Where $n$ = number of individuals of a single species, $N$ = total number of individuals across all species, and $D$ ranges from 0 to 1. Values closer to 1 indicate higher diversity, while values closer to 0 indicate lower diversity.
Exam tip: Always double-check that you subtract the fraction from 1. AP question writers frequently use the unsubtracted dominance value as a distractor for MCQs.
3. Ecological Succession & Keystone Species★★☆☆☆⏱ 3 min
Ecological succession is the predictable, sequential change in community structure over time following a disturbance that alters the existing community. It is divided into two main types based on starting conditions after disturbance:
**Primary succession**: Occurs when all soil and nearly all living organisms are removed, for example after a volcanic eruption creates new rock or a glacier retreats leaving bare bedrock. Pioneer species (lichens, mosses) break down rock to build soil over centuries, eventually leading to a stable climax community.
**Secondary succession**: Occurs when a disturbance removes most above-ground vegetation but leaves the soil profile intact, for example after a wildfire or clear-cutting. Secondary succession proceeds much faster than primary succession because soil and native seeds are already present.
Exam tip: Always explicitly mention the presence or absence of intact soil in your FRQ justification for succession type—this is almost always a required scoring point.
4. AP Style Practice Check★★★★☆⏱ 4 min
Common Pitfalls
Why: Students confuse competition with predation, or assume only the losing species is harmed.
Why: Some textbooks use this alternative value to measure species dominance, not diversity.
Why: Students forget Simpson's D accounts for relative abundance as well as richness.
Why: Students misinterpret the prefixes 'primary' and 'secondary' as order of events, not starting conditions.
Why: Students confuse keystone species with dominant species, which are abundant and have large effects.
Why: Older textbooks describe climax communities as stable, but AP CED emphasizes that disturbance is a natural part of all ecosystems.