In AP Bio, an invasive species is a non-native organism introduced to an ecosystem (intentionally or not) that exploits a new niche free of predators or competitors and outcompetes native species for resources, disrupting ecosystem dynamics (EK 8.7.B.1).
An invasive species is a non-native organism that gets introduced into an ecosystem and causes harm there. The key word is non-native. It didn't evolve in that place, so the usual checks that keep a population in line, like predators, parasites, and competitors, often aren't present. With nothing holding it back, the population can take off.
The CED ties this directly to EK 8.7.B.1: an invasive species can either exploit a new niche free of predators or competitors, or it can outcompete native species for the same resources. Think kudzu blanketing the Southeast or zebra mussels filtering the Great Lakes. The introduction can be intentional (planted on purpose) or unintentional (hitching a ride on a ship), but the result is the same. The newcomer wins, and the native community loses ground.
This sits squarely in Unit 8: Ecology, under topic 8.7 Disruptions to Ecosystems. The learning objective is AP Bio 8.7.B: explain how invasive species affect ecosystem dynamics. It also leans on 8.3 Population Ecology, because once an invasive species lands in a niche with no predators, its growth often follows the exponential model dN/dt = B - D. The bigger theme is how populations interact with their environment and with each other, and what happens when a key piece of that balance gets removed or added. Invasive species are a textbook case of human and natural forces reshaping an ecosystem.
Keep studying AP Biology Unit 8
Native Species (Unit 8)
An invasive species is defined entirely by contrast with native species. Natives evolved in the ecosystem and fit into its existing web of predators and competitors; invasives drop in from outside and break that web, often pushing natives out, which is exactly what happens to California grassland species in the 2024 wild oat FRQ.
Exponential Growth & Carrying Capacity (Unit 8)
With no predators or competitors checking it, an invasive population can grow exponentially, modeled by dN/dt = rN. That's why a practice MCQ uses dN/dt = 0.25N to describe an invasive's growth: the J-shaped curve is the signature of a species running unchecked past the limits natives would face.
Ecological Niche & Competition (Unit 8)
Invasive species succeed by either filling an empty niche or outcompeting natives for the same niche. Zebra mussels win because they filter feed at extreme rates, monopolizing resources, which is competition playing out as a takeover rather than a standoff.
Biodiversity & Keystone Species (Unit 8)
When an invasive species replaces natives, biodiversity drops. If the species it displaces was a keystone species, the whole community structure can collapse, linking invasives to the broader story of ecosystem disruption in topic 8.7.
On MCQs, invasive species show up paired with population growth math. One question hands you dN/dt = 0.25N and asks which graph fits (answer: exponential, the J-curve), because invasives in a predator-free niche grow that way. Others, like the zebra mussel filtering questions, ask you to identify the mechanism behind invasive success (exploiting a niche, outcompeting natives) or to pick which data would show the invasive altered ecosystem energy flow. On FRQs, the framing is concrete and species-specific: the 2024 SRFRQ Q4 describes the common wild oat replacing native California grassland species, and you'd explain how it outcompetes natives for resources (EK 8.7.B.1). Your job is to name the mechanism, not just say "it's bad."
A native species evolved in and belongs to its ecosystem, kept in balance by local predators and competitors. An invasive species is non-native AND causes harm; being non-native alone isn't enough. The harm, usually outcompeting natives or exploiting a predator-free niche, is what makes it invasive.
An invasive species is non-native AND harmful; a non-native organism that causes no damage doesn't count as invasive.
Invasive species succeed by exploiting a niche free of predators or competitors, or by outcompeting native species for resources (EK 8.7.B.1).
With no predators to check them, invasive populations often grow exponentially, following dN/dt = rN.
Kudzu and zebra mussels are the CED's go-to examples, and the common wild oat in California appeared in the 2024 SRFRQ.
Introduction can be intentional or unintentional, but either way the result is disrupted ecosystem dynamics and lost biodiversity.
It's a non-native organism introduced to an ecosystem that causes harm, usually by exploiting a niche free of predators or competitors or by outcompeting native species for resources (EK 8.7.B.1). It lives in Unit 8, topic 8.7.
No. A species is only invasive if it's non-native AND causes harm to the ecosystem. Plenty of introduced species coexist without disrupting anything; the harm, like outcompeting natives, is what earns the "invasive" label.
A native species evolved in the ecosystem and is held in check by local predators and competitors. An invasive species comes from outside and lacks those checks, letting it grow unchecked and push natives out, like the wild oat replacing California grasses.
They often land in a niche with no natural predators, parasites, or strong competitors, so birth rate far outpaces death rate. That produces exponential growth, the J-shaped curve described by dN/dt = rN.
Kudzu and zebra mussels are the CED's illustrative examples. Zebra mussels filter feed at up to 1 liter per day each, and the 2024 SRFRQ used the common wild oat invading California grasslands.