Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Parazoa-Eumetazoa dichotomy
Document related concepts
Animal locomotion wikipedia , lookup
Thermoregulation wikipedia , lookup
Animal communication wikipedia , lookup
Anatomical terms of location wikipedia , lookup
Body snatching wikipedia , lookup
Human embryogenesis wikipedia , lookup
Anatomical terminology wikipedia , lookup
Transcript
Introduction to Animal Evolution Define: animal Unique characteristics: Heterotrophic eukaryotes; ingestion Lack cell walls; collagen Nervous & muscular tissue Sexual; diploid; cleavage; blastula; gastrulation; larvae; metamorphosis Regulatory genes: Hox genes 4 5 6 Trend #1Multicellularity Monophyletic Group colonial flagellated protist ancestor=choanoflagellates Trend #1: Multicellularity Hypothesis for the evolution of animals from a colonial protist ancestor- 9 Trend #2: Symmetry and Tissue • Radial Symmetry: • Cnidaria (hydra; ‘jellyfish’; sea anemones) • Ctenophora (comb jellies)~ radial body symmetry Trend #2: Symmetry and Tissue Parazoa-Eumetazoa dichotomy: • sponges (Parazoa)~ no true tissues • all other animals (Eumetazoa)~ true tissues Diploblastic: Triploblastic: Endoderm Endoderm Ectoderm Mesoderm Ectoderm Eumetazoa Trend #3 Bilateral Symmetry, Internal Organs, Cephalization Trend #3 Bilateral Symmetry, Internal Organs, Cephalization • Bilateral Symmetry: – DORSAL – VENTRAL – ANTERIOR – POSTERIOR •Internal Organs •Cephalization -Progressive increase in nerve tissue at anterior end as organisms increase in complexity 15 16 Trend #4: Body Cavity Trend #4: Body Cavity • Gastrovascular Cavities (GUTS) are where food is digested, two openings designate a digestive tract • A body cavity is a fluid filled space separating the digestive tract from the outer body wall • Animals without a cavity between the digestive tract and the outer body wall are called ACOELOMATES Trend # 5: Coelom •Embryonic development in more advanced animals, a cavity called a coelom develops from tissue developed from mesoderm germ layer •Cushions internal organs, allows for expansion and contraction Trend # 5: Coelom • Acoelomate, Pseudocoelomate, and Coelomate Grades: • triploblastic animals~ solid body, no body cavity; called acoelomates (Platyhelminthesflatworms) • body cavity, but not lined with mesoderm; called pseudocoelomates (Rotifers, Nematodes) • true coelom (body cavity) lined with mesoderm; called coelomate 21 Trend # 6: Segmentation • Insects and Certain worms= segmented body parts • Some body parts repeat, others are adapted for specific functions (Trend #7: Jointed Appendages and Exoskeleton) • Skeleton on the outside, needs to be shed to grow • “Jointed foot”-legs, antennae, mouthparts Trend #8 Deuterostome Development • During early development of zygote, cell divisions, or cleavages occur • Specific cleavage patterns occur Protostome-Deuterostome dichotomy among coelomates: • protostomes (mollusks, annelids, arthropods) • 2 development patterns occur in two • groups of animals: deuterostomes (echinoderms, chordates) Trend #8 Deuterostome Development Protostome-Deuterostome dichotomy among coelomates: a) cleavage: protostomes~ spiral and determinate deuterotomes~ radial and indeterminate b) coelom formation: protostomes~ schizocoelous; deuterostomes~ enterocoelous c) blastopore fate: protostomes~ mouth from blastopore; deuterostomes~ anus from blastopore Trend # 9: Notochord Trend # 9: Notochord
