1 / 95

Lecture #8 – Introduction to Animal Structure and Function

Lecture #8 – Introduction to Animal Structure and Function. Key Concepts. What separates animals from other organisms? Introduction to structure and function relationships – the implications of being multicellular Hierarchical organization in animals Tissues Organ systems

zared
Télécharger la présentation

Lecture #8 – Introduction to Animal Structure and Function

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Lecture #8 – Introduction to Animal Structure and Function

  2. Key Concepts • What separates animals from other organisms? • Introduction to structure and function relationships – the implications of being multicellular • Hierarchical organization in animals • Tissues • Organ systems • Bioenergetics and metabolic rates

  3. What do all organisms have to do to make a living???

  4. What do organisms have to do to make a living??? • Acquire resources (food, water) • Eliminate waste products • Exchange metabolic gasses • Control internal conditions (homeostasis) • Control function • Control development • Reproduce (optional for individuals, essential for evolutionary success)

  5. What makes an animal an animal?

  6. What makes an animal an animal? • All are eukaryotic, multi-cellular, aerobic, and heterotrophic • Most are mobile – exceptions??? • Most are highly complex with many specialized organs – exceptions??? • Cells divide by cleavage • Excess carbohydrate stored as glycogen or converted to fats • Most engage in sexual reproduction, some also have asexual reproduction processes

  7. Structure and Function of Animal Systems • Focus on human biology, but will use comparative approach • Comparisons between animals of differing levels of complexity • We will correlate structure with function, at all levels of organization • Important theme in biology • Start with intro to basic principles • Then discussions of various organ systems

  8. Critical Thinking • Life has been on this planet for 3½ billion years! • Until about 700 million years ago, all organisms were______________? Table - the geological time scale

  9. It’s always fun to study the geological time scale – it reveals the history of life on earth What happened here???

  10. Critical Thinking • Life has been on this planet for 3½ billion years! • Until about 700 million years ago, all organisms were single celled!!! • The emergence of multi-cellularity allowed for organisms to adapt in complex ways to their environment • The migration to land promoted even more diversification – about 450 million years ago

  11. Multi-cellularity imposes limitations, too • In most multi-cellular organisms, not every cell is in contact with the external environment • Multi-cellular organisms develop complex morphologies that reflect their environment • Multi-cellular organisms develop complex mechanisms for resource/waste exchange with their environment • We saw these phenomena with plants – animals do the same thing

  12. Critical Thinking • Terrestrial plants use a tight epidermis and a waxy cuticle to retain water • What is the analogous structure in terrestrial animals???

  13. Critical Thinking • Terrestrial plants use a tight epidermis and a waxy cuticle to retain water • What is the analogous structure in terrestrial animals??? • The skin, and the oils that coat it • Structure and function are related, and are the product of each species’ long history of evolutionary adaptations

  14. Constraints On Size And Shape:The physical environment affects animal evolution – as it does with all organisms • Simple physics • Flight, soil burrowing, swimming for speed… • The physical environment • Dense water or soil, thin air • Often leads to convergent evolution of shape Images - convergent evolution of spindle-shaped swimmers

  15. Hands On • Think of some other adaptations to habitat, food sourceor predators • Name an animal – speculate on adaptive characteristics • What selection pressure might have resulted in a structure or function? • What structures or functions are phylogenetic?

  16. Constraints On Size And Shape:The necessity of exchange with the environment affects animal evolution…. • Resource/waste exchange with the environment • Diffusion at the surface was characteristic of the earliest animals • Limits size • Limits shape to thin, flat, open • Limits complexity • Mostly quite simple animals Diagram - 2 tissue layers in Cnidarians

  17. Most animals have much more complex exchange systems • Exchange occurs at internal epithelia • Huge surface area is characteristic • Fun factoids from humans: • Lungs have 100 m2 of surface area (about ½ as big as room) • Small intestine has surface area of a tennis court • 80 km of tubules in a single kidney • 100,000 km of blood vessels = almost 3x circumference of the earth

  18. Critical Thinking • How on earth do such large surface areas fit into our bodies???

  19. Critical Thinking • How on earth do such large surface areas fit into our bodies??? • Folding and branching! All these epithelial surfaces are highly convoluted Micrographs - lung and intestinal tissues Small Intestine Tissue

  20. Exchange with environment is not direct for most animals • Body is covered with waterproof surface • Complex organ systems exchange materials • Organ systems are linked together, but not usually directly • Most organ systems are separated by interstitial fluid = a water-based solution that surrounds all cells in the animal body • Transport occurs through the interstitial fluid

  21. Indirect exchange between organism and environment, and between organ systems Diagram - organization of organ systems showing indirect exchange through the interstitial fluid; same diagram on #29

  22. Critical Thinking • Do nutrients leap from our breakfast cereal to our cells??? • Why do animals need nutrients anyways???

  23. Critical Thinking • Do nutrients leap from our breakfast cereal to our cells??? • No – first they are extracted through digestion, then they diffuse to the cells through a fluid medium • Why do animals need nutrients anyways???

  24. Critical Thinking • Do nutrients leap from our breakfast cereal to our cells??? • No – first they are extracted through digestion, then they diffuse to the cells through a fluid medium • Why do animals need nutrients anyways??? • Same as with plants – to build the macro-molecules that make the animal “work”

  25. Exchange with environment is not direct for complex animals • Body is covered with waterproof surface • Complex organ systems exchange materials • Organ systems are linked together, but not usually directly • Organ systems are separated by interstitial fluid = a water-based solution that surrounds all cells in the animal body • Transport occurs through the interstitial fluid

  26. Indirect exchange between organ systems occurs via the interstitial fluid one big exception: the Malpighianexcretory tubules in insects are directly connected to the digestive tract

  27. All complex organisms have a hierarchical organization Diagram - cells - organism in a zebra • Cells • Tissues • Organs • Organ systems • Organism Form Reflects Function!!!

  28. Critical Thinking • Think of your heart, or this zebra’s – how are structure and function related???

  29. Critical Thinking • Think of your heart, or this zebra’s – how are structure and function related??? • Stretchy chambers to “store” blood • Muscular chambers to “pump” blood • Connected to vessels • Result = circulation!!! Yes, it really is often that simple and elegant

  30. Form and function are correlated from cells  whole organism • We learned about cells in 111…. • Cells • Tissues • Organs • Organ systems • Organism Let’s talk about tissues!!!

  31. Four major tissue types –read more in text Diagram – tissue types

  32. Epithelial Tissues • Sheets of cells that cover the body surfaces and line many of the internal organs • Base of epithelial tissue is attached to a basement membrane • The free (exposed) surface has cells that are either cuboidal, columnar or squamous (tile shaped) • Shape reflects function! • Some epithelia waterproof, some leak, some secrete, some slough off….

  33. Epithelial tissues Diagram – sub-types of epithelial tissues Which do you think are waterproof??? Which leaky??? Which secrete??? Which slough off???

  34. Connective Tissues • Cells held in a fibrous or fluid extra-cellular matrix • Matrix generally secreted by the cells • Many types and sub-types of connective tissue • Loose – bind and shape • Adipose – store fat • Fibrous – strong connections • Cartilage – cushions • Bone – support system • Blood – connects tissues to resources

  35. Critical Thinking • What makes the “bones” of plants???

  36. Critical Thinking • What makes the “bones” of plants??? • Lignin gives rigid structure • Cellulose allows positive pressure to build to keep cells plump • Ground tissue gives additional structure to herbaceous plants

  37. Critical Thinking • How about the blood???

  38. Critical Thinking • What makes the “blood” of plants??? • Resources are transported in the vascular tissues • Some are “circulated” in phloem

  39. Muscle Tissue • Composed of cells that can contract • Skeletal = enable movement, attached to bones by tendons • Voluntary = under conscious nervous system control • Cardiac = forms the heart • Involuntary • Smooth or visceral = surround the digestive tract, other organs • Involuntary

  40. Nervous Tissue • Transmits messages from one part of body to another • Nerve cells have a central cell body + appendages that carry messages toward or away from the cell (dendrites/axons) • Appendages may be a meter long in humans!

  41. Critical Thinking • Do all animal tissue types have directly analogous tissue types in plants??? • Epithelial??? • Connective??? • Muscle??? • Nervous???

  42. Critical Thinking • Do all animal tissue types have directly analogous tissue types in plants??? • Epithelial – certainly, though not internal • Connective –sort of (vascular, ground) • Muscle – not really – remember plants “move” by growing, other motions are related to water potential changes • Nervous – no – plants respond primarily based on chemical signals

  43. Organs • Composed of two or more types of tissues organized into a functional unit • Tissues are often in layers, or they may be integrated throughout the organ • Stomach has layers of epithelial, connective, muscle • Skin has layers of epithelial, connective, muscle • All tissues have blood vessels and nerve tissues integrated

  44. Most animals have body cavities • These are fluid filled spaces that cushion and suspend organs • Sometimes they also give the body shape • In vertebrates, many organs are held in place in the body cavity by layers of connective tissues (mesenteries) and sheets of muscle (diaphragm) Diagram – body cavities

  45. Organ Systems: groups of related organs that maintain various body functions • Complex organ systems are present in most animals • All organ systems are interdependent • Functions are coordinated (ex: digestive + vascular) • All systems work together to maintain homeostasis (~constant internal conditions, more on this later)

  46. Organ Systems:most complex animals have 11 major organ systems – image search for a table like this one Table – all the organ systems found in a complex animal

  47. Diagrams – closeups of the major organ systems; similar diagrams on next 4 slides Digestive Circulatory

  48. Respiratory Immune

  49. Nervous Excretory

  50. Reproductive Endocrine

More Related