1. Taxonomy & Classification Taxonomy- science of identifying and classifying organisms; all about the naming Classification- systematic grouping and naming of organisms based on shared similarities Systematics-

2. PubMed Search on 9/8/08 “tree of life” AND 2008 47 articles so far this year

3. Why classify?

4. “Planet Bob”

5. How to classify?

6. Taxonomy & Classification Taxonomy- science of identifying and classifying organisms; all about the naming Classification- systematic grouping and naming of organisms based on shared similarities Systematics- study of the diversity of life and relationships between organisms

7. How to classify? We now have 8 Kingdoms. (by some accounts)

8. No modern technology How to classify living organisms? 4th century B.C. The Age of Aristotle

9. No modern technology 2 Divisions Plants (immobile) edible vs. inedible Animals (mobile) blood vs. bloodless walking vs. flying vs. swimming Used up through 1600s In use through 1600s

10. 1500s to 1600s The Age of Exploration Extensive travel to New World Push to collect/classify as many specimens as possible; many newly discovered organisms “free for all”- long descriptive names, “folk taxonomy”, duplicate names for same organism, one organism with 2 names, etc. Tomato- Solanum caule inermi herbaceo, foliis pinnatis incisis (solanum with the smooth stem which is herbaceous and has incised pinnate leaves)

11. 1700s:The Age of Carolus Linnaeus (born Carl von Linne) “Father of Modern Biological Classification” Standardized classification Binomial nomenclature (Genus species) Hierarchy: Kingdom, Phylum, Class, Order, Family, Genus, Species

12. 1700s:The Age of Carolus Linnaeus (born Carl von Linne) Based on phenetics shared physical characteristics does not take into account evolutionary relationships, fossils, embryology, behavior, etc. Solved “folk taxonomy” problem pill bug, sow’s ear, roly poly, sowbug becomes Armadillium vulgare

13. 1700s:The Age of Carolus Linnaeus (born Carl von Linne) 2 Kingdoms Plantae Animalia

14. 1700s-1800s: The Age of Microscopy Great advances in microscopes

15. 1700s-1800s: The Age of Microscopy Great advances in microscopes Ernst Haeckel adds 3rd Kingdom From 2 to 3 Kingdoms Protista (single-celled eukaryotes and prokaryotes) Plantae Animalia

16. Classification must reflect principle of common descent Haeckel coins term phylogeny (classification based on evolutionary relationships) “Tree of Life” born 1800s: The Age of Darwin

17. Early 1900s: The Cladistic Challenge Begins (& continues) Clade- group of organisms that share common characteristics and a common ancestor; phylogenetics Cladistic analysis- form hypotheses about organismal relationships and test by looking for evidence to support or refute

18. Early 1900s: The Cladistic Challenge Begins (& continues) Cladistic analysis rely on all available data (morphological, genetic, biochemical, fossil, behavioral, etc.) to test hypothesis distinguish monophyletic, paraphyletic, polyphyletic groups monophyletic- all members of group share common ancestor paraphyletic- some members of group share common ancestor polyphyletic- members do not share common ancestor Reorganize “Tree of Life” to reflect evolutionary relationships revealed by new evidence

19. 1950s: 3 to 4 to 5 Kingdoms 4 Kingdoms based on phenetics Monera (single-celled prokaryotes) Protista (single-celled eukaryotes) Plantae (mostly autotrophic, multicellular eukaryotes) Animalia (multicellular eukaryotes) (Herbert Copeland)

20. 1950s: 3 to 4 to 5 Kingdoms 5 Kingdoms based on phenetics Monera Protista Plantae Fungi Animalia (Robert Whittaker)

21. Mid-late 1900s: The Molecular Age Begins Molecular evolution Molecular clocks DNA and protein sequence comparisons cytochrome c protein sequence alignment

22. Mid-late 1900s: The Molecular Age Archaebacteria acknowledged as separate kingdom based on rRNA sequencing (both eukaryote- and prokaryote-like features)(both eukaryote- and prokaryote-like features) 6 Kingdoms Archaebacteria Eubacteria Protista Plantae Fungi Animalia Based on evolution and molecular genetics (Carl Woese, 1977)

23. Mid-late 1900s: The Molecular Age Kingdoms placed into 3 Domains based on molecular genetics (Carl Woese, 1990) 3 Domains Bacteria Archaea Eukarya

24. Mid-late 1900s: The Molecular Age Protista further subdivided; many members more like plants or animals than they are each other 8 Kingdoms (and maybe more) Archaebacteria Eubacteria Archaezoa Protista Chromista Plantae Fungi Animalia Based on evolution and molecular genetics

25. 2000 and beyond The Age of Phylogenomics Whole genome sequencing Genome comparisons reveal possible evolutionary relationships Corroborate horizontal gene transfer Is it “Tree of Life” or Ring of Life”??? Evidence suggests eukaryotes arose from fusion of archaebacteria with a photosynthetic bacteria Cladistic analysis continues

26. Biological systematics not set in stone, in flux It is a HYPOTHESIS!!! Phylogenetic trees vs. rings??? How many Kingdoms??? Textbooks disagree We will go with 8 Phyla being reshuffled New data becoming available all the time Hypothesis constantly revised accordingly Etc.