AP Environmental Science Cheat Sheet 2026

Key concepts, formulas, and shortcuts for every APES unit — earth systems, biodiversity, populations, energy resources, pollution, and global change. Printable one-page reference.

🌍 Earth Systems & Resources

TopicKey Facts
Earth's layersCrust → mantle (convection drives plate tectonics) → outer core (liquid iron, magnetic field) → inner core (solid iron). Lithosphere = crust + upper mantle.
Plate tectonicsDivergent (spreading, rifts) → Convergent (subduction, mountains, volcanoes) → Transform (earthquakes, no new crust). Subduction = oceanic under continental.
Rock cycleIgneous (cooled magma) ↔ Sedimentary (deposited layers) ↔ Metamorphic (heat & pressure). Weathering → erosion → deposition → lithification.
Soil layers (horizons)O (organic litter) → A (topsoil, humus, most fertile) → E (leached) → B (subsoil, minerals accumulate) → C (parent material) → R (bedrock)
Atmosphere layersTroposphere (weather, CO₂) → Stratosphere (ozone, UV absorption) → Mesosphere → Thermosphere → Exosphere. Temp decreases in troposphere, increases in stratosphere.
Solar angle & seasonsDirect sunlight at equator year-round. Axial tilt causes seasons. Hadley cells: equatorial air rises, moves poleward, sinks ~30°N/S (deserts). Coriolis deflects winds right in N. hemisphere.

🌿 Biodiversity & Ecosystems

ConceptKey Rule
BiomesTemperature & precipitation determine biome type. Tropical rainforest = hot & wet, highest diversity. Desert = hot & dry. Tundra = cold, permafrost, low diversity. Temperate deciduous = moderate, seasonal.
Ecosystem servicesProvisioning (food, water), Regulating (climate, floods), Cultural (recreation), Supporting (nutrient cycling, photosynthesis). Services often undervalued economically.
Trophic levels & energy10% rule: only ~10% of energy transfers up. Producers → Primary consumers → Secondary → Tertiary. Biomass pyramids can be inverted in aquatic systems.
Biodiversity hotspotsHigh species richness + high endemism + threatened. Tropical forests and coral reefs have highest biodiversity. HIPPCO = main threats: Habitat loss, Invasive species, Population growth, Pollution, Climate change, Overconsumption.
Keystone speciesDisproportionate effect relative to biomass. Remove them → trophic cascade (sea otters → urchins → kelp). Wolves → elk → riverbank vegetation (Yellowstone).
Island biogeographyLarger islands + closer to mainland = more species. Immigration rate decreases as island fills; extinction rate increases. Equilibrium species number where curves intersect.

👥 Populations & Human Demographics

ConceptFormula / Rule
Population growth rater = (births − deaths) + (immigration − emigration) per 1000 pop. Expressed as % per year.
Rule of 70Doubling time (years) = 70 / growth rate (%). Growth rate 2% → doubles in 35 years.
Total fertility rate (TFR)Average children per woman. Replacement level TFR ≈ 2.1 in developed countries. TFR > 2.1 → population grows; < 2.1 → shrinks over time.
Demographic transition modelStage 1: high birth + high death (pre-industrial). Stage 2: death rate drops (pop. grows fast). Stage 3: birth rate drops. Stage 4: low birth + low death (stable). Stage 5: declining (some developed nations).
Age structure diagramsWide base (Stage 2) = rapid growth. Uniform (Stage 4) = stable. Narrow base = declining. Many elderly + few young = pension strain.
IPAT equationI = P × A × T (Environmental Impact = Population × Affluence × Technology). Technology can reduce or increase T factor.

⚡ Energy Resources

SourceProConKey fact
CoalCheap, abundant, energy-denseMost CO₂ per unit energy, SOₓ/NOₓ, mining damageUsed mostly for electricity generation. Surface mining destroys mountaintops.
Natural gasCleaner than coal, versatileMethane leaks during extraction (potent GHG)Fracking increased US production dramatically; linked to earthquakes
NuclearNo CO₂ during operation, high energy densityRadioactive waste (lasts 10,000+ years), high upfront cost, accident riskFission of U-235. Half-life of waste isotopes is the key issue.
SolarNo GHG during operation, abundantIntermittent (no sun at night), land use, panel manufacturing impactPhotovoltaic (PV) cells convert sunlight to electricity. Fastest growing sector.
WindNo GHG during operation, cheapest new electricity in many regionsIntermittent, bird/bat mortality, visual impact, noiseOffshore wind more consistent than onshore. Turbines need 5–25 m/s winds.
HydroelectricReliable, no GHG during operation, long lifespanHabitat destruction, dam floods land, blocks fish migrationDams trap sediment (delta starvation downstream). 17% of global electricity.

🏭 Pollution & Remediation

PollutantSourceEffectSolution
CO₂, CH₄, N₂OFossil fuels, agriculture, deforestationGreenhouse effect → climate changeRenewable energy, reduced meat consumption, reforestation
SO₂ / NOₓCoal combustion, vehicle exhaustAcid rain (pH < 5.6), respiratory diseaseScrubbers, catalytic converters, cap-and-trade
Ground-level ozone (O₃)NOₓ + VOCs + sunlight → photochemical smogRespiratory damage, crop damage, reduces visibilityReduce VOC and NOₓ emissions; catalytic converters
Particulate matter (PM₂.₅)Combustion, dust, industryLung disease, heart disease, premature deathFilters, reduced combustion
EutrophicationNitrogen/phosphorus runoff (fertilizers, sewage)Algal bloom → decomposers use O₂ → dead zone (hypoxia)Riparian buffers, reduced fertilizer, constructed wetlands
BiomagnificationFat-soluble toxins (DDT, mercury, PCBs)Concentration increases at higher trophic levels; top predators most affectedBans on persistent toxins (DDT banned 1972 in US)

🌡️ Global Change & Climate

TopicKey Facts
Greenhouse gases (ranked by potency)Water vapor (#1 by volume but not human-caused), CO₂ (#1 anthropogenic driver), CH₄ (80× CO₂ over 20 years), N₂O (265× CO₂), fluorinated gases (thousands× CO₂)
Ozone depletionCFCs (from refrigerants, aerosols) release Cl in stratosphere → Cl catalytically destroys O₃. Antarctic ozone hole (spring). Montreal Protocol (1987) banned CFCs — ozone layer recovering.
Ocean acidificationCO₂ + H₂O → carbonic acid → lowers pH → dissolves calcium carbonate shells (corals, mollusks, pteropods). pH dropped ~0.1 since industrialization (30% more acidic).
Sea level riseCauses: (1) thermal expansion of seawater (~50%), (2) melting glaciers and ice sheets (~50%). ~3.7 mm/year currently; accelerating. Threatens coastal populations.
Climate feedback loopsPositive (amplifying): ice-albedo feedback (less ice → less reflection → more warming → less ice), methane from permafrost thaw. Negative (dampening): increased evaporation → more clouds → more reflection.
Policy responsesKyoto Protocol (1997, binding targets for developed nations), Paris Agreement (2015, voluntary NDCs, keep warming < 2°C). Carbon tax, cap-and-trade, renewable portfolio standards.
APES calculation shortcuts: Energy efficiency = useful output / total input × 100%. Doubling time = 70 / % growth rate. EROI = energy out / energy in to produce it (higher = better; coal ~30:1, tar sands ~3:1, solar PV rising from ~4:1 to ~20:1).
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