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In species-rich communities, a familiar pattern keeps showing up: a few species are common, many remain rare — and the mix of species can shift over time. Researchers show that this “shape” can be captured surprisingly well with just three basic ingredients.
To the Point:
• Biodiversity is dynamic: in many ecosystems, population sizes fluctuate — sometimes strongly — over time.
• Big pattern, small model: fluctuating growth, limits from interactions, and a steady trickle of immigration can reproduce several commonly observed forms of species-abundance patterns.
An ecosystem is not a still life. Even where everything looks stable— a woodland, a lake, the soil — the internal “bookkeeping” keeps changing: how many individuals belong to which species, and for how long. Some populations expand, others crash. That dynamism is part of what we call biodiversity, but it also carries risk: when numbers are very low, chance events and short spells of unfavorable conditions can increase the likelihood that a species disappears locally.
Across diverse habitats, ecologists often observe a similar statistical picture: a small number of species are common, while a long tail of others remains rare. Many explanations have been proposed for why this pattern appears so broadly, but a central question persists: which processes are sufficient to generate this pattern, and which factors steer it in any given system?
In a new study, scientists at the Max Planck Institute for Evolutionary Biology explore how far a deliberately simple model can go. They show that many real-world abundance patterns can be reproduced with a minimalist stochastic approach built on three building blocks. First, growth rates vary through time as conditions change. Second, populations are constrained by interactions — such as competition between species and self-limitation within a species. Third, there is a small but persistent level of immigration: a steady inflow that can top up populations that would otherwise dwindle locally.
The results underscore an important point: temporal fluctuations aren’t just “noise”. In the model, they can amplify inequality — pushing communities towards states where a few species become very common while many linger at low numbers. Two forces counteract this tendency: strong self-limitation and a small but steady inflow from outside. Together, they dampen extremes and help prevent the distribution from drifting too far towards dominance and rarity.
The authors also propose a practical way to describe ecological “regimes” using two measurable features: the shape of the abundance distribution (how strongly dominance is expressed) and the turnover rate (how quickly community composition changes through time). Combining these can make biodiversity time series easier to interpret: it helps distinguish patterns that follow from general, minimal mechanisms from those driven by system-specific details. In a period of rapid environmental change, that distinction matters — both for making datasets comparable and for spotting signals of fragility versus resilience.
Dr. Emil Mallmin
Postdoc
Department of Theoretical Biology
Max Planck Institute for Evolutionary Biology
Mallmin, E.; Traulsen, A.; De Monte, S. (2026): Fluctuating growth rates link turnover and unevenness in species-rich communities. Ecology Letters 29(2): e70333. DOI: 10.1111/ele.70333
An AI-generated image: Panoramic scientific illustration of biodiversity dynamics, featuring a rank– ...
Copyright: MPI EvolBio, ChatGPT
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