Biodiversity effects on seedling growth are modified by light environment across functional groups.

Numerous studies have shown that biodiversity influences the functioning of ecosystems over space and time. The sensitivity of such biodiversity-ecosystem effects to environmental heterogeneity, however, remains poorly understood. In forests, seedling recruitment is a critical phase of forest dynamics, and this phase is highly sensitive to environmental heterogeneity and biotic interactions with surrounding plants.

Trophic complexity alters the diversity-multifunctionality relationship in experimental grassland mesocosms.

Plant diversity has a positive influence on the number of ecosystem functions maintained simultaneously by a community, or multifunctionality. While the presence of multiple trophic levels beyond plants, or trophic complexity, affects individual functions, the effect of trophic complexity on the diversity-multifunctionality relationship is less well known. To address this issue, we tested whether the independent or simultaneous manipulation of both plant diversity and trophic complexity impacted multifunctionality using a mesocosm experiment from Cedar Creek, Minnesota, USA.

Positive correlations in species functional contributions drive the response of multifunctionality to biodiversity loss.

Changes in biodiversity can severely affect ecosystem functioning, but the impacts of species loss on an ecosystem's ability to sustain multiple functions remain unclear. When considering individual functions, the impacts of biodiversity loss depend on correlations between species functional contributions and their extinction probabilities. When considering multiple functions, the impacts of biodiversity loss depend on correlations between species contributions to individual functions.