They are both organisms that grow from another source. They are both plants
The common factors are 1 and 3. The greatest of these is 3.
What are the common factors for 14 and 22
The highest common factor is 5
Factors of 20:1,2,4,5,10,20Factors of 65:1,5,13,65The common factors are 1 and 5.
The common factors of 13 and 39 are: 1 and 13
The factor that the kingdoms Protista, Plantae, Fungi, and Animalia have in common is that their cells are eukaryotic. This is in contrast to the Monerans, or Bacteria and Archaea, whose cells are prokaryotic.
No, the kingdom Protista is no longer considered a legitimate taxonomic group. It is a polyphyletic group, meaning it does not include all descendants of a common ancestor. The organisms once classified in Protista have been reclassified into other kingdoms such as Plantae, Animalia, and Fungi.
Organisms in the kingdoms Protista, Plantae, Fungi, and Animalia are all eukaryotic, meaning their cells have a nucleus and other membrane-bound organelles. Additionally, they exhibit a wide range of diversity in terms of structure, function, and habitat, contributing to the overall biodiversity of life on Earth.
The five-kingdom system of classification is only one of a few, and might be superseded. To common knowledge, the five kingdoms of life are:Monera (bacteria)Protista (protists - algae and protozoa)Fungi (yeasts, slime molds, toadstools)Plantae (mosses, flowering plants, gymnosperms)Animalia (animals - sponges, jellyfish, worms, starfish, insects, arachnids, vertebrates and so on)These days, a six-kingdom system seems to be taking over. The kingdoms are:Archaea (archaebacteria)Bacteria (bacteria)Protista (protists)FungiPlantaeAnimaliaNote however that this is not very impressive since protists are so diverse that they should really be divided into perhaps 60 kingdoms themselves. Taxonomists are still working at protist classification.
The common ancestor of three other kingdoms is likely the kingdom Protista. This kingdom includes a diverse range of unicellular and simple multicellular organisms, which are believed to have given rise to the kingdoms Fungi, Plantae, and Animalia through evolutionary processes. The endosymbiotic theory suggests that certain protists evolved into complex cells, leading to the diversity seen in these three kingdoms. Thus, Protista serves as a crucial link in the evolutionary history of these organisms.
The two kingdoms in Eukarya that evolved most recently are Animalia and Fungi. They emerged relatively later in the evolutionary timeline compared to other eukaryotic kingdoms such as Plantae and Protista, with Animalia diverging from a common ancestor with fungi around 1.2 billion years ago.
The hackberry is a tree, and all trees belong to the taxonomic domain of Eukarya, which are characterised by having cells with nuclei. Eukarya covers all organisms in the Kingdom Plantae, as well as the Kingdoms Animalia, Fungi and Protista.
Species are sorted into different kingdoms based on their overall similarities in terms of key characteristics such as cell type, structure, and mode of obtaining nutrients. These characteristics help scientists classify organisms into broader groups that share common ancestor and evolutionary history. The current system of classification includes six kingdoms: Animalia, Plantae, Fungi, Protista, Archaea, and Bacteria.
windward islands
Both the Linnaean and Whittaker systems of classification include the kingdoms Animalia (animals) and Plantae (plants). Additionally, the Whittaker system expands on the Linnaean framework by introducing kingdoms such as Fungi and Monera, while the Linnaean system primarily focuses on Animalia and Plantae. Thus, the common kingdoms in both systems are Animalia and Plantae.
Members of the 6 kingdoms (Plantae, Animalia, Fungi, Protista, Archaea, and Bacteria) are all living organisms capable of carrying out various biological processes such as growth, reproduction, and responding to stimuli. They also possess cellular structures, DNA, and the ability to obtain and utilize energy.
Nucleic acids, specifically DNA and RNA, are common macromolecules found in all six kingdoms of living things (Archaea, Bacteria, Protista, Fungi, Plantae, and Animalia). They serve as the genetic material that carries the instructions for the development, functioning, and reproduction of organisms. This universality highlights the fundamental biochemical processes shared among diverse life forms.