2024 Semester 2 Biology Learning Outcomes PDF

Summary

This document outlines learning outcomes for a 2024 semester 2 biology course. It covers key ideas, science inquiry skills, and details learning outcomes related to biological concepts and procedures using scientific methods.

Full Transcript

*STAGE 1 Biolology Science Inquiry Skills*

*Learning Outcomes*

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| KEY IDEAS |
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| - Design investigations that require investigable questions and |
| imaginative solutions (with or without implementation) |
| |
| - Critique proposed investigations |
| |
| - Use the conclusion of one investigation to propose subsequent |
| experiments |
| |
| - Change an independent variable in a given procedure and adapting |
| the method |
| |
| - Research, develop, and trial a method |
| |
| - Improve an existing procedure |
| |
| - Identify options for measuring the dependent variable |
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| - Consider the type and amount of data to be collected |
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| - Identify ethical and safety considerations. |
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| - Represent results of investigations in appropriate ways, |
| including: |
| |
| |
| |
| - use of appropriate SI units, symbols |
| |
| - construction of appropriately labelled tables |
| |
| - drawing of graphs: linear, non-linear, lines of best fit |
| |
| - use of significant figures. |
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| - Select, use, and interpret appropriate representations, |
| including: |
| |
| |
| |
| - mathematical relationships, such as ratios |
| |
| - diagrams |
| |
| - equations |
| |
| to explain concepts, solve problems, and make predictions. |
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| - Analyse data, including: |
| |
| |
| |
| - identification and discussion of trends, patterns, and |
| relationships |
| |
| - interpolation/extrapolation where appropriate |
| |
| - selection and use of evidence and scientific understanding to |
| make and justify conclusions. |
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| - Evaluate the procedures and results to identify sources of |
| uncertainty, including: |
| |
| |
| |
| - random and systematic errors |
| |
| - replication |
| |
| - sample size |
| |
| - accuracy |
| |
| - reliability |
| |
| - precision |
| |
| - validity |
| |
| - effective control of variables. |
| |
| |
| |
| - Discuss the impact that sources of uncertainty have on |
| experimental results. |
| |
| - Recognise the limitations of conclusions. |
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| - Communicate to specific audiences and for specific purposes |
| using: |
| |
| |
| |
| - appropriate language |
| |
| - terminology |
| |
| - conventions. |
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| Science Understanding |
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| Microorganisms are important living things. |
| |
| Microorganisms include bacteria, fungi, and protists. |
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| In ideal conditions bacterial populations grow exponentially. |
| |
| Different bacteria require specific conditions for growth. |
| |
| - Discuss the effects of factors such as: |
| |
| |
| |
| - - - - - |
| |
| Microorganisms act as decomposers, which enables recycling of |
| essential nutrients. |
| |
| Bacteria reproduce by binary fission (asexual). |
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| |
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| Microorganisms are important to humans. |
| |
| - Discuss the role of microorganisms in: |
| |
| |
| |
| - - - - |
| |
| Humans have cultured and used microorganisms for about 10 000 years. |
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| Microorganisms can cause food spoilage and by controlling the growth |
| of microorganisms, food can be preserved. |
| |
| - Describe the causes of food spoilage, and explain the importance |
| of hygienic practices. |
| |
| - Describe techniques for preserving food, including the use of |
| heat/cold, the addition of acids, sugars, or salt, and the |
| removal of water. Relate each technique to growth requirements of |
| microorganisms and/or diffusion. |
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| Infectious disease differs from other diseases. |
| |
| - Distinguish between infectious and non-infectious disease. |
| |
| - Determine the characteristics of a pathogen. |
| |
| - Describe the methods by which pathogens may be transmitted |
| between hosts, such as: |
| |
| |
| |
| - - - - - |
| |
| animals. |
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| Infectious diseases can cause widespread health issues for local, |
| national, and/or global populations. |
| |
| - Describe the interrelated factors that can determine the spread |
| of infectious disease, including: |
| |
| |
| |
| - - - - |
| |
| Examples of disease control include: controlling the carriers (e.g. |
| fleas, mosquitoes) |
| |
| - killing the pathogen (e.g. antibiotics, antiseptics) |
| |
| - quarantining carriers of the disease |
| |
| the immune response. |
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| |
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| Science Understanding |
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| Pathogens have adaptations that facilitate their entry into cells and |
| tissues and hosts. |
| |
| - Describe how pathogens and host cells recognise each other. |
| |
| - Explain that some pathogens enter cells to survive and reproduce. |
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| - Describe the basic concept of molecular recognition (e.g. |
| pathogens binding to cellular receptors). |
| |
| - Explain that some pathogens must enter cells to ensure their |
| survival, replication, and to evade the immune system. |
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| |
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| When a pathogen enters a host, it causes physical or chemical changes |
| that stimulate immune responses in the host. |
| |
| - Define the term 'antigen'. |
| |
| - Compare foreign antigens (non-self) with self-antigens. |
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| The human immune system protects the body against disease by: |
| |
| - physical barriers |
| |
| - innate (non-specific) immune response |
| |
| - the adaptive (acquired) immune response. |
| |
| The different responses work together to neutralise or prevent entry |
| of pathogens. |
| |
| - Describe the function of the various physical barriers that exist |
| to prevent the entry of pathogens. |
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| Many organisms have an innate (non‑specific) immune system to the |
| presence of pathogens. |
| |
| - Recognise that the innate (non-specific) immune system is the |
| second line of defence with responses that are non-specific. |
| |
| - Recognise that most organisms, including bacteria, fungi, plants, |
| invertebrates and vertebrates display innate immune responses as |
| a first line of defence against pathogens (e.g. histamine |
| complement, antibiotics etc.). |
| |
| - Describe how the adaptive (acquired) immune response reacts |
| specifically to antigens. |
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| - Describe how the human body responds specifically to foreign |
| antigens via the adaptive (acquired) immune system. |
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| |
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| Exposure to an antigen is required for acquired immunity. This may be |
| acquired through passive or active processes. |
| |
| Passive immunity may be acquired from maternal antibodies or antibody |
| serum injection. |
| |
| Active immunity may be acquired through natural exposure to a |
| pathogen or through vaccination. |
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| |
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| Biodiversity is the variety of all living things and includes |
| diversity in genetics, species, and ecosystems. |
| |
| - Distinguish between a species, population, community, and an |
| ecosystem. |
| |
| - Describe diversity in examples of: |
| |
| |
| |
| - - |
| |
| In general, the higher the biodiversity of an ecosystem, the more |
| stable it is. |
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| |
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| |
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| Biological classification is hierarchical and indicates the |
| relationship between organisms based on their physical structures and |
| the similarities in shared molecular sequences. |
| |
| There is an internationally agreed system of nomenclature of species |
| which undergoes revision. |
| |
| - Distinguish between scientific names and common names for |
| species. |
| |
| - Recognise that very closely related species have similar |
| scientific names. |
| |
| - Discuss the advantages of an internationally agreed system of |
| nomenclature. |
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| |
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| |
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| Biodiversity is the variety of all living things and includes |
| diversity in genetics, species, and ecosystems. |
| |
| - Distinguish between a species, population, community, and an |
| ecosystem. |
| |
| - Describe diversity in examples of: |
| |
| |
| |
| - - |
| |
| In general, the higher the biodiversity of an ecosystem, the more |
| stable it is. |
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| |
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| |
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| Biological classification is hierarchical and indicates the |
| relationship between organisms based on their physical structures and |
| the similarities in shared molecular sequences. |
| |
| There is an internationally agreed system of nomenclature of species |
| which undergoes revision. |
| |
| - Distinguish between scientific names and common names for |
| species. |
| |
| - Recognise that very closely related species have similar |
| scientific names. |
| |
| - Discuss the advantages of an internationally agreed system of |
| nomenclature. |
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| |
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| |
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| Organisms have adaptations that help them survive and reproduce. |
| |
| Discuss examples of adaptations (behavioural, structural, and |
| physiological) in plants and animals. |
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| Ecosystems can be diverse, and can be defined by their biotic and |
| abiotic components and the interactions between elements of these |
| components. |
| |
| - Distinguish between biotic and abiotic components of ecosystems. |
| |
| - Compare the characteristics of at least two ecosystems. |
| |
| Patterns within a community include zonation and stratification. |
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| The biotic and abiotic components of ecosystems interact with each |
| other to capture, transform, and transfer energy. |
| |
| Nutrients within an ecosystem are involved in biogeochemical cycles. |
| Know and be able to interpret the carbon cycle |
| |
| Humans can interfere with natural cycles. Know how humans impact the |
| carbon cycle. |
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| Ecosystems include populations of organisms that each fills a |
| specific ecological niche. |
| |
| - Describe a niche in terms of key indicators within the ecosystem, |
| including habitat, feeding relationships, and interactions with |
| other species. |
| |
| Keystone species play a critical role in the maintenance of their |
| ecosystem. |
| |
| Explain the significance of keystone species in their ecosystem. |
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| Humans have significant impacts on ecosystems. |
| |
| - Explain how the destruction of habitats as a result of human |
| activity speeds up changes in ecosystems and impacts on |
| biodiversity. |
| |
| By measuring key aspects of the biotic and abiotic components of the |
| ecosystem, it is possible to make predictions relating to the impact |
| of environmental change. |
| |
| Describe how these predictions can help to develop strategies to |
| minimise the adverse effects of such change |
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| Populations with reduced genetic diversity face increased risk of |
| extinction. |
| |
| Explain why genetic diversity is important for a species' survival in |
| a changing environment. |
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