1. Animals * Sponges * Cnidarians * Worms * Mollusks * Arthropods * Echinoderms * Fish * Amphibians * Reptiles * Birds * Mammals 2. Plants 3. Fungi 4. Protists 5. Bacteria 6. Viruses As you can see, under the animals section there are bullets. These are the different classifications of animals.
those organisms which contain chlorophyll can use photosynthesis
A gradual change in the kinds of organisms living in an ecosystem, typically in response to environmental factors, is known as ecological succession. This process involves a series of stages that ultimately lead to a stable community of plants and animals in the ecosystem.
a variety of different kinds of molecules.Living organisms are made up of a variety of many different kinds of molecules. Some molecules, such as water and salt, are small. Other molecules, such as carbohydrates, fats, proteins, and DNA are large.
A symbiotic relationship
No, a conglomerate is not a biochemical. A conglomerate is a geological term referring to a rock made up of different kinds of minerals and rock fragments. Biochemicals, on the other hand, are chemicals produced by living organisms.
community
There are the consumers, producers( herbivores and carnivores) , and decomposers
community because one type of organism would be a population
Proteins are molecules that feed living organisms. There are about twenty different kinds of proteins. Proteins are found in foods.
those organisms which contain chlorophyll can use photosynthesis
No, evolution is not an abstract word. It refers to the process by which different kinds of living organisms are thought to have developed and diversified from earlier forms.
there are some kinds of photosynthetic living organisms such as Plankton, certain sea slugs such as the Elysia Chlorotica, and Pea Aphids. --RKH
all living organisms move like plants,animals and hello.
An ecosystem that has many different kinds of organisms shows efficient biodiversity. Terrestrial biodiversity tends to be highest at the equator.
all living things are organisims.
A gradual change in the kinds of organisms living in an ecosystem, typically in response to environmental factors, is known as ecological succession. This process involves a series of stages that ultimately lead to a stable community of plants and animals in the ecosystem.
Scientists use a combination of fossil evidence, geological layers, and molecular dating techniques to estimate when different kinds of organisms first appeared on Earth. The fossil record provides insights into the past diversity of life, while molecular dating helps establish evolutionary timelines based on genetic differences among living organisms.