animals, plants, and protists
In "Finding Nemo," the six kingdoms referenced are part of the biological classification system. These kingdoms include Animalia (animals), Plantae (plants), Fungi (fungi), Protista (single-celled organisms), Archaea (ancient bacteria), and Bacteria (true bacteria). However, in the context of the movie, the focus is primarily on the marine life within the Animalia kingdom, showcasing various oceanic species. The film highlights the diversity and interactions of these creatures in their underwater habitat.
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Romance of the Three Kingdoms - TV series - was created in 1994.
a domain is a bigger category, under the domain are the kingdoms - animalia, plantae, protista, eubacteria, fungi, and archeabacteria
Western African kingdoms prospered because they controlled the West African trade routes. In addition to that, kingdoms like Mali exported ivory, gold, and salt (among other goods), which were always in high demand.
animals, plants, and protists
There are six kingdoms recognized by scientists. They are: Animal,Plant,Archaebacteria,Eubacteria, Protista and Fungi.
Lately scientists have found many species that they are not sure what to classification as because really they could be either, so they have the options to make more in-between kingdoms, or to just classificate them as living and nonliving organisms
Scientists continue to add kingdoms to the system of classification as new organisms are discovered that do not fit neatly into existing kingdoms. By creating new kingdoms, scientists can better represent the diversity of life and accurately categorize these newly discovered organisms based on their unique characteristics and evolutionary relationships.
The six kingdoms agreed upon by most scientists are Animalia, Plantae, Fungi, Protista, Archaea, and Bacteria. This classification system helps organize and categorize living organisms based on shared characteristics.
The three kingdoms in the classification of organisms are Plantae, Fungi, and Animalia. The classification system was created by Carl Linnaeus in the 18th century, and later expanded upon by other scientists.
Scientists use a variety of criteria, such as genetic information, cell structure, and metabolic processes to classify organisms into different Kingdoms. This classification is based on similarities and differences in these criteria among organisms. The current system of classification uses three domains (Bacteria, Archaea, Eukarya) and further divides organisms into six Kingdoms (Animalia, Plantae, Fungi, Protista, Archaea, Bacteria) based on these criteria.
Scientists use the following six kingdoms to classify organisms: Animalia (animals), Plantae (plants), Fungi (fungi), Protista (protists), Archaea (archaea), and Bacteria (bacteria). This classification system helps scientists organize and study the vast diversity of life on Earth.
Most scientists accept the traditional five-kingdom classification system, which includes the kingdoms of Animalia, Plantae, Fungi, Protista, and Monera. However, some scientists now prefer the three-domain system, which categorizes organisms into Bacteria, Archaea, and Eukarya.
The invention of the microscope allowed scientists to observe microorganisms, leading to the realization that there was greater diversity among living organisms than previously thought. This discovery prompted scientists to propose the classification of kingdoms beyond the original two kingdoms (Plantae and Animalia) to better reflect the diversity of life.
The three kingdoms were Animalia for animals, Plantae for plants, and Protista for protists. This classification system was proposed by Ernst Haeckel in the late 19th century to categorize all living organisms into broad groups based on their characteristics.
No, in biological classification, Kingdom is a higher level of classification than Domain. Domains represent the highest level of biological classification, which can be further divided into kingdoms.