Download - GEO 130 Earth’s Physical Environments
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GEO 130 Earth’s Physical Environments
Introduction to Physical Geography
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Objectives• Define physical geography • Explain the reasons for studying physical geography• Explain how we do physical geography• Define models and describe the types • List and describe in detail the factors that complicate the study of pattern and
process • Distinguish between proximate and ultimate causation • Define and give examples of positive and negative feedback • Give examples of how scale influence our understanding of pattern and process • Describe and give an example of how thresholds and time lags complicate the
study of pattern and process• Explain how teleconnections complicate the interpretation of pattern and process • Describe the difference between steady state and dynamic equilibrium
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What is Physical Geography?
• It is the integrated study of three subdisciplines:– Climatology– Biogeography– Geomorphology
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What is Physical Geography?• As a field of study, it may also incorporate the way
humans shape climatic, biogeographic, and geomorphic phenomena.
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Why study physical geography?
• The natural world is as complex as the human world, if not more so– Consider these facets
of the Earth’s surface• Its immense extent (size)
and resolution (detail)• History and time since
origin (4.5 billion years)
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Why study physical geography?
• To understand human-environment interactions, you need to understand how the non-human world works.
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How do we do physical geography?
• We document pattern and process
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We use models to study pattern and process
• Models are a simplified, often idealized representation of reality. – Intent of a model is to recreate patterns by
capturing the underlying explanatory processes
– Your role is to learn models, recognize they are idealized, and try to identify why they are incomplete.
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What are the types of models?
• Graphical conceptual models
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Types of models
• Maps
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Types of models
• Dynamical models – Use field-derived
conditions to model the behavior of a phenomena
– Can be used to predict or forecast the future
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Types of models
• Dynamical models can also be used to hindcast the past and study events that have already happened
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Types of models• Simulations
– Mathematically-based
– Can be given visual form, i.e., animated
– Has no actual counterpart in the real world, i.e. observational data is not what drives the simulation
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Types of models
• Statistical models– Use the record of the past to predict the future
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Types of models• Physical models
– Employ a scale-down physical version of real-world processes
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What complicates the study of pattern-process?
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1. Multiple driving variables• Driving variables
are most directly responsible for the observed patterns.
• Driving variables are not always readily apparent or easily distinguished from other variables
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Proximate and ultimate causation• A proximate cause is an event
which is closest, or immediately responsible, for causing some observed result.
• This exists in contrast to a higher-level ultimate cause which is usually thought of as the "real" reason something occurred.
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Why did the ship hit the rock?• Proximate cause: Because the ship failed to change
course to avoid it.
• Ultimate cause: Because the ship was under autopilot and the autopilot received bad data from the GPS.
• Separating proximate from ultimate causations frequently leads to better understandings of multiple driving variables
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2. Contingent events
• What contingencies complicate the prediction of wildfires?
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3. Feedbacks
• Feedbacks make prediction of the outcome of interactions difficult– Positive feedback: externally generated
change is reinforced– Negative feedback: externally generated
change is minimized
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Example of positive and negative feedbacks associated with global
warming
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Permafrost
Thermokarst lakes
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4. Spatial and temporal scale
• Scale determines how we understand pattern and process
• Example: controls on temperature: what makes it warm or cold?
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Answer depends upon temporal and spatial scale
• Cloud cover and humidity (minutes to hours)• Diurnal (day-night) cycles • Seasonal cycles (1 year)• Cyclical fluctuations due to sunspots (10-50
years)• Anthropogenic contribution of greenhouse
gases (10-100 years)• Milankovitch orbital cycles (10,000 yrs)
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Dro
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5. Thresholds and time lags
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6. Teleconnections
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7. The earth is constantly changing
• Earth is an open system• Change is the norm• Change itself, however, has different types
– Steady state equilibrium– Dynamic equilibrium
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Steady state equilibrium
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Dynamic equilibrium
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