Details of this Paper

BIO - Study Guide for the Second Mid-term Exam




Question;The following questions are provided to help you anticipate the level of detail to be examined. The inclusion of a question here is no guarantee that it will appear on the midterm or final exam. You should also use the questions and chapter reviews at the end of each chapter. Lecture 11. Vertebrates. Review the sections on vertebrates in Campbell chapters 23, 27: especially p. 536-, 542-, and the lecture notes. You should be familiar with all terms printed in bold in the text or defined on the slides. Name the major characteristics of chordates? List the distinguishing characteristics of each of the classes of vertebrates Draw a simple phylogenetic tree indicating how five classes (major clades] of living vertebrates are related. What evidence indicates that birds are descendents of dinosaurs? Describe the circumstances that appear to have led to mammal ascendancy and radiation. Describe the four embryonic membranes surrounding the embryos of dinosaurs and birds Draw a simple phylogenetic diagram showing the relationships of five major groups of living amniotes, at least two should be exclusively endothermic. Lectures 12-15. Population ecology Lectures 16-17 on energetics and biogeochemical cycles Lectures 19-21 on community ecology and biogeography See the syllabus for the relevant chapters in Campbell and study the lecture notes. Again, you should understand the terms and the examples used in the text and lectures. Also review the population problems worked through in Sections. There is not enough time to test your arithmetic problem solving ability in the Midterm as calculators are not allowed so any numerical problems will be basic. What equation would you use to project the growth rate of a population of an annual plant like ragweed, which breeds once and then dies leaving only seeds to overwinter? A group of 10 freshwater snails invade a new lake where conditions are ideal and predators are absent. The snails grow and reproduce continuously, multiplying at a rapid rate: r = 0.01 per day. What formula would you employ to predict how long it will take for the population to triple in size? The numerical solution of this problem is approximately? Be sure to state the units in which your answer is expressed.A group of four juvenile snails are introduced to a new lake by a duck with mud on its feet. The lake provides an idea habitat and the snails grow and reproduce continuously, their intrinsic rate of increase is 0.1 per day. How long will it take for the population to reach 12? Suppose that the human population in 1984 was 5 billion, and that the birth rate was 32 and the death rate was 12 (the rates being expressed in conventional units, i.e. per 1000). Making the assumption that the 1984 population will continue to grow exponentially, predict the approximate world population in the year 2014. (Credit requires that you show your work) At what value of N with respect to K should one obtain the maximum sustainable yield of a harvested fish or wildlife species? Complete a labeled diagram showing the human demographic transition as it occurred in the USA since 1800. Draw a labeled diagram contrasting the survivorship curves of r-selected oysters and K-selected elephants. What?s logical about logistic growth? Did the human population as a whole grow in accordance with logistic expectations during the period 1900-1950? Describe the ecological relationships between lynx and arctic hare. Why don?t Isle Royale wolves eat all the moose? Define and give an example of Mullerian mimicry, of Batesian mimicry? Give an example of a density-dependent factor and a density-independent factor, which may influence birth or death rates of a population of frogs. List two life history traits of a K-strategist which distinguish it from an r-strategist. How might physiological mechanisms regulate population size in a small mammal like the arctic lemming? With the aid of a labeled diagram show how contest competition affects the coexistence of sympatric warblers or barnacles. If you were given a conventional graphical model of a predator-prey interaction showing the two zero growth curves and involving a refuge for one species would you be able to predict the outcome of their interaction? Explain Volterra?s prediction of the outcome of a treatment where an insecticide is applied to a pest species and its wasp parasitoid. Write the simple Lotka-Volterra equation for the growth of a predator population in the presence of a prey population. What is evolutionarily adaptive about a locust irruption? What was learned from the Hubbard Brook experiment? Contrast the distribution of nutrients in grassland and the tropical rainforest.Why is the tropical rainforest approximately 18 times more productive than the tropical open ocean? Each food chain in a food web is usually only a few links long. What is the most likely reason for this? Why are fierce animals rare? Describe two ways a predator can reduce the predator-prey distance. Consider a marine food web with humpback whales and killer whales as the top predators. a. what organisms are the primary producers in the grazing food chain? b. what invertebrate organisms are primary consumers in the grazing food chain? c. For the first trophic level, is net productivity greater than gross productivity (yes/no/either)? d. Roughly what ecological efficiency would you expect for the transfer of energy between krill and their predators Agricultural land is typically much less productive than the vegetation it replaced. State two factors that contribute to this observation. What is a biomass pyramid? an energy pyramid? How do they differ in different communities? Distinguish between net and gross primary productivity in, for example, the chaparral ecosystem. Are decomposer food chains more significant than grazing food chains? Hydrothermal vent tube-dwelling worms can grow 2 m long but have no mouth or digestive tract, how do they get their energy? Define and give an example of a keystone species. How might this concept relate to the rivet model of community composition? How do most plants obtain most of their nitrogen? Name a symbiotic and a free-living nitrogen fixing prokaryote. What is the current concentration of carbon dioxide in the atmosphere and how has that value changed historically? Describe a case of biological magnification. Name four trends that characterize many cases of primary ecological successionCan you list two defining characteristics of each of four terrestrial biomes? Describe two ways in which phytoplankton obtain phosphorus in a deep oligotrophic lake. Why are carnivorous plants typically found in tropical rainforests or acid bogs? What is the individualistic hypothesis of community composition? How does continental drift account for the geographic distribution of marsupials today?List three important generalizations that can be learned from the study of the Pleistocene species and biota?s. What are the current best estimates for global temperature and sea level, relative to today?s, when atmospheric CO2 doubles? What fraction of the earth?s terrestrial biomes will be affected by the climate changes? Using a simple labeled diagram explain the species-area predictions of the equilibrium theory of island biogeography. How does distance effect these conclusions? Predict how three species (your choice, real or hypothetical) will respond differently to climatic change over the next 100 years. Can you define or give an example of? synapsid eutherian Gause?s principle mutualism fundamental niche Holarctic Gondwanaland metapopulation extirpation Wallace?s line thermocline aposematic coloration chaparral notochord monotreme


Paper#62966 | Written in 18-Jul-2015

Price : $39