Contents: Human taxomony | Domain - Phylum Table | History | Terms | Books | links
Bacteria | Protozoa | fungi | Plants | Animals (invertebrates | vertebrates) | Mammals | Primates

Domain - Eucarya - Multi-celled with nucleus
 Kingdom - Animala or Metazoa - Can move around, specalized sense organs,...
  (Subkingdom) - Metazoa or Eumetazoa - Distinguishes the rest of the animals from sponges
    Note: The second classification above, K: Metazoa and SK: Eumetazoa, tends to be more popular now.
   (Branches) - bilateria:  coelomate:  deuterostome 
    (Grade) - Bilateral - bilaterally symmetrical (left/right)
    (sub-grade) - Coelomata - True body cavities
    (SuperPhylum) - Deuterostomia - Develop (embryo) mouth second
     Phylum - Chordata - Hollow nerve cord
       Some places show SuperPhylum = Chordata and
      Phylum = Craniata - bilateral symmetry, bone and/or cartilage
           (Plants use Division instead of phylum)
      (Subphylum) - Vertebrate - backbone
       Euteleostomi - Bony vertebrates
       (Superclass or Infraphylum) - Gnathostomata - jawed vertebrates.
        Newer, cladistic, classifications include 3 other levels here:
          Teleostomi (Dermal bone, fin rays)
           Euteleostomi (bony vertebrates)
            Sarcopterygii (Lobe-Fin)
           Tetrapoda - Four footed gnathostomes - Can live on land.
        Class - Mammalia - Hair, Mammary glands for nursing young
         (Subclass) - Theria - Live births.
                     All mammals except monotremes - egg laying e.g. platypus.
         (Infraclass) - Eutheria - Placental (unborn children carried in the uterus)
          (SuperOrder) - Euarchontoglires
          Order -  Primate - (Monkeys) - Binocular vision (forward eyes) - opposable thumbs 
           (Suborder) - Haplorrhini (Anthropoidea & Tarsiodea) - Simple dry nose
                    Rotating sholder and elbow joints allowing them to swing from their arms.       
           (Infraorder) - Catarrhini - Downward facing, narrow nostrils
                       or Simiiformes
            (Parvorder) - Catarrhini
             (Superfamily) - Hominoidea (Apes) Absence of tails, rounded molars, color vision.
              Family - Hominidae - (Great apes) - Complex social behaviors, larger body,
                                Skeletal modifications for semi-upright posture, 32 teeth
              (SubFamily) - Homininae (hominines) - Gorilla, Chimp, Human
               (Tribe) - Hominini or hominins - canine tooth, which looks more like an incisor.
                                          Toe bone improved for moving bipedally.
                Genus - Homo "man" - Larger brain
                 Species - Homo Sapien "wise" - Language, more sophisticated tools.
                  Sub-species (breed, race 3 , strain)
                   Variety (plants)
                    Form or cultivar (plants)
                     Individual (Plants)

Homo Sapien Lineage at Taxonomy Browser at the National Center for Biotechnology Information (NCBI) at the National Institutes of Health (NIH).

Domain: Eukaryota; Kingdom: Metazoa; Eumetazoa; Bilateria; Coelomata; Deuterostomia; Phylum: Chordata; subphylum: Craniata; Vertebrata; superclass:Gnathostomata; Teleostomi; Euteleostomi (bony vertebrates); Sarcopterygii; Tetrapoda; Amniota (amniotes); Class: Mammalia; Theria; Eutheria (placentals); SuperOrder: Euarchontoglires; Order: Primates; Suborder: Haplorrhini; Infraorder: Simiiformes; Parvorder: Catarrhini; Superfamily: Hominoidea; Family: Hominidae; Homo/Pan/Gorilla group; Genus: Homo; Species: Homo sapiens;

Intro
The Binomial Nomenclature (Genus, Species) introduced by Swedish Naturalist Carolus Linnaeus (Karl von Linné), the father of modern taxonomy, in the mid-1700's lasted for 200 years. Taxonomy has changed technologically as the field of biology has progressed.

The classifications of living organisms has evolved from two kingdoms (animal and vegitable) to six kingdoms to the current (2004) system of three Domains. As recently as 2000 35 new species were defined just for primates. See History below.

Historically, classification has been by comparison of anatomy since 1960, use of molecular tools has allowed classification based on differences in DNA (and proteins) to identify common ancestries (a shared genetic heritage).
See history below.

Major redesigns of the classification system, using PhyloCodes, are being proposed based on Systematics & Cladistics. See Phylogenetic Tree and Cladistic classification at the evolution page. .

Unfortunatly Zoologists and Botanists have different views on how things should be classified.

The following has the most common Phylums but it is not complete. There is little consistency in the reference books and web pages in this area. The following it an attempt to list the most common classification as of 2006, but it seems to be a moving target.
There are currently proposals to replace the Linnean System with a new PhyloCode.
Note: Viruses are made up of genetic material not complete cells, so are not considered living organisms.

Common Phylums:

Domain	Kingdom	Phylum
BACTERIA	Bacteria (Eubacteria)	Proteobacteria	Nitrogen-fixing bacteria, such as rhizobium, in the root nodules of legumes, as well as enteric bacteria that live in the intestinal tract of animals (including E. Coli). Includes both Chemoautotrophic (free living) and Chemoheterotrophic (parasitic), like Salmonella.
		Cyanobacteria	Includes most bacterial photosynthesizers. Originally they were called blue-green algae because of their ability to photosynthesize, but were reclassified when it was found that they are more similar to bacteria, existing as prokaryotic cells. Produced the oxygen in early Earth.
		Gram-Positive Eubacteria	Display unique staining patterns when exposed to certain gram stains. Includes species of streptococci that causes strep throat.
		Spirochetes	Helical bacteria that all are chemoheterotrophs (parasitic). Includes Treponema pallidum, which causes syphilis.
		Chlamydiae	Intracellular parasites that get vitamins, amino acids, ATP, and other vital cellular molecules from their host cell. Some cause venereal disease others a type of pneumonia.
ARCHAEA	CRENARCHAEOTA	Pyrodictium, Thermoproteus	A new group of micro-organisms were discovered in the Open Sea in 1970 and assigned their own domain in 1994. They live in extremes of heat/cold, salinity and acidity.
	EURYARCHAEOTA	Methanogens Thermoacidophiles Halophiles
		Korarchaeota
EUKARYA Plants & Animals	PROTISTA (single-celled organisms) Classification sche- mes for the protists are numerous. Some divide the kingdom into subkingdoms then phila; some into classes.	Zoomastigophora Rhizopoda Ciliophora	Protozoa   flagellates   Amoeba   Paramecium
		Chlorophyta	Green Algae
		Dinoflagellata Euglenophyta	Algal Protozoans
		Rhodophyta Phaeophyta	Seaweeds   Red Algae   Brown Algae
		Pyrrhophyta Chrysophyta Bacillariophyta	dinoflagellates (Red tides) Golden Algae Diatoms
		Myxomycota Acrasiomycota	Fungus-like Protists (slime molds)
		Oomycota	rusts and mildews
	Kingdom	Division
	FUNGI (Mycota)	Zygomycota	tube fungi, including some rusts, bread molds, water molds and others
		Ascomycota	sac fungi including yeasts, powdery mildews, cup fungi, blue and green molds, some bread molds and others
		Basidiomycota	club fungi, including most mushrooms, toadstools, bracket fungi, shelf fungi, puffballs, smuts and rusts.
		Chytridiomycota	chytrids
			lichens are not a single organism, but rather a symbiotic association between a fungus and an alga.
		Deuteromycota	A miscellaneous junk category for forms of uncertain affinity, including those fungi in which sexual reproduction is unknown. It is not treated formally in more recent systems, although it is still used widely by plant pathologists.
	CHROMISTA	Phaeophyta	kelp
		Bacillariophyta	Diatoms
		Haptomonada	haptophytes
	PLANTAE	Bryophyta	nonvascular (no roots, stems, or leaves) e.g. mosses and liverworts
		Pterophyta	ferns and relatives
		Coniferophyta	cone-forming seed plants conifers (gymnosperms)
		Anthophyta	fruit-forming seed plants - flowering plants (angiosperms) Maple, Oak, Roses, tulips, sunflower, water lilie

Domain	Kingdom	Sub- Kingdom	Superphylum	Phylum	Sub-Phylum
EUKARYA (Cont.) Plants & Animals	Animalia	Parazoa		Porifera (sponges )
		Metazoa	DEUTEROSTOMIA (deuterostome "mouth second")2	Chordata 1 (with a nerve cord) (fish, reptiles, birds, amphibians, mammals)	VERTE- BRATA
				Hemichordata (Acorn worms, graptolites)
				Echinodermata (starfish, sea urchins, sand dollars, sea cucumbers, etc. )	Inverte- brata
			ECDYSOZOA (molting animals)	Arthropoda (Insects, Spiders, lobster, crab, shrimp, scorpions ) Cephaloryncha (radialian worm ) Nematoda (roundworms ) Nematomorpha (gordian horsehair worms ) Onychophora (velvet worms )
			LOPHOTROCHOZOA (worms, molluscs, & lophophorates)	mollusca (oysters, snails, slugs, scallop, octopus, squid and clams ) Annelida (Segmented worms, leeches ) Brachiopoda (lamp shells ) Bryozoa ("moss animals")
				Cnidaria (jellyfish, coral and sea anemones, and hydra. )
			Platyzoa	Platyhelminthes (flatworms )
			Vendian Animals	(the First animals )

1. There are two Cordata sub-phylums which are not vertebrates:
Urchordata - Sea squirts
Cephalochordata - Jawless Fish - Lamprey, Hagfish, Lancelets

2. Deuterostome means "mouth second"; which refers to early embryo development. The other major group of bilateria animals, protostomia, develops the mouth first. See below.

See Eukarya for a 9 Kingdom model and list of 33 Phylums for Animalia.

There are estimated to be a total of 5-9 million species.

[ ] - Number of Species

Any organism, including the bacteria and cyanobacteria; characterized by the lack of a defined nucleus, and the possession of a single double-stranded DNA molecule and a very small range of organelles; almost all such organisms are unicellular and have a true cell wall containing peptidoglycan.
Very few bacteria species have been given a scientific name. One Norwegian study found between 4000 and 5000 bacterial species in a single gram of soil.
Blue-green algae, which accounted for most of the oxygen created in the early earth 2.5 milliion years ago, are now classified as bacteria (cyanobacteria) because they have no nucleus.

• Cyanobacteria
• Heterotrophic Bacteria

Bacteroides
Flavobacteria
Gram-positive Bacteria
Green Nonsulfur Bacteria
Green Sulfur Bacteria
Purple Bacteria
Spirochaetes (yphilis and Lyme disease are caused by these)
Thermatogales

 - KINGDOM (or Phylum) CRENARCHAEOTA

• Thermofilum

• Methanogens (Live in anaerobic environments such the muck of swamps and marshes, the rumen of cattle, sludge)
• Halophiles (These are found in extremely saline environments such as the Great Salt Lake in the U.S. and the Dead Sea.)
• Thermoacidophiles (Like acid and hot environments. Live in acidic sulfur springs (e.g., in Yellowstone National Park) and undersea vents ("black smokers").
• Others: Methanococci, Methanopyri, Archeoglobi, Thermococci

• Protozoa - Divisions Sarcodina/Rhizopoda (e.g. amoebas), Sporozoa/Apicomplexa (e.g.Plasmodium vivax, which causes malaria), Mastigophora/Zoomastigophora (e.g. Trypanosoma gambiense, which causes African sleeping sickness), Ciliophora (fresh water organisms and use cilia to move)
• Algae - Divisions Rhodophyta (red algae), Phaeophyta (brown algae, kelp) and Chlorophyta (green algae, spirogyra), Chrysophyta (golden algae, Diatoms), Pyrophyta (Dioflagellates),
• Fungus-like Protists - Division Myxomycota (slime molds)

 - KINGDOM PLANTAE [270,000 known] --

• Division Bryophyta-- nonvascular (no roots, stems, or leaves) e.g. mosses and liverworts
• Division Pterophyta--ferns and relatives
• Division Coniferophyta-- cone-forming seed plants conifers (gymnosperms)
• Division Anthophyta-- fruit-forming seed plants - flowering plants (angiosperms)
• Class Dicotyledonae- plants with one seed leaf e.g., geranium, carrot, maple
• Class Monocotyledonae- plants with two seed leaves e.g., lily, grass, bamboo, palm  

 "Parazoa" [subkingdom] - No true tissue or loose tissue organization. (sponges)
 "Eumetazoa" [subkingdom] - True tissue
  "Radiata" [grade] -  Only top and bottom - Jellyfish, corals
  "Bilateria" [grade] - Bilaterally symmetrical (left/right)    
   "Acoelomata" [sub-grade] - Flat worms
   "Pseudocoelomata" [sub-grade] - Round worms
   "Coelomata" [sub-grade] - True fluid filled body cavities
    "Protostomia" - Develop mouth first - Earthworms, Molluscs, Anthropods, ...
    "Deuterostomia" - Develop anus first - Chordata (Vertibrates,..),
                                     Echinodermata (star fish, urchins, ...)

• Phylum Chordata (animals with a nerve chord) [45,820]
    - Sub-Phylum: Vertebrata [52,000 ?]
  
  Vertebrates also differ from all the other animals by having quadrupled their HOX gene cluster; that is, vertebrates have 4 clusters of HOX genes located on 4 different chromosomes.
  • Fish [21,723]
    
  •   Class Agnatha - Jawless fish/lamprey
  •   Class Chondrichthyes - Sharks, skates, rays
  •   Class Osteichthyes - bony fishes: bass, tuna, salmon
    
      Tetrapods (terrestrial vertebrates)
  • Class Amphibia Amphibians [4,334] - frogs, toads and salamanders
  • Class Aves Avians[>9,000] - Birds
    
  • Class Reptilia Reptiles[6,778] - snakes, crocodiles and alligators
        subclass Archosauria - Dinosars
  • Class Synapsida - (extinct) Early (300 mya) predecessor to mammals (looked like reptiles)
         Order: Therapsida - Therapsids became the dominant land animals during
              the Middle Permian. Mammals evolved from them.
  • Class Mammalia Mammals [5,400]
      - Sub-Class - Eutheria (Placentals: Mammals in which the young develop in a placenta inside the uterus.)
    • Order: Insectivora - Insect eating - Shrews, moles
    • Order: Carnivora - Meat eating - dog, cat, lion, bear, racoon, seal
    • Order: Chiroptera - bat
    • Order: Primates [310*]- monkeys, apes
         In older classifications, the Primates were divided into two suborders: Prosimii (lemurs and tarsiers) and Anthropoidea (Anthropod - monkeys, apes, humans). See primates at Wikipedia
         Sub-Order - Haplorrhini
      • Infraorder Tariiformes (Tarsiers)
      • Infraorder Simiiformes
         Family: Hylobatidae
      • SuperFamily: Catarrhini
         
      • SuperFamily: Hominoidea (hominoids) (Apes)
         Family: Hylobatidae: Gibbons
         Family: Hominidae₁ (Great apes)
            Subfamily: Ponginae - orangutans
            Subfamily: Homininae
                Genus: Gorilla - Gorilla
                Genus: Pan - chimpanzees, Bonobo (pygmy chimp)
              Hominid (Tribe Hominini)
                Genus: Australopithecus (extinct)
                Genus: Homo
                    Species: H. sapiens - man/humans ₃
                    Species: Others (all extinct) neanderthalensis, floresiensis, erectus, habilis, ...
                    Neanderthal's are sometimes classified as a subspecies.
       
      
      • The Hominoid tree (family = Hominidae) has been revised several times in the last 25 years. The modern classification is based on genetic research which shows chimps more closely related to humans (98% of DNA shared) than to gorillas or orangutans (97% of DNA shared).
        Recent proposals have put chimps in the Homo genus with humans.
        See: Is It Time to Revise the System of Scientific Naming? at National Geographic news.

        See: A Phylogeny of Living Hominoids and Hominid Species
        Unique Characteristics of Primates at the Smithsonian
        Family Hominidae at the U. of Michigan Animal Diversity Web

         Sub-Order - Strepsirrhini (lemurs, lorises, ..)
    • Order: Rodentia - Rats, mice
    • Order: Lagomorpha - Jackrabbit
    • Order: Perissodactyla - Horse, Rhinoceros
    • Order: Artiodactyla - pig, cow, sheep, deer
    • Order: Cetacea - whale, dolphin, porpoise
    • Order: Pinnipedia - seals, sea lions
    • Order: Marsupialia - Koala, Opossum
    • Order: Proboscidea - Elephant
    • Order: Xenarthra - Armadillo, Two-toed Sloth
    • Order: Sirenia - Manatee
    • Order: Tubulidentata - Aardvark
    • Order: Others: Dermoptera (Colugo), Hyracoidea (Rock Hyrax), Monotremata (Short-beaked Echidna), Pholidota (Giant Pangolin)

• Phylum Porifera - sponges [5,000 known]
• Phylum Cnidaria (Coelenterata) [9,000 known] - hydra, jellyfish, sea anemone, and the coral
• Phylum Platyhelmintes [20,000 known] - worms with flattened bodies, such as the planarian, tapeworm and liver fluke
• Phylum Nematoda [25,000 known] - roundworms such as the ascaris, pinworm, hookworm, stomach worm and the trichina or pork worm.
• Phylum Annelida [12,000 known] - worms with bodies made of segments such as the sandworm, leech and the earthworm.
• Phylum Mollusca [50,000 known] - oysters, snails, slugs, scallop, octopus and clams
• Phylum Arthropoda [est. 6 Million - 75-84% of all known animal species]
  •   Subphyla (or SuperClass) Hexapoda
        Class Insecta [>1 Million known] --butterflies, grasshoppers, beetles, fly, mosquito, moth. 90% of anthropod species, 65-75% of all species.
          (Estimates of total insect species range from 2 to 30 million.)
          See aquatic insects under fly-fishing.
        Non-insect (Entognatha): Collembola, Protura, and Diplura - Minute arthropods mostly found in leaf litter and soil. e.g. Springtails
  •   Class Crustacea [50,000] --shrimp, crayfish, crabs
  •   Subphyla Myriapoda [13,000]
        Class Chilopoda--centipedes
        Class Diplopoda--millipedes
  •   Subphyla Chelicerata [75,000]
        Class Arachnida [75,000]--spiders, scorpions, ticks, mites
        Class Merostomata [1]--horseshoe "crab"
• Phylum Echinodermata [6,100 known] - starfish, sea urchins, sand dollars, sea cucumbers

1. Until recently, most classifications included only humans in the family Hominidae; other apes were put in the family Pongidae. The evidence linking humans to gorillas and chimps has grown dramatically in the past two decades, especially with increased use of molecular techniques. It now appears that chimps, gorillas, and humans form a clade of closely related species; See Hominidae at Primates.com

 Sometimes Homo Sapiens (wise man) are divided into sub-species or race
          (see below) as:
  Homo Sapien Neanderthal (some classify them as their own species
                                            Homo neanderthalensis)
       Existed between 230,000 and 30,000 years ago. The average brain size
       is slightly larger than that of modern humans, about 1450 cc,
       but this is probably correlated with their greater bulk.
  Homo Sapien Sapien (Modern Man) (Average brain size of about 1350 cc.) 
                                            (150,000-120,000 years ago)
  Homo sapiens (archaic) (also Homo heidelbergensis) (200,000-350,000 years ago)
                       (Average brain size of about 1200 cc.)
  Homo erectus (1.8 mya to 300,000 years)
  Homo habilis (Handy man) 2.4 - 1.5 mya)
  Hominid 4 mya
  See:  Eukarya for another version.

  Evolution, Hominid Species, and A Phylogeny of Living Hominoids.

  Primate Taxonomy at U. Manitoba.

Many other animal species have been around much longer or they have shorter life spans, so they've had many more opportunities to accumulate genetic variants.

Domesticated animals such as dogs also have a lot of genetic diversity, but this is mostly due to selective breeding under controlled conditions.

Race:
Many articles refer to Neanderthal as a race. I think they are using race to distinguish from the "human race" not the what we refer to as different races today.

When it comes to using "race" as a classification, race is not a scientifically-precise term. Genetically speaking, there is less than a 1% difference between negroids, caucasoids and mongoloids. Humans of different races are more than 99% alike genetically. Race is more of a political and quasi-biological term.
Source The Politics of Egyptology and the History Kemet (Egypt)

Other Animal Sites:
Animalia Kingom at North Harris College
Rennisance Animal Classification

Living Organism

One or more biological cells. All living organisms can replicate, and the replicator molecule is DNA. As well, all living organisms contain some means of converting the information stored in DNA into products used to build cellular machinery from fats, proteins, and carbohydrates.

Prokaryotes

Cells without membrane bounded nuclea (bacteria)

Eukaryotes

Organisms with cells that have nuclea

Bacteria

See Bacteria at John Kimball's Biology Pages

Biological Species Concept (BSC) or Mayrian Species Concept (in honor of its principal architect, Ernst Mayr)

States that if two creatures can produce viable offspring, they are the same species. There are many exceptions to this rule.

• 350 BC - Aristotle - living things were animated by a vital force different from anything found in nonliving matter. This force was interpreted as a perfecting principle, operating to improve the living world. Out of this concept was developed the "scale of nature" idea that suggested living things were arranged on a scale of perfection, with man at the top.
  He originated the concept of genera (used in a much broader sense than present-day biologists use the term) and then distinguished the species.
• 300 BC - Theophrastus, a student of Aristotle, classifies 500 plants under herbs, shrubs, pre-shrubs & trees.
• Middle Ages - Early Christian theologians (Augustine 354-430 and Thomas Aquinas 1225-1275) rejected a literal interpretation of the story of special creation (which is common to most religions) and suggested instead a naturalistic interpretation patterned after Aristotle. A refutation of Augustine and Thomas Aquinas, and an insistence on a literal interpretation of Genesis began in the 13th century with a banning of Arabian science and philosophy (most of it translated Greek books) and this continued to the middle of the 19th century.
• 1758 - Carolus Linnaeus (Karl von Linné) Swedish Naturalist- (Linnean System) - Introduced Class, Order, Genus & Species and Binomial Nomenclature (A system in which two names are employed. The first name represents the genus the second a specific name.) in "Systema naturae". His system, the Linnaen System, which included the 7 level taxonomy (Kingdom, Philum, ...) was based on the most evident characteristics of organisms - their morphology.
• 1859 - Charles Darwin "The Origin of Species by means of natural selection"
  This started a new effort to classify groups which had descended from a common ancestor.
• 1866 - Ernst Haeckel Organized a "tree of life" and proposed new kingdom Protista for protozoa and most algae.
• Early 20th century - The systematics movement was characterized by the detailed sutdy of organisims as members of populations
• 1942 - Ernst Mayr publishes "Systematics and the Origin of Species from the Viewpoint of a Zoologist" - The major problem with the evolution of taxonomy is that it was created before Darwin and was too slow in adopting the evolutionary relationship between species.

  Modern Phylogenetic Taxonomy uses DNA analysis and embryological development in addition to traditional characteristics to show evolutionary relationships.

• 1950 - German taxonomist, Willy Henning proposes cladism in 1950, in "Grundzüge einer Theorie der Phylogenetischen Systematik" (See Cladistics)
• 1977 - Carl Woese, professor of Microbiology at the University of Illinois at Urbana-Champaign, defined the Archaea (a new domain or kingdom of life) by phylogenetic taxonomy of 16S ribosomal RNA.
• WHITTAKER FIVE KINGDOM SYSTEM (1978)
• 1994 - Carl Woese (U. Ill.) publishes "Universal Phylogenic tree in rooted form"
  Archaea (Archaebacteria) was split out of what was called the SuperKingdom of Prokaryota or Monera (Bacteria).

Books/Papers:
"The Growth of Biological Thought", Ernst Mayr
"Principles of Systematic Zoology", Ernst Mayr
Systematics and the Origin of Species, 1995, Ernst Mayr
"Full House", 1996, Steven Gould
"International Code of Zoological Nomenclature (ICZN)"
"Life Evolving", 2002, Christian de Duve
Life: The Science of Biology, by Purves et al., from Sinauer Associates

Links:
Race in US Census
Human Race at Carleton College.
RACE - The Power of an Illusion. at pbs.org

Earth History (Geological TIme)
Evolution

More Information on Taxonomy:
PALAEOS: The Trace of Life on Earth
three Domains and Phylogeny at Univ. of California Museum of Paleontology (UCMP)
Taxonomic Classifications at the Portsdown Geology site.
Tree of Life Web project
CMR Genomes Arranged by Taxonomy at the Comprehensive Microbial Resource (CMR) at The Institute for Genomic Research (TIGR)
The Taxonomicon & Systema Naturae 2000 Project - Brands, S.J. (comp.) 1989-2005. Universal Taxonomic Services, Amsterdam, The Netherlands.
Frontiers In Microbiology -> Microbes And The Three Domains
Terrestrial Vertebrates list
Bio 1003 notes at CUNY
Flora and Fauna at Google
U Toronto
Plant Classifications (annual/perenial, Deciduous/Evergreen etc.) at ND State Univ.
Number of Species at:
  The Environmental Literacy Council
  Roger Butterfield page from Natural History Museum in London
  Number of Species on Earth at CurrentResults.com/Environment-Facts
What does related mean
Invertebrates at rcn.com

Classification Lab at Sidwell Friends School
Scientific Classification at wikipedia.org
Animal, Vegetable or Mineral? by Nicholson.
Phylogentic Trees of Life: Griffith Univ., Queensland Australia
Evolution and Systematics: From Darwin to Phylogenetics at the U. of Tennessee
Systema Naturae 2000
See Chromista
Homo Sapiens in Taxonomy Browser and Genome Project at the National Center for Biotechnology Information (NCBI) at the National Institutes of Health.