Abstract
Ecosystems worldwide depend on habitat‐forming foundation species that often facilitate themselves with increasing density and patch size, while also engaging in facultative mutualisms. Anthropogenic global change (e.g., climate change, eutrophication, overharvest, land‐use change), however, is causing rapid declines of foundation species‐structured ecosystems, often typified by sudden collapse. Although disruption of obligate mutualisms involving foundation species is known to precipitate collapse (e.g., coral bleaching), how facultative mutualisms (i.e., context‐dependent, nonbinding reciprocal interactions) affect ecosystem resilience is uncertain. Here, we synthesize recent advancements and combine these with model analyses supported by real‐world examples, to propose that facultative mutualisms may pose a double‐edged sword for foundation species. We suggest that by amplifying self‐facilitative feedbacks by foundation species, facultative mutualisms can increase foundation species’ resistance to stress from anthropogenic impact. Simultaneously, however, mutualism dependency can generate or exacerbate bistability, implying a potential for sudden collapse when the mutualism's buffering capacity is exceeded, while recovery requires conditions to improve beyond the initial collapse point (hysteresis). Thus, our work emphasizes the importance of acknowledging facultative mutualisms for conservation and restoration of foundation species‐structured ecosystems, but highlights the potential risk of relying on mutualisms in the face of global change. We argue that significant caveats remain regarding the determination of these feedbacks, and suggest empirical manipulation across stress gradients as a way forward to identify related nonlinear responses.
Highlights
Facultative mutualist Lucinid bivalves van der HEIDE et al Self-facilitative feedback Dense seagrasses attenuate hydrodynamics, trap sediment and improve light conditions
As suggested by our model and earlier work (He & Silliman, 2019; Scheffer et al, 2015), when selfacilitative and mutualistic feedbacks both buffer against the same global stressor, mitigation of a second local stressor that is not affected by the feedbacks can be highly effective in enabling the ecosystem to persist in a foundation species-dominated state
It is clear that the biodiversity and functioning of many terrestrial, freshwater, and marine benthic ecosystems hinges on habitatforming foundation species (Angelini et al, 2011; Borst et al, 2018; Ellison, 2019)
Summary
Facultative mutualist Lucinid bivalves van der HEIDE et al Self-facilitative feedback Dense seagrasses attenuate hydrodynamics, trap sediment and improve light conditions When the foundation species engages in a mutualism, both feedbacks act together to amplify environmental modifications (e), and the nonlinearity of the ecosystem's response to changing global conditions (f)
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