Heterotroph
Chemoheterotrophs obtain carbon by consuming organic compounds from their environment. They cannot produce their own food through photosynthesis and depend on other organisms for a source of carbon. This carbon is used in their metabolism to generate energy and build cellular components.
Deep-sea organisms depend on chemoautotrophic bacteria, which use chemical energy from sources like sulfur compounds to fix carbon dioxide and synthesize organic molecules through a process called chemosynthesis. This allows deep-sea organisms to survive in environments where sunlight cannot penetrate for photosynthesis.
Organic compounds decompose at high temperatures because the energy from the heat breaks the bonds holding the molecules together. This leads to the breakdown of the organic molecules into simpler compounds like carbon dioxide, water, and other byproducts. The specific products of decomposition depend on the structure of the organic compound.
The external source of energy that organisms depend on is typically sunlight or organic matter. Sunlight is harnessed by photosynthetic organisms like plants to produce energy-rich molecules through photosynthesis. Other organisms, such as animals and fungi, rely on consuming these energy-rich molecules from plants or other organisms to obtain the energy they need for survival.
Heterotrophs are organisms that cannot produce their own food and must obtain nutrients by consuming other organisms. They rely on external sources of organic carbon for growth and energy production. Examples of heterotrophs include animals, fungi, and most bacteria.
Organic compounds can be both flammable and combustible. Flammable materials ignite easily and burn rapidly at low temperatures, while combustible materials require higher temperatures to ignite and burn. The flammability and combustibility of organic compounds depend on their chemical structure, such as the presence of carbon-carbon or carbon-hydrogen bonds that can easily break and react with oxygen in the air.
Plants
Detritivores decompose organic materials in an ecosystem and return the nutrients to the soil, air, and water.
Photosynthesis benefits heterotrophs by producing oxygen and organic compounds that are essential for their survival. During photosynthesis, plants and other autotrophs convert sunlight into chemical energy, creating glucose and releasing oxygen as a byproduct. Heterotrophs, which cannot produce their own food, rely on these organic compounds for energy and the oxygen for respiration. Thus, photosynthesis forms the foundation of the food chain, supporting all life forms that depend on consuming other organisms.
Heterotrophic mode of nutrition is when an organism obtains organic compounds by consuming other organisms. These organisms cannot produce their own food through photosynthesis or chemosynthesis, and instead rely on consuming other living things for energy and nutrients. Examples include humans, animals, fungi, and some bacteria.
YES THEY ARE ORGANISMS. BOTANIST HAVE A CLAIM AS A PLANT BECAUSE IT REPRODUCE LIKE A PLANT VIA SEXUAL AND ASEXUAL WAY.
A lot of organisms that thrive in the deepest parts of the ocean rely heavily on chemosynthesis. Chemosynthesis is most commonly seen near thermal vents and involves the biological conversion of 1+ carbon molecules (methane/CO2) and nutrients into organic matter. This is made possible through the oxidation of inorganic molecules such as H2 or Hydrogen Sulfide; these are used as a source of energy, rather than radiation from the sun.