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A minimal model of fire-vegetation feedbacks and disturbance stochasticity generates alternative stable states in grassland-shrubland-woodlands systems

Altered disturbance regimes in the context of global change are likely to have profound consequences for ecosystems. Interactions between fire and vegetation are of particular interest, as fire is a major driver of vegetation change, and vegetation properties (e.g., amount, flammability) alter fire regimes. Mediterranean-type ecosystems (MTEs) constitute a paradigmatic example of temperate fire-prone vegetation.

Marine biodiversity and ecosystem functioning: What's known and what's next?

Building coral reef resilience through assisted evolution

Metabolic theory predicts whole-ecosystem properties

Dispersal dynamics in food webs

Linking the green and brown worlds: The prevalence and effect of multichannel feeding in food webs

A top-down regional assessment of urban greenhouse gas emissions in Europe

Shifting regimes and changing interactions in the Lake Washington, U.S.A., plankton community from 1962-1994

Phenology and productivity of C3 and C4 grasslands in Hawaii

Unexpected phenological responses of butterflies to the interaction of urbanization and geographic temperature