Volcanoes & Mass Extinctions
CONCEPTUALExplain how large igneous provinces (LIPs) — massive outpourings of lava over millions of years — caused global warming and ocean acidification that drove mass extinctions; connect the Siberian Traps to the end-Permian extinction and the Deccan Traps to the end-Cretaceous event; explore how hydrothermal vents on the early Earth may have been the cradle of life; understand volcanoes as both destroyers and creators in the history of life
Mastery Evidence
Assessment Prompt
“Can [child] explain how enormous volcanic eruptions millions of years ago may have triggered some of Earth's biggest mass extinctions — what's the chain of events from lava to species dying out?”
Prerequisites2
- Hazard Assessment & EvacuationhardAges 12—14
- The Rock CyclehardAges 9—11
Show full prerequisite tree
- Hazard Assessment & Evacuation hard
Understanding large igneous provinces and geological-scale eruptions depends on probabilistic hazard assessment frameworks
- Earthquake-Resistant Design hard
Hazard risk management and community decision-making depends on earthquake-resistant building design
- Natural Disaster Solutions soft
Engineering for earthquake safety parallels NGSS reducing impacts of natural Earth processes
- Designing for Weather Hazards hard
Must evaluate weather hazard solutions before comparing solutions for broader natural hazards
- Seasons & Weather Patterns soft
Climate as long-term patterns benefits from knowing seasonal patterns
- Days, Weeks, Months & Years soft
Observing and describing seasonal changes requires basic date and time vocabulary (months, seasons, year)
- Ordering Events in Time hard
Understanding days/months/years builds on sequencing events chronologically
- Geography & Local Weather hard
Climate concept requires knowing that different places have different typical weather
- Days, Weeks, Months & Years soft
Observing and describing seasonal changes requires basic date and time vocabulary (months, seasons, year)
- Ordering Events in Time hard
Understanding days/months/years builds on sequencing events chronologically
- Seasonal changes (age 8+) hard
Must understand seasonal weather patterns before distinguishing weather from climate across regions
- Bar graphs soft
Representing weather data in graphical displays requires the bar chart and time graph skills taught in Math
- Representing numbers with objects (age 8+) hard
Scaled bar charts are prerequisite to continuous data and time graphs
- Pictograms and tally charts hard
Constructing simple pictograms/tables is prerequisite to scaled versions
- Pictograms and tally charts (age 6+) hard
Constructing pictograms, tally charts, and bar charts requires these display vocabulary terms
- Sorting into categories hard
Constructing pictograms and tally charts requires classifying and counting objects first
- Comparing groups: more or fewer soft
Sorting categories by count benefits from ability to compare quantities
- Counting objects to 20 hard
Counting objects in each category requires being able to count sets of objects
- Sorting Data into Categories soft
Data representation formats (pictograms, tally charts) support organising data
- Pictograms and tally charts (age 6+) hard
Organising and representing data requires data, tally, frequency, and category vocabulary
- Sorting into categories hard
Organising data in categories builds on classifying and counting objects in categories
- Pictograms and tally charts (age 6+) hard
Drawing scaled bar charts and pictograms requires axis, scale, label, and frequency vocabulary
- Sorting Data into Categories hard
Drawing picture/bar graphs extends organising and representing data
- Pictograms and tally charts (age 6+) hard
Organising and representing data requires data, tally, frequency, and category vocabulary
- Sorting into categories hard
Organising data in categories builds on classifying and counting objects in categories
- Pictograms and tally charts (age 6+) hard
Distinguishing discrete from continuous data and choosing graphical methods requires these terms
- Local weather patterns hard
Must record weather observations before organising data in tables and graphs for seasonal patterns
- Days, Weeks, Months & Years soft
Recording local weather conditions over time requires vocabulary for days, weeks, and months
- Ordering Events in Time hard
Understanding days/months/years builds on sequencing events chronologically
- Seasonal changes hard
Must observe seasonal changes before recording weather patterns systematically
- Days, Weeks, Months & Years soft
Observing and describing seasonal changes requires basic date and time vocabulary (months, seasons, year)
- Ordering Events in Time hard
Understanding days/months/years builds on sequencing events chronologically
- Representing numbers with objects (age 8+) soft
Weather data graphing builds on maths scaled bar chart skills
- Pictograms and tally charts hard
Constructing simple pictograms/tables is prerequisite to scaled versions
- Pictograms and tally charts (age 6+) hard
Constructing pictograms, tally charts, and bar charts requires these display vocabulary terms
- Sorting into categories hard
Constructing pictograms and tally charts requires classifying and counting objects first
- Comparing groups: more or fewer soft
Sorting categories by count benefits from ability to compare quantities
- Counting objects to 20 soft
Counting a set helps when comparing groups, but younger children (GB age 4) can compare using matching without formal counting to 20
- Counting objects to 20 hard
Counting objects in each category requires being able to count sets of objects
- Sorting Data into Categories soft
Data representation formats (pictograms, tally charts) support organising data
- One-to-one counting hard
Cardinality principle builds on one-to-one correspondence — you must count correctly to know the last number tells 'how many'
- Pictograms and tally charts (age 6+) hard
Organising and representing data requires data, tally, frequency, and category vocabulary
- Sorting into categories hard
Organising data in categories builds on classifying and counting objects in categories
- Comparing groups: more or fewer soft
Sorting categories by count benefits from ability to compare quantities
- Counting objects to 20 hard
Counting objects in each category requires being able to count sets of objects
- Pictograms and tally charts (age 6+) hard
Drawing scaled bar charts and pictograms requires axis, scale, label, and frequency vocabulary
- Sorting Data into Categories hard
Drawing picture/bar graphs extends organising and representing data
- One-to-one counting hard
Cardinality principle builds on one-to-one correspondence — you must count correctly to know the last number tells 'how many'
- Pictograms and tally charts (age 6+) hard
Organising and representing data requires data, tally, frequency, and category vocabulary
- Sorting into categories hard
Organising data in categories builds on classifying and counting objects in categories
- Comparing groups: more or fewer soft
Sorting categories by count benefits from ability to compare quantities
- Counting objects to 20 hard
Counting objects in each category requires being able to count sets of objects
- Evaporation and condensation soft
Representing seasonal weather data draws on precipitation and evaporation vocabulary
- Evaporation and condensation soft
Distinguishing weather from climate and describing regional climates draws on water cycle vocabulary
- Weather Forecasting & Safety hard
Must understand weather hazards before evaluating design solutions to reduce their impacts
- Seasonal changes hard
Must observe weather and seasons before understanding weather forecasting purpose
- Days, Weeks, Months & Years soft
Observing and describing seasonal changes requires basic date and time vocabulary (months, seasons, year)
- Ordering Events in Time hard
Understanding days/months/years builds on sequencing events chronologically
- Human impact on environments soft
Discussing solutions to reduce impacts of natural processes uses environmental vocabulary
- Rapid earth changes hard
Must understand fast/slow Earth events before designing solutions to reduce their impacts
- Shapes of land and water hard
Must know about landforms before designing solutions to prevent wind/water erosion
- Days, Weeks, Months & Years soft
Observing and describing seasonal changes requires basic date and time vocabulary (months, seasons, year)
- Ordering Events in Time hard
Understanding days/months/years builds on sequencing events chronologically
- States of Matter Vocabulary soft
Describing physical properties of materials uses solid/liquid/gas vocabulary introduced in the states of matter LANGUAGE node
- Designing for Weather Hazards soft
Engineering for earthquake safety benefits from design-solution-for-hazard curriculum concept
- Seasons & Weather Patterns soft
Climate as long-term patterns benefits from knowing seasonal patterns
- Days, Weeks, Months & Years soft
Observing and describing seasonal changes requires basic date and time vocabulary (months, seasons, year)
- Ordering Events in Time hard
Understanding days/months/years builds on sequencing events chronologically
- Geography & Local Weather hard
Climate concept requires knowing that different places have different typical weather
- Days, Weeks, Months & Years soft
Observing and describing seasonal changes requires basic date and time vocabulary (months, seasons, year)
- Ordering Events in Time hard
Understanding days/months/years builds on sequencing events chronologically
- Seasonal changes (age 8+) hard
Must understand seasonal weather patterns before distinguishing weather from climate across regions
- Bar graphs soft
Representing weather data in graphical displays requires the bar chart and time graph skills taught in Math
- Representing numbers with objects (age 8+) hard
Scaled bar charts are prerequisite to continuous data and time graphs
- Pictograms and tally charts hard
Constructing simple pictograms/tables is prerequisite to scaled versions
- Pictograms and tally charts (age 6+) hard
Constructing pictograms, tally charts, and bar charts requires these display vocabulary terms
- Sorting into categories hard
Constructing pictograms and tally charts requires classifying and counting objects first
- Comparing groups: more or fewer soft
Sorting categories by count benefits from ability to compare quantities
- Counting objects to 20 soft
Counting a set helps when comparing groups, but younger children (GB age 4) can compare using matching without formal counting to 20
- Counting objects to 20 hard
Counting objects in each category requires being able to count sets of objects
- Sorting Data into Categories soft
Data representation formats (pictograms, tally charts) support organising data
- One-to-one counting hard
Cardinality principle builds on one-to-one correspondence — you must count correctly to know the last number tells 'how many'
- Pictograms and tally charts (age 6+) hard
Organising and representing data requires data, tally, frequency, and category vocabulary
- Sorting into categories hard
Organising data in categories builds on classifying and counting objects in categories
- Comparing groups: more or fewer soft
Sorting categories by count benefits from ability to compare quantities
- Counting objects to 20 hard
Counting objects in each category requires being able to count sets of objects
- Pictograms and tally charts (age 6+) hard
Drawing scaled bar charts and pictograms requires axis, scale, label, and frequency vocabulary
- Sorting Data into Categories hard
Drawing picture/bar graphs extends organising and representing data
- One-to-one counting hard
Cardinality principle builds on one-to-one correspondence — you must count correctly to know the last number tells 'how many'
- Pictograms and tally charts (age 6+) hard
Organising and representing data requires data, tally, frequency, and category vocabulary
- Sorting into categories hard
Organising data in categories builds on classifying and counting objects in categories
- Comparing groups: more or fewer soft
Sorting categories by count benefits from ability to compare quantities
- Counting objects to 20 hard
Counting objects in each category requires being able to count sets of objects
- Pictograms and tally charts (age 6+) hard
Distinguishing discrete from continuous data and choosing graphical methods requires these terms
- Local weather patterns hard
Must record weather observations before organising data in tables and graphs for seasonal patterns
- Days, Weeks, Months & Years soft
Recording local weather conditions over time requires vocabulary for days, weeks, and months
- Ordering Events in Time hard
Understanding days/months/years builds on sequencing events chronologically
- Seasonal changes hard
Must observe seasonal changes before recording weather patterns systematically
- Days, Weeks, Months & Years soft
Observing and describing seasonal changes requires basic date and time vocabulary (months, seasons, year)
- Ordering Events in Time hard
Understanding days/months/years builds on sequencing events chronologically
- Representing numbers with objects (age 8+) soft
Weather data graphing builds on maths scaled bar chart skills
- Pictograms and tally charts hard
Constructing simple pictograms/tables is prerequisite to scaled versions
- Pictograms and tally charts (age 6+) hard
Constructing pictograms, tally charts, and bar charts requires these display vocabulary terms
- Sorting into categories hard
Constructing pictograms and tally charts requires classifying and counting objects first
- Comparing groups: more or fewer soft
Sorting categories by count benefits from ability to compare quantities
- Counting objects to 20 soft
Counting a set helps when comparing groups, but younger children (GB age 4) can compare using matching without formal counting to 20
- Counting objects to 20 hard
Counting objects in each category requires being able to count sets of objects
- One-to-one counting hard
Cardinality principle builds on one-to-one correspondence — you must count correctly to know the last number tells 'how many'
- Sorting Data into Categories soft
Data representation formats (pictograms, tally charts) support organising data
- One-to-one counting hard
Cardinality principle builds on one-to-one correspondence — you must count correctly to know the last number tells 'how many'
- Pictograms and tally charts (age 6+) hard
Organising and representing data requires data, tally, frequency, and category vocabulary
- Sorting into categories hard
Organising data in categories builds on classifying and counting objects in categories
- Comparing groups: more or fewer soft
Sorting categories by count benefits from ability to compare quantities
- Counting objects to 20 soft
Counting a set helps when comparing groups, but younger children (GB age 4) can compare using matching without formal counting to 20
- Counting objects to 20 hard
Counting objects in each category requires being able to count sets of objects
- Pictograms and tally charts (age 6+) hard
Drawing scaled bar charts and pictograms requires axis, scale, label, and frequency vocabulary
- Sorting Data into Categories hard
Drawing picture/bar graphs extends organising and representing data
- One-to-one counting hard
Cardinality principle builds on one-to-one correspondence — you must count correctly to know the last number tells 'how many'
- Pictograms and tally charts (age 6+) hard
Organising and representing data requires data, tally, frequency, and category vocabulary
- Sorting into categories hard
Organising data in categories builds on classifying and counting objects in categories
- Comparing groups: more or fewer soft
Sorting categories by count benefits from ability to compare quantities
- Counting objects to 20 soft
Counting a set helps when comparing groups, but younger children (GB age 4) can compare using matching without formal counting to 20
- Counting objects to 20 hard
Counting objects in each category requires being able to count sets of objects
- Evaporation and condensation soft
Representing seasonal weather data draws on precipitation and evaporation vocabulary
- Evaporation and condensation soft
Distinguishing weather from climate and describing regional climates draws on water cycle vocabulary
- Weather Forecasting & Safety hard
Must understand weather hazards before evaluating design solutions to reduce their impacts
- Seasonal changes hard
Must observe weather and seasons before understanding weather forecasting purpose
- Days, Weeks, Months & Years soft
Observing and describing seasonal changes requires basic date and time vocabulary (months, seasons, year)
- Ordering Events in Time hard
Understanding days/months/years builds on sequencing events chronologically
- What Is an Earthquake soft
Quick/slow changes concept benefits from earthquake as example of quick change
- Shapes of land and water soft
Mapping volcano/earthquake patterns benefits from knowing about landforms like mountains and valleys
- Days, Weeks, Months & Years soft
Observing and describing seasonal changes requires basic date and time vocabulary (months, seasons, year)
- Ordering Events in Time hard
Understanding days/months/years builds on sequencing events chronologically
- Finding patterns in data soft
Tectonic plates concept benefits from prior map-reading of Earth's features
- Rock layers and Earth's history soft
Interpreting maps of Earth surface features is enriched by understanding cross-section views of geological strata and layers
- 3-D shapes (age 9+) soft
Interpreting cross-section diagrams of Earth builds on the skill of identifying 3-D shapes from 2-D representations
- 2-D shapes (age 7+) hard
Y3 drawing 2D and making 3D shapes is prerequisite to identifying 3D from 2D representations
- Edges, vertices, and faces hard
Making/describing 3-D shapes requires knowing their properties (edges, vertices, faces)
- 3-D shapes hard
Describing 3-D properties (edges, vertices, faces) requires knowing the shapes first
- Nets of 3-D Shapes soft
Counting edges, vertices, and faces is reinforced by analysing nets where each face is visible as a separate 2-D shape
- Angles in triangles (age 6+) soft
Understanding defining attributes supports describing shape properties formally
- 2-D shapes hard
Distinguishing defining vs non-defining attributes requires knowing common 2-D shape names first
- 3-D shapes (age 5+) hard
Identifying defining attributes builds on informal analysis and comparison of shapes
- 2-D shapes hard
Describing properties of 2-D shapes (sides, symmetry) requires knowing the shapes first
- 3-D shapes (age 5+) hard
Formal property description extends informal analysis of sides and vertices
- Nets of 3-D Shapes soft
Drawing 2-D shapes and making 3-D shapes from materials is supported by being able to sketch and interpret nets
- Nets of 3-D Shapes hard
Identifying 3-D shapes from 2-D representations requires understanding the relationship between a net and its solid
- Types of rocks hard
Interpreting patterns of Earth's geological features requires rock type and erosion vocabulary
- Shapes of land and water hard
Must model landforms and water bodies before analysing map patterns of Earth's features
- Days, Weeks, Months & Years soft
Observing and describing seasonal changes requires basic date and time vocabulary (months, seasons, year)
- Ordering Events in Time hard
Understanding days/months/years builds on sequencing events chronologically
- Erosion and weathering soft
Understanding weathering/erosion helps explain patterns in Earth's features
- Types of rocks hard
Measuring weathering and erosion rates requires 'weathering', 'erosion', and 'deposition' vocabulary
- Preventing Erosion hard
Must understand erosion prevention before measuring weathering/erosion effects systematically
- Shapes of land and water hard
Must know about landforms before designing solutions to prevent wind/water erosion
- Days, Weeks, Months & Years soft
Observing and describing seasonal changes requires basic date and time vocabulary (months, seasons, year)
- Ordering Events in Time hard
Understanding days/months/years builds on sequencing events chronologically
- Properties of materials soft
Rock properties knowledge supports understanding how weathering breaks down different rocks
- States of Matter Vocabulary soft
Describing physical properties of materials uses solid/liquid/gas vocabulary introduced in the states of matter LANGUAGE node
- What Is a Volcano hard
Understanding layers requires knowing what a volcano is (motivation for internal structure)
- Measuring Earthquake Strength hard
Engineering for safety requires understanding what earthquakes do and how they're measured
- What Is an Earthquake soft
Quick/slow changes concept benefits from earthquake as example of quick change
- Shapes of land and water soft
Mapping volcano/earthquake patterns benefits from knowing about landforms like mountains and valleys
- Days, Weeks, Months & Years soft
Observing and describing seasonal changes requires basic date and time vocabulary (months, seasons, year)
- Ordering Events in Time hard
Understanding days/months/years builds on sequencing events chronologically
- Why Earthquakes Happen soft
Tsunamis also caused by earthquakes, so understanding earthquake causes helps
- What Is a Volcano hard
Understanding layers requires knowing what a volcano is (motivation for internal structure)
- Earth's Layers soft
Rock types benefit from knowing Earth has hot interior (explains melting for igneous)
- What Is a Volcano hard
Understanding layers requires knowing what a volcano is (motivation for internal structure)
- States of Matter Vocabulary soft
Describing physical properties of materials uses solid/liquid/gas vocabulary introduced in the states of matter LANGUAGE node
- Erosion and weathering soft
Rock cycle concept benefits from prior understanding of weathering and erosion
- Types of rocks hard
Measuring weathering and erosion rates requires 'weathering', 'erosion', and 'deposition' vocabulary
- Preventing Erosion hard
Must understand erosion prevention before measuring weathering/erosion effects systematically
- Shapes of land and water hard
Must know about landforms before designing solutions to prevent wind/water erosion
- Days, Weeks, Months & Years soft
Observing and describing seasonal changes requires basic date and time vocabulary (months, seasons, year)
- Ordering Events in Time hard
Understanding days/months/years builds on sequencing events chronologically
- Properties of materials soft
Rock properties knowledge supports understanding how weathering breaks down different rocks
- States of Matter Vocabulary soft
Describing physical properties of materials uses solid/liquid/gas vocabulary introduced in the states of matter LANGUAGE node
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