animalia
This description refers to the Kingdom Animalia. Animals are eukaryotic, multicellular organisms with specialized tissues that allow them to move and respond to their environment. They do not have cell walls like plants and fungi.
The organisms found in the kingdom Animalia are multicellular, heterotrophic organisms that lack cell walls. They exhibit diverse characteristics and behaviors, ranging from simple sponges to complex mammals.
Moulds belong to the kingdom Fungi. They are multicellular organisms that obtain nutrients by breaking down organic matter in their environment.
Members of the kingdom Animalia are commonly called animals. Animals are multicellular, eukaryotic organisms that obtain energy by consuming other organisms. They are characterized by their ability to move and respond to their environment.
The kingdom Animalia includes only multicellular heterotrophs.
Dogs are classified in the kingdom Animalia because they are multicellular organisms with complex tissues and organ systems that rely on ingesting food for energy. In contrast, fungi are classified in their own kingdom because they are organisms that lack chlorophyll and instead absorb nutrients from their surroundings by decomposing organic matter.
Animalia is the kingdom that consists only of complex multicellular eukaryotic organisms.
Animalia-- animals
Kingdom Animalia contains multicellular organisms that ingest their food.
There are two answers to this simple but complex answer, but the answer is fugi and animilia. They are both multicellular and heterotrophic.
The kingdom of protists has both heterotrophs, autotrophs, and uni/multicellular organisms.
Animalia contains only multicellular organisms.
Fungi And Protists
eubacteria i think
plantea
The organisms found in the kingdom Animalia are multicellular, heterotrophic organisms that lack cell walls. They exhibit diverse characteristics and behaviors, ranging from simple sponges to complex mammals.
Kingdom Plantae
Kingdon Fungi and Kingdom Plantae include multicellular organisms as well as Kindgom Anamilia; all eukaryotes.