Animal Diversity. Features shared by all animals. Animals are multicellular, heterotrophic eukaryotes with tissues that develop from embryonic layers
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1 Animal Diversity Animals are multicellular, heterotrophic eukaryotes with tissues that develop from embryonic layers Nutritional mode Ingest food and use enzymes in the body to digest Cell structure and Specialization Multicellular eukaryotes; no cell wall Nervous and muscle tissue Reproduction and Development Most reproduce sexually; diploid stage dominates life Development stages: Sperm and egg join to form zygote Cleavage occurs to form blastula Gastrulation occurs allowing the embryonic tissues to develop into adult body parts to be produced resulting in a gastrula Humans develop directly into adults Larva can form and undergo metamorphosis Features shared by all animals Nutritional Mode Animals are heterotrophs that ingest their food Cell Structure and Specialization Animals are multicellular eukaryotes Their cells lack cell walls Their bodies are held together by structural proteins such as collagen Nervous tissue and muscle tissue are unique, defining characteristics of animals Tissues are groups of cells that have a common structure, function, or both 1
2 Figure Reproduction and Development Most animals reproduce sexually, with the diploid stage usually dominating the life cycle After a sperm fertilizes an egg, the zygote undergoes rapid cell division called cleavage Cleavage leads to formation of a multicellular, hollow blastula The blastula undergoes gastrulation, forming a gastrula with different layers of embryonic tissues Zygote Cleavage Eight-cell stage Cleavage Blastula Blastocoel Cross section of blastula Cross section of gastrula Gastrulation Blastocoel Endoderm Ectoderm Archenteron Blastopore Many animals have at least one larval stage A larva is sexually immature and morphologically distinct from the adult; it eventually undergoes metamorphosis A juvenile resembles an adult, but is not yet sexually mature Most animals, and only animals, have Hox genes that regulate the development of body form Although the Hox family of genes has been highly conserved, it can produce a wide diversity of animal morphology This ancestor may have resembled modern choanoflagellates, protists that are the closest living relatives of animals OTHER EUKARYOTES Animals Choanoflagellates Sponges Other animals Individual choanoflagellate Collar cell (choanocyte) The history of animals spans more than half a billion years Neoproterozoic Era (1 Billion 542 Million Years Ago) Early members of the animal fossil record include the Ediacaran biota, which dates from 565 to 550 million years ago 1.5 cm 0.4 cm Paleozoic Era ( Million Years Ago) The Cambrian explosion (535 to 525 million years ago) marks the earliest fossil appearance of many major groups of living animals There are several hypotheses regarding the cause of the Cambrian explosion and decline of Ediacaran biota New predator-prey relationships A rise in atmospheric oxygen The evolution of the Hox gene complex (a) Mawsonites spriggi (b) Spriggina floundersi 2
3 Animal diversity continued to increase through the Paleozoic, but was punctuated by mass extinctions Animals began to make an impact on land by 460 million years ago Vertebrates made the transition to land around 360 million years ago Mesozoic Era ( Million Years Ago) Coral reefs emerged, becoming important marine ecological niches for other organisms The ancestors of plesiosaurs were reptiles that returned to the water During the Mesozoic era, dinosaurs were the dominant terrestrial vertebrates The first mammals emerged Flowering plants and insects diversified Cenozoic Era (65.5 Million Years Ago to the Present) The beginning of the Cenozoic era followed mass extinctions of both terrestrial and marine animals These extinctions included the large, nonflying dinosaurs and the marine reptiles Mammals increased in size and exploited vacated ecological niches The global climate cooled Animals can be categorized according to the symmetry of their bodies, or lack of it Some animals have radial symmetry, with no front and back, or left and right Two-sided symmetry is called bilateral symmetry Bilaterally symmetrical animals have A dorsal (top) side and a ventral (bottom) side A right and left side Anterior (head) and posterior (tail) ends Cephalization, the development of a head Animals can be characterized by body plans Figure 32.7 (a) Radial symmetry Ectoderm- outer layer Endoderm- lining of digestive tract and organs Diploblastic animals have only 2 germ layers Cnidarians All bilaterally symmetrical animals have mesoderm (triploblastic) (b) Bilateral symmetry Tissues 3
4 Figure 32.8 (a) ate Most triploblastic animals possess a body cavity A true body cavity is called a coelom and is derived from mesoderm ates are animals that possess a true coelom A pseudocoelom is a body cavity derived from the mesoderm and endoderm Triploblastic animals that possess a pseudocoelom are called pseudocoelomates Triploblastic animals that lack a body cavity are called acoelomates (b) Pseudocoelomate Digestive tract Pseudocoelom Digestive tract Tissue layer lining coelom and suspending internal organs (from mesoderm) Muscle layer (from mesoderm) Body Cavities (c) Acoelomate Wall of digestive cavity Tissuefilled region (from mesoderm) (a) Cleavage Protostome development (examples: molluscs, annelids) Eight-cell stage Deuterostome development (examples: echinoderms, chordates) Eight-cell stage (b) formation (c) Fate of the blastopore Spiral and determinate Radial and indeterminate Archenteron Mesoderm Blastopore Blastopore Mesoderm Solid masses of mesoderm Folds of archenteron split and form coelom. form coelom. Zoologists recognize about three dozen animal phyla Phylogenies now combine morphological, molecular, and fossil data Key Ectoderm Mesoderm Endoderm develops from blastopore. Digestive tube Protostome and Deuterostome Development develops from blastopore. New views of animal phylogeny are emerging from molecular data ANCESTRAL COLONIAL FLAGELLATE Metazoa Eumetazoa Bilateria Deuterostomia Protostomia Porifera Cnidaria Ctenophora Ectoprocta Brachiopoda Echinodermata Chordata Platyhelminthes Rotifera Mollusca Annelida Arthropoda Nematoda ANCESTRAL COLONIAL FLAGELLATE Metazoa Eumetazoa Bilateria Deuterostomia Lophotrochozoa Ecdysozoa Porifera Ctenophora Cnidaria Acoela Echinodermata Chordata Platyhelminthes Rotifera Ectoprocta Brachiopoda Mollusca Annelida Nematoda Arthropoda Points of Agreement 1. All animals share a common ancestor 2. Sponges are basal animals 3. Eumetazoa is a clade of animals (eumetazoans) with true tissues 4. Most animal phyla belong to the clade Bilateria, and are called bilaterians 5. Chordates and some other phyla belong to the clade Deuterostomia 4
5 Progress in Resolving Bilaterian Relationships The morphology-based tree divides bilaterians into two clades: deuterostomes and protostomes In contrast, recent molecular studies indicate three bilaterian clades: Deuterostomia, Ecdysozoa, and Lophotrochozoa Ecdysozoans shed their exoskeletons through a process called ecdysis Some lophotrochozoans have a feeding structure called a lophophore Others go through a distinct developmental stage called the trochophore larva Lophophore Apical tuft of cilia (a) Lophophore feeding (b) Structure of a trochophore structures of an ectoproct larva 5
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