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Upon completion of this course, students will be able to...

• 7.1 Summarize how genes are passed from parent to offspring.
• 7.2 Identify and draw homozygous and heterozygous genotypes on homologous chromosomes.
• 7.3 Distinguish between dominant and recessive genes.
• 7.4 Differentiate between genotypes and phenotypes.
• 7.5 Differentiate between traits, genes, and alleles.
• 7.6 Conduct monohybrid crosses.
• 7.7 Use and interpret punnett squares.
• 7.8 Write genotypes.
• 7.9 Identify genotypes and phenotypes.
• 7.10 Summarize the results of Mendel’s single trait crosses.
• 7.11 Summarize Mendel’s law of dominance.
• 7.12 Summarize the Law of Segregation.
• 7.13 Perform a dihybrid cross.
• 7.14 Analyze the phenotypic ratios of genetic crosses.
• 7.15 Summarize the Law of Independent Assortment.
• 7.16 Explain gene linkage.
• 8.1 Identify dominant and recessive human genetic disorders.
• 8.2 Create a pedigree.
• 8.3 Analyze pedigree.
• 8.4 Perform crosses with sex-linked traits.
• 8.5 Perform crosses with incomplete and codominance inheritance.
• 8.6 Perform crosses with multiple alleles inheritance.
• 8.7 Predict outcomes of genetic crosses with complex inheritance.
• 8.8 Identify examples of nondisjunction.
• 8.9 Identify gender and chromosome number from a karyotype.
• 8.10 Identify specific examples of complex inheritance patterns.
• 8.11 Describe how the environment can influence phenotype expression.
• 8.12 Explain polyploidy.
• 9.1 Identify examples of selective breeding.
• 9.2 Explain the steps in PCR.
• 9.3 Explain how recombinant DNA.
• 9.4 Interpret a DNA fingerprint - both for paternity and criminal investigation.
• 9.5 Identify several uses for genetic engineering.
• 9.6 Compare the pros and cons for cloning.
• 9.7 Debate the advantages and disadvantages of manipulating DNA.
• 9.8 Give examples of GMOs.
• 9.9 Identify several uses for gene therapy.
• 9.10 Discuss how genomics has helped us understand how genes work.
• 10.1 Identify major events in the four major eras of the geologic time scale.
• 10.2 Summarize relationships between present and past organisms on Earth.
• 10.2 Differentiate between radiometric and relative dating methods.
• 10.3 Identify various scientists' contributions to the history of life.
• 10.4 Differentiate between biogenesis and spontaneous generation.
• 10.5 Summarize the four principles of natural selection.
• 10.6 Provide examples of natural selection.
• 10.7 Identify the three types of natural selection.
• 10.8 Identify examples of evolution.
• 10.9 Compare DNA of organisms to show common ancestry.
• 10.10 Identify adaptations.
• 10.11 Explain how natural selection leads to organisms that are well suited for the environment.
• 10.12 Describe how changes in allele frequency promotes evolution.
• 10.13 Describe speciation.
• 11.1 Identify many different adaptations that accomplish the same functions (ex. lungs vs. gills)
• 11.2 Identify the 3 domains and 6 kingdoms.
• 11.3 Interpret a cladogram and phylogenetic tree.
• 11.4 Describe the general characteristics of each kingdom.
• 11.5 Identify the correct way to write scientific names.
• 11.6 Use binomial nomenclature to describe several organisms and how related they are.
• 11.7 Explain why viruses are not alive.
• 11.8 Compare and contrast viruses and bacteria.
• 11.9 Identify diseases caused by organisms.
• 11.10 Identify all the human body systems and their functions.
• 11.11 Identify major organs of all of the human body systems.
• 11.12 Describe the specific functions of organs within each organ system.
• 11.13Describe how several of the systems interact to maintain homeostasis
• 12.1 Identify examples of biotic and abiotic factors in an ecosystem
• 12.2 Analyze how biotic and abiotic factors affect different species.
• 12.3 Distinguish between habitat and niche.
• 12.4 Describe the trophic levels.
• 12.5 Diagram the flow of energy through an ecosystem.
• 12.6 Identify the sun as the ultimate source of energy.
• 12.7 Identify the ecological levels of organization.
• 12.8 Explain how energy is stored in chemical bonds of living organisms.
• 12.9 Differentiate between symbiotic relationships.
• 12.10 Compare and contrast a food chain and food web.
• 12.11 Construct a food chain and food web.
• 12.12 Describe food chains, food webs, and pyramid models.
• 12.13 Compare and describe cycles of matter.
• 12.14 Recognize and identify the stages of primary and secondary ecological succession.
• 12.15 Differentiate among the biomes.
• 12.16 Describe characteristics of populations.
• 12.17 Identify and give examples of abiotic and biotic limiting factors.
• 12.18 Differentiate between density- dependent and density- independent factors.
• 12.19 Analyze population growth curves.
• 12.20 Determine range of tolerance on a graph.
• 12.21 Differentiate between exponential growth and logistic growth.
• 12.22 Describe carrying capacity of a population.
• 12.23 Graph changes in population growth given a data table.
• 12.24 Predict the consequences of exotic/invasive species.
• 12.25 Describe“R” Strategist and “K” Strategist.
• 12.26 Describe factors of ecosystem stability.
• 12.27 Summarize the negative impact of humans on the environment.

Units:

• Mendelian Genetics
• Complex Genetics
• Biotechnology & Genetic Engineering
• History of Life & Natural Selection
• Taxonomy & Body Systems
• Ecology

Internet access.