotroph).

  • The Purpose and Process of Photosynthesis

    • Other organisms, such as animals, fungi, and most other bacteria, are termed heterotrophs ("other feeders") because they must rely on the sugars produced by photosynthetic organisms for their energy needs.
    • Those carbohydrates are the energy source that heterotrophs use to power the synthesis of ATP via respiration.

  • Excavata

    • This supergroup includes heterotrophic predators, photosynthetic species, and parasites.
    • Euglenozoans includes parasites, heterotrophs, autotrophs, and mixotrophs, ranging in size from 10 to 500 µm.