SATP-2 KINGDOM ANIMALIA part 3
... Animal Adaptations Adaptation - any characteristic that improves an organism's chance of survival ...
... Animal Adaptations Adaptation - any characteristic that improves an organism's chance of survival ...
Animal Evolution and Diversity KEY CONCEPTS
... Within major groups of animals, evolutionary diversification was based on innovative ways of feeding and moving. Most animals get nutrients by eating other organisms, and most animals move under their own power at some point in their life cycle. ...
... Within major groups of animals, evolutionary diversification was based on innovative ways of feeding and moving. Most animals get nutrients by eating other organisms, and most animals move under their own power at some point in their life cycle. ...
Topic 10 BIOL1030NR
... C. no cnidocytes; some use tentacles to capture prey D. move using comb-like plates of fused cilia (largest animals to use cilia for locomotion) ...
... C. no cnidocytes; some use tentacles to capture prey D. move using comb-like plates of fused cilia (largest animals to use cilia for locomotion) ...
Topic 10 BIOL1030NR
... 5. pseudocoelomate – have fluid-filled cavity (pseudocoel) between mesoderm and endoderm 6. coelomate – have fluid-filled cavity (coelom) within mesoderm and surrounded by mesodermal tissue ...
... 5. pseudocoelomate – have fluid-filled cavity (pseudocoel) between mesoderm and endoderm 6. coelomate – have fluid-filled cavity (coelom) within mesoderm and surrounded by mesodermal tissue ...
Chapter 8
... and eukaryotes. In contrast to autotrophic nutrition of plants and algae, animals must take into their bodies preformed organic chemicals. Animals can do this by ingestion-eating other organisms or organic material that is decomposing ...
... and eukaryotes. In contrast to autotrophic nutrition of plants and algae, animals must take into their bodies preformed organic chemicals. Animals can do this by ingestion-eating other organisms or organic material that is decomposing ...
Diversity of Organisms and Classification
... food from solar energy or chemicals Heterotrophic: an organism that must eat other organisms to obtain it’s energy ...
... food from solar energy or chemicals Heterotrophic: an organism that must eat other organisms to obtain it’s energy ...
Study Guide
... a. dermal tissue and vascular tissue. c. nervous tissue and muscle tissue. b. vascular tissue and nervous tissue. d. muscle tissue and ground tissue. _____ 3. Scientists infer that the first invertebrates evolved from a. simple vertebrates. c. loosely connected fungi. b. large groups of bacteria. d. ...
... a. dermal tissue and vascular tissue. c. nervous tissue and muscle tissue. b. vascular tissue and nervous tissue. d. muscle tissue and ground tissue. _____ 3. Scientists infer that the first invertebrates evolved from a. simple vertebrates. c. loosely connected fungi. b. large groups of bacteria. d. ...
Animals Notes - Biology Junction
... All animals have outer ectoderm and inner endoderm – Diploblastic Animals with bilateral symmetry have 3 layers – Triploblastic Diploblastic Animals – Cnidarians Triploblastic Animals – all worms, arthropods, mollusks, echinoderms, & vertebrates 1. Ectoderm – exterior layer of tissue a. Develops int ...
... All animals have outer ectoderm and inner endoderm – Diploblastic Animals with bilateral symmetry have 3 layers – Triploblastic Diploblastic Animals – Cnidarians Triploblastic Animals – all worms, arthropods, mollusks, echinoderms, & vertebrates 1. Ectoderm – exterior layer of tissue a. Develops int ...
Invertebrate Evolution
... Larvae and adult with different roles Only adults can reproduce or have functional wings Food sources differ enhances adaptability ...
... Larvae and adult with different roles Only adults can reproduce or have functional wings Food sources differ enhances adaptability ...
Parade of Kingdoms musical chairs
... 15. Which of these gives rise to an animal’s integumentary and nervous systems? ...
... 15. Which of these gives rise to an animal’s integumentary and nervous systems? ...
Name Class Date SECTION 32-1 Study Guide THE NATURE OF
... a. dermal tissue and vascular tissue. c. nervous tissue and muscle tissue. b. vascular tissue and nervous tissue. d. muscle tissue and ground tissue. _____ 3. Scientists infer that the first invertebrates evolved from a. simple vertebrates. c. loosely connected fungi. b. large groups of bacteria. d. ...
... a. dermal tissue and vascular tissue. c. nervous tissue and muscle tissue. b. vascular tissue and nervous tissue. d. muscle tissue and ground tissue. _____ 3. Scientists infer that the first invertebrates evolved from a. simple vertebrates. c. loosely connected fungi. b. large groups of bacteria. d. ...
Organisms in Their Environment Notes
... If you remove an animal from a food chain it would affect the organisms above and below it in the chain. First it would affect their food source or prey. Their prey would increase in numbers because the lost animal would not be there to eat it. Other animals which eat this prey would have more to ea ...
... If you remove an animal from a food chain it would affect the organisms above and below it in the chain. First it would affect their food source or prey. Their prey would increase in numbers because the lost animal would not be there to eat it. Other animals which eat this prey would have more to ea ...
Animals: Invertebrates
... antiseptic & ________________ components that allow them to feed on the host’s blood ...
... antiseptic & ________________ components that allow them to feed on the host’s blood ...
CH 29 Review Answer Key
... 1. Radially symmetrical animals, that aren’t sessile, generally float about and/or pulse their bodies to move or drift in the water. Bilaterally symmetrical animals, that are not parasites, free swim in the direction of their heads. The notable exception to this is the hydra which somersaults along ...
... 1. Radially symmetrical animals, that aren’t sessile, generally float about and/or pulse their bodies to move or drift in the water. Bilaterally symmetrical animals, that are not parasites, free swim in the direction of their heads. The notable exception to this is the hydra which somersaults along ...
Section 26.1 Summary – pages 693-697
... 1. Which of these animals are called fish, but really aren’t? 2. Which of these animals are not called fish, but really are? 3. How does the body plan of a fish differ from that of the other animals pictured? ...
... 1. Which of these animals are called fish, but really aren’t? 2. Which of these animals are not called fish, but really are? 3. How does the body plan of a fish differ from that of the other animals pictured? ...
Species found in the trip:
... normal spiders. They kill prey by secreting fluid from their stink glands. With regard to the number of legs they posses, each apparent body segment is actually composed of two adjacent segments fused together, so there is in fact only one pair if legs per body segment. ...
... normal spiders. They kill prey by secreting fluid from their stink glands. With regard to the number of legs they posses, each apparent body segment is actually composed of two adjacent segments fused together, so there is in fact only one pair if legs per body segment. ...
Jenna, Mick, Andrew, Lindsey
... of 50 to spread the work of protecting and caring for young or more and the males will live in all male packs to help exclude other individuals other individuals from their territory. Other carnivorous animals that live in a clumped distribution would increase their effectiveness in hunting by livin ...
... of 50 to spread the work of protecting and caring for young or more and the males will live in all male packs to help exclude other individuals other individuals from their territory. Other carnivorous animals that live in a clumped distribution would increase their effectiveness in hunting by livin ...
LECTURE OUTLINE
... The comparison of the marine clam worm with the terrestrial earthworm highlights the manner in which earthworms are adapted to life on land. Leeches Leeches have no setae and each body ring has several transverse grooves. Among their modifications are two suckers. 30.5 Arthropods: Jointed Appendages ...
... The comparison of the marine clam worm with the terrestrial earthworm highlights the manner in which earthworms are adapted to life on land. Leeches Leeches have no setae and each body ring has several transverse grooves. Among their modifications are two suckers. 30.5 Arthropods: Jointed Appendages ...
Class
... 4-The bottom surface contains the mouth, many black spines (which trap food), and the cilia (small) hairs that help direct food into the mouth. 5- Sand Dollars have tiny tube feet that are used as gills. 6- The holes on the top surface are where the eggs and sperm are ...
... 4-The bottom surface contains the mouth, many black spines (which trap food), and the cilia (small) hairs that help direct food into the mouth. 5- Sand Dollars have tiny tube feet that are used as gills. 6- The holes on the top surface are where the eggs and sperm are ...
Animal locomotion
Animal locomotion, in ethology, is any of a variety of movements that results in progression from one place to another. Some modes of locomotion are (initially) self-propelled, e.g. running, swimming, jumping, flying, soaring and gliding. There are also many animal species that depend on their environment for transportation, a type of mobility called passive locomotion, e.g. sailing (some jellyfish), kiting (spiders) and rolling (some beetles and spiders).Animals move for a variety of reasons, such as to find food, a mate, a suitable microhabitat, or to escape predators. For many animals, the ability to move is essential for survival and, as a result, natural selection has shaped the locomotion methods and mechanisms used by moving organisms. For example, migratory animals that travel vast distances (such as the Arctic tern) typically have a locomotion mechanism that costs very little energy per unit distance, whereas non-migratory animals that must frequently move quickly to escape predators are likely to have energetically costly, but very fast, locomotion.