Shipeng Nie scite author profile

While the relationship between food web complexity and stability has been well documented, how complexity affects productivity remains elusive. In this study, we combine food web theory and a data set of 149 aquatic food webs to investigate the effect of complexity (i.e. species richness, connectance, and average interaction strength) on ecosystem productivity. We find that more complex ecosystems tend to be more productive, although different facets of complexity have contrasting effects. A higher species richness and/or average interaction strength increases productivity, whereas a higher connectance often decreases it. These patterns hold not only between realized complexity and productivity, but also characterize responses of productivity to simulated declines of complexity. Our model also predicts a negative association between productivity and stability along gradients of complexity. Empirical analyses support our predictions on positive complexity‐productivity relationships and negative productivity‐stability relationships. Our study provides a step forward towards reconciling ecosystem complexity, productivity and stability.

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Using lattice SIS epidemiological model with clustered treatment to investigate epidemic control

Nie

2020

Biosystems

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How spatial structure of species and disturbance influence the ecological invasion

Nie

2020

Ecological Modelling

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Shipeng Nie

Will a large complex system be productive?

Using lattice SIS epidemiological model with clustered treatment to investigate epidemic control

How spatial structure of species and disturbance influence the ecological invasion

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