Alternation of generations is the term used to describe how spores reproduce. This means, the spore is able to become a new plant or organism from itself as a form of asexual reproduction. The spore comes from the original plant or organism to become a new life form.
Autotrophs are organisms that can produce their own food using energy from sunlight (photosynthesis) or inorganic chemicals (chemosynthesis). They are able to convert these energy sources into organic compounds that can be used as nutrients for growth and development. This ability allows autotrophs to sustain themselves without needing to consume other organisms for food.
Heterotrophs obtain energy by consuming other organisms, while autotrophs make their own energy through processes like photosynthesis or chemosynthesis. Essentially, heterotrophs rely on external sources for energy, while autotrophs are self-sufficient in energy production.
Chemolithoautotrophs use inorganic compounds as an energy source in chemosynthesis, while photoautotrophs use sunlight as an energy source in photosynthesis. This difference in energy source influences the way these organisms produce organic molecules for growth and development.
Autotrophs are organisms that can produce their own food using inorganic compounds and an external energy source, typically from sunlight or chemicals. They are able to perform photosynthesis or chemosynthesis to create organic molecules that serve as their source of energy and nutrients. Examples of autotrophs include plants, algae, and some bacteria.
the word you're looking for is - reproduce.
Humans do, obviously. All autotrophs and heterotrophs reproduce sexually.
Fungi reproduce asexually. Animals reproduce sexually. Fungi are autotrophs. Animals are heterotrophs. Source= Biology student.
Autotrophs because they make their food by their own
Autotrophs
By consuming autotrophs.
Some autotrophs/producers are: Wheat Fungi Algae Cacti Trees Shrubs They are made autotrophs because they can produce their own food.
autotrophs
Autotrophs depend on heterotrophs for minerals
Heterotrophs respond to their surroundings, while autotrophs do not., , , , Heterotrophs respond to their surroundings, while autotrophs do not.,Heterotrophs grow in multiple places, while autotrophs do not., , , , Heterotrophs grow in multiple places, while autotrophs do not.,Heterotrophs get nutrition by eating, while autotrophs make their own food., , , , Heterotrophs get nutrition by eating, while autotrophs make their own food.,
Autotrophs and heterotrophs are both organisms that obtain energy from food, but autotrophs can produce their own food through photosynthesis or chemosynthesis, while heterotrophs consume other organisms for energy. Autotrophs are able to convert sunlight or certain chemicals into energy, whereas heterotrophs rely on consuming organic matter from other organisms.
They are AUTOTROPHS (make their own food).
They are AUTOTROPHS (make their own food).