Species dynamics alter community diversity-biomass stability relationships.

The relationship between community diversity and biomass variability remains a crucial ecological topic, with positive, negative and neutral diversity-stability relationships reported from empirical studies. Theory highlights the relative importance of Species-Species or Species-Environment interactions in driving diversity-stability patterns. Much previous work is based on an assumption of identical (stable) species-level dynamics. We studied ecosystem models incorporating stable, cyclic and more complex species-level dynamics, with either linear or non-linear density dependence, within a locally stable community framework. Species composition varies with increasing diversity, interacting with the correlation of species' environmental responses to drive either positive or negative diversity-stability patterns, which theory based on communities with only stable species-level dynamics fails to predict. Including different dynamics points to new mechanisms that drive the full range of diversity-biomass stability relationships in empirical systems where a wider range of dynamical behaviours are important.