1 / 17

Lecture 1: Introduction to Animal Behavior & Lecture 2: Ethology

Lecture 1: Introduction to Animal Behavior & Lecture 2: Ethology. Lecture outline. Introduction to course (schedule, policies, etc…) Four categories of questions addressed in animal behavior studies Origins of animal behavior as a field of study The Ethological approach

imartinez
Download Presentation

Lecture 1: Introduction to Animal Behavior & Lecture 2: Ethology

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 1: Introduction to Animal Behavior&Lecture 2: Ethology

  2. Lecture outline • Introduction to course (schedule, policies, etc…) • Four categories of questions addressed in animal behavior studies • Origins of animal behavior as a field of study • The Ethological approach • Review: Principles of Evolution • Ethological methods • Key concepts in ethology

  3. Four categories of questions (Niko Tinbergen, 1963) • What are the mechanisms that cause a behavior? • How does a particular behavior develop (within the individual’s lifetime)? • What is its survival value? (current) • What’s the “working hypothesis”? Is it necessarily true? • Why did it evolve? (past)

  4. Origin of animal behavior as a field of study • Ethology • Evolutionary perspective • Primarily field-based • Wide range of animals studied • Psychology • Mechanistic/Developmental perspective • Primarily lab-based • Focused primarily on mammals

  5. Ethology: Review of Principles of Evolution • Evolution: Change in the frequency of alleles /genotypes in the population over time (>1 generation) • Adaptation: A phenotypic trait that helps an individual survive/reproduce • Genotype vs. phenotype: What is the difference?

  6. Ethology: Review of Principles of Evolution (cont.) • Natural selection: Differential reproduction of genotypes leads to persistence of those genotypes that enable an individual to survive/reproduce most effectively. • Example: Change in antibiotic resistance of the tuberculosis bacterium. • Only traits that are variable and inheritable are subject to natural selection. • Example: Rabbit camouflage • Where does variability come from?

  7. Maintenance of non-adaptive traits • Pleiotropy: Multiple effects of a single gene • Linkage: Gene for non-adaptive trait located near gene for highly adaptive trait • Gene flow: Populations in different environments move between habitats, may interbreed • Ex: Funnel-web spiders • Time lag: Non-adaptive traits are being selected against, but are not yet completely gone

  8. Ethological methods • Comparative approach • Overall concept: Behavioral differences among related species are due to environmental differences • Example: Comparisons of ground-nesting and cliff-nesting gull species (Esther Cullen, 1957) • NOTE: More details of this study in Signs and Signals video • Benefits of this approach • Be able to explain… • Limitations of this approach • Be able to explain…

  9. Ethological methods (cont.) • Experimental approach • Overall concept: manipulate variables in field or lab and observe/measure consequences. • Examples: “Classical” experiments in Signs and Signals video Wednesday (studies by Karl von Frisch, Niko Tinbergen and Konrad Lorenz) • Benefits of this approach • Be able to explain… • Limitations of this approach • Be able to explain…

  10. Key concepts in ethology • Fixed action patterns • Can be initiated by environmental stimulus, but proceed to completion • Ex: graylag goose egg-rolling behavior • Occur in unalterable (stereotyped) sequence • Minor alterations may occur • Are not learned (are innate) • Can be triggered inappropriately • Ex: stickleback response to unrealistic models, etc. • Performed by all appropriate members of a species

  11. Key concepts in ethology (cont.) • Sign stimuli and releasers • Function: Serve to trigger the FAP • Example: Attack behavior in stickleback males

  12. Key concepts in ethology (cont.) • Sign stimuli and releasers (cont.) • Supernormal stimuli • Examples… • Mimicry • Examples… • Role of motivation

  13. Key concepts in ethology (cont.) • Chain of reaction • Sequence of events • Example: stickleback courtship • Each behavior of one partner serves as a sign stimulus for the other partner

  14. Extension of Evolutionary Theory: Insights into complex behaviors • Optimal strategies: Maximize difference between benefit and cost • Example: TIME SPENT FORAGING • BENEFIT: Gains energy and nutrients • COSTS: • Risk of predation • Energy of dealing with competitors • Energy and time expended in search for and processing food

  15. Difficulties of determining and testing what is “optimal”: Must consider how the behavior affects lifetime fitness • But cost/benefit analyses often done in short-term • Easy to run short-term experiments • Various aspects of the behavior converted to manageable units such as “energy” • Often mismatches between short-term and long-term studies. Why?

  16. Extension of Evolutionary Theory: Insights into complex behaviors (cont.) • Evolutionarily stable strategies: Two or more strategies may be equivalent in terms of fitness, so that all such strategies are maintained at particular frequencies (proportions) in the population. • Imbalances are self-correcting • Example: Two different strategies of male salmon (Coho, King, Atlantic, others)

  17. Description of the two types of males and their different strategies • Costs and benefits of each strategy considered separately • Key: Maximize number of offspring in lifetime! • How the ratios of these strategies are “self-correcting” • What if the proportion of large males increases? • What if the proportion of jacks or precocious par (small males) increases?

More Related