Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Coelomate
Document related concepts
Transcript
Extant How Many Kingdoms? 8 5 3 Extinct 2 1 Original Cell Animal Features • • • • • • • • • Multicellular Eukaryotes Heterotrophic Ingestion Collagen Protein Connections Nerve and Muscle Tissues Diplontic (Gametic) Life History Gametes Oogamous with Flagellated Sperm Zygote to Blastula, perhaps Gastrulation Larval metamorphosis into Adult Ontogeny Recapitulating Phylogeny Animals Domain Eukarya Kingdom Animalia Phylum Nematoda http://creatures.ifas.ufl.edu/nematode/nem_fig1.jpg Nematode Body Organization http://www.ua.es/dpto/dcarn/fitopatologia/Images/Celegans1.jpg http://www.ucmp.berkeley.edu/phyla/ecdysozoa/nematodexssm.gif days at 20°C vulva anus mouth http://www.esa.int/export/images/Ce_400.jpg embryo in shell of zygote http://www.apsnet.org/education/feature/Celegans/Images/fig5.JPG http://ucdnema.ucdavis.edu/imagemap/nemmap/Ent156html/nemas/c-elegans.gif Caenorhabditis elegans is a bacteriovorous soil nematode, feeds on E. coli in vitro, is a genetic model organism, its genome is sequenced. N=6 protandrous XX=hermaphrodite XO=male Life cycle: 3 meiosis syngamy protandrous http://nema.cap.ed.ac.uk/Caenorhabditis/C_elegans_genome/celeganslifecycle.jpg Animals Domain Eukarya Kingdom Animalia Phylum Annelida Lumbriculus variegatus : California mudworm This is an aquatic oligochaete annelid Mouth feeds in sediments Tail extends toward water surface for gas exchange Body walls nearly transparent for easy observation For example: may count pulses of blood in dorsal vessel http://www.westminster.net/faculty/cobler/Lumbriculus%20variegatus.jpg Lumbricus terrestris: Canadian nightcrawler or Earthworm clitellum mouth anus http://iris.cnice.mecd.es/biosfera/alumno/1bachillerato/animal/imagenes/nervio/lumbricus.jpg edge of ventral reproductive structures The earthworm body is fundamentally segmented. Here is a typical segment: Each segment is filled with coelomic fluid, under some pressure, which provides “stiffness.” The segments near the head are specialized for other physiological functions. http://www.mun.ca/biology/scarr/142003_Annelida.jpg Major Organ Systems in an Earthworm Excretory: Reproductive: Circulatory: Male Gases, Digestive: Female Nutrients, Food Intake Wastes Nutrient Absorption Muscular: Movement Dermal: Gas Exchange Nervous: Sensory and Coordination http://www.esu.edu/~milewski/intro_biol_two/lab__12_annel_arthro/images/lumbr_diagr_dissection.jpg http://myhome.naver.com/c65hoi5/c3/c33236.jpg http://www.student.loretto.org/zoology/phylum_annelida.htm Characteristics • More than 100 segments • Segments separated by partitions that divide coelom • Segments identical except when specialized and fused • Anterior and posterior ends • Cephalization specialized for burrowing • Head contains sense organs • Circular and longitudinal muscles 1 2 3 4 5 6 7 8 9 10 11 12 13 Mouth Prostomium Segment Spermathecal openings Female (oviduct) opening Male (vas deferens) opening Sperm groove Papilla Clitellum (saddle) Paired setae (ventro-lateral) Anus Dorsal surface Ventral surface http://www.student.loretto.org/zoology/Graphic%20webs/Earthworm-%20external%20form.htm http://www.student.loretto.org/zoology/phylum_annelida.htm Movement • Setae anchored during movement • Circular muscles contract • Hydrostatic pressure increases in anterior coelomic cavities • Body elongates pushing head forward • Anterior setae grip ground • Longitudinal muscles contract--posterior pulled along • Coelomic divisions allow simultaneous contraction and expansion of segments A B 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 External view Section through segment Coelom Circular muscle Cuticle Intestine Dorsal blood vessel Typhlosole Epidermis Nephridium Longitudinal muscle Seta Protractor muscle Retractor muscle Ventral nerve cord Subneural vessel Ventral vessel Septum http://www.student.loretto.org/zoology/Graphic%20webs/Earthworm-%20muscle%20system.htm http://www.student.loretto.org/zoology/phylum_annelida.htm Nervous • Sensitive to tough, light, moisture, chemicals, temperature, and vibrations • Light receptors on head and tail--sense direction • Most sense organs and nerves control muscle contractions in individual segments • Pair of ganglia in each segment coordinate movement with adjacent segments • Cerebral ganglion in head controls total body • Ventral nerve cord connects brain with ganglia 1 2 3 4 5 6 7 8 9 10 11 12 13 Anus Intestine Cerebral ganglion Prostomium Mouth Nerve collar Segmental ganglion Pharynx Esophagus Segmental nerve Crop Gizzard Ventral nerve cord http://www.student.loretto.org/zoology/Graphic%20webs/Earthworm-%20digestive%20and%20nervous%20systems.htm http://www.student.loretto.org/zoology/phylum_annelida.htm Feeding • Feed on organic matter in soil • Digest organic matter • Wastes and undigested soil eliminated as casting • Loosens and aerates soil Digestion • Soil sucked in by pharynx -> esophagus -> crop (storage) -> • gizzard (grinds soil releasing organic matter) -> • intestine (nutrients absorbed) 1 2 3 4 5 6 7 8 9 10 11 12 13 Anus Intestine Cerebral ganglion Prostomium Mouth Nerve collar Segmental ganglion Pharynx Esophagus Segmental nerve Crop Gizzard Ventral nerve cord http://www.student.loretto.org/zoology/Graphic%20webs/Earthworm-%20digestive%20and%20nervous%20systems.htm http://www.student.loretto.org/zoology/phylum_annelida.htm Circulation • Transport oxygen, nutrients, and wastes • Flow of blood toward posterior via ventral blood vessel • Flow of blood toward anterior via dorsal blood vessel • 5 pair of aortic arches link vessels near anterior • Smaller vessels branch into segments • Contraction of ventral vessel and aortic arches forces blood through body 1 2 3 4 5 6 7 8 Anus Dorso-subneural vessel Intestine Dorsal vessel Hearts (aortic arches) Mouth Ventral vessel Subneural vessel http://www.student.loretto.org/zoology/Graphic%20webs/Earthworm-%20circulatory%20system.htm http://www.student.loretto.org/zoology/phylum_annelida.htm Gas Exchange • Lack gills or lungs--oxygen and carbon dioxide diffuse across skin • Requires moist skin, thin cuticle, mucus secretion…limits habitat! Excretion • Elimination of nitrogen wastes • Long tubules (nephridia) excrete wastes • Coelomic fluid enters nephridium through ciliated funnel opening • Some water reabsorbed by blood • Remaining fluid excreted through ventral pores A External view B Excretory system (nephridium) C-D Reproductive system C Lateral view D Dorsal view 1 Nephrostome 2 Septum 3 Ciliated tube 4 Bladder 5 Nephridiopore 6 Body wall QuickTime™ and a TIFF (LZW) decompressor are needed to see this picture. http://www.student.loretto.org/zoology/Graphic%20webs/Earthworm-%20excretory%20and%20reproductive%20systems.htm http://www.student.loretto.org/zoology/phylum_annelida.htm Reproduction • Hermaphrodites--cannot self fertilize • Worms join head to tail • Form mucus coat around bodies--each inject sperm into mucus • Sperm move to seminal receptacle • Eggs move through oviducts to female genital pore • Clitellum secretes mucus and chitinous sheath • Worm wiggles to slip off sheath • Eggs and sperm join A External view B Excretory system (nephridium) C-D Reproductive system C Lateral view D Dorsal view 1 Nephrostome 2 Septum 3 Ciliated tube 4 Bladder 5 Nephridiopore 6 Body wall 7 Seminal vesicle 8 Testis 9 Egg sac 10 Male opening 11 Female opening 12 Oviduct 13 Ovary 14 Sperm duct (vas deferens) 15 Opening to sperm-receiving sac 16 Sperm-receiving sac (spermatheca) http://www.student.loretto.org/zoology/Graphic%20webs/Earthworm-%20excretory%20and%20reproductive%20systems.htm http://biog-101-104.bio.cornell.edu/BioG101_104/tutorials/animals/worm_stuff/worm_ventral.html http://sps.k12.ar.us/massengale/images/worms_mating.jpg http://sps.k12.ar.us/massengale/earthworm_dissection.htm Animals probably evolved from a flagellated protist similar to the choanoflagellates flagellum One step in this evolution is to become colonial. collar Here are the choanocytes cell body of one of the simplest of sponges. Basically the most primitive animals. http://192.171.163.165/pil/Choanoflagellate_spp..jpg Of course the other required step is to eliminate the chloroplasts of the choanoflagellate (Chrysophyta!). QuickTime™ and a TIFF (LZW) decompressor are needed to see this picture. http://ebiomedia.com/downloads/sponges.pdf Evolution of Body Organization Sponge, Cnidarian spongocoel Planarian Ectoderm Endoderm Mesoderm 2-layered 3-layered Acoelomate gastrovascular cavity Nematode pseudocoelom digestive tract Annelid Pseudocoelomate Coelomate coelom Development or Evolution? zygote cleavage QuickTime™ and a TIFF (LZW) decompressor are needed to see this picture. blastula QuickTime™ and a TIFF (LZW) decompressor are needed to see this picture. 2-layered acoelomate body plan Origin of Mesoderm Cnidarians blastocoel QuickTime™ and a TIFF (LZW) decompressor are needed to see this picture. Platyhelminthes Nematoda Annelida Mollusca Arthropoda Protostome Phyla archenteron Echinodermata Hemichordata Chordata Deuterostome Phyla (except vertebrates) QuickTime™ and a TIFF (LZW) decompressor are needed to see this picture. blastopore mouth QuickTime™ and a TIFF (LZW) decompressor are needed to see this picture. mouth anus The Animal Clade Extant deuterostomia protostomia acoelomates radiata pseudocoelomates bilateria parazoa eumetazoa (true tissues) loss of chloroplast, colonial organization Ancestral Choanoflagellate coelomates This cladogram omits several smaller animal phyla!
