Environmental Context Mediates Biodiversity-Ecosystem Functioning Relationships in Coastal Soft-sediment Habitats

A1 Originalartikel i en vetenskaplig tidskrift (referentgranskad)

Interna författare/redaktörer

Publikationens författare: Johanna Gammal, Marie Järnström, Guillaume Bernard, Joanna Norkko, Alf Norkko
Förläggare: SPRINGER
Publiceringsår: 2019
Tidskrift: Ecosystems
Tidskriftsakronym: ECOSYSTEMS
Volym: 22
Artikelns första sida, sidnummer: 137
Artikelns sista sida, sidnummer: 151
Antal sidor: 15
ISSN: 1432-9840


The ongoing loss of biodiversity and global environmental changes severely affect the structure of coastal ecosystems. Consequences, in terms of ecosystem functioning, are, however, difficult to predict because the context dependency of the biodiversity-ecosystem function relationships within these heterogeneous seascapes is poorly understood. To assess the effects of biological and environmental factors in mediating ecosystem functioning (nutrient cycling) in different natural habitats, intact sediment cores were collected at 18 sites on a grain size gradient from coarse sand to silt, with varying organic matter content and vegetation. To assess ecosystem functioning, solute fluxes (O-2, NH4+, PO43-, Si) across the sediment-water interface were measured. The macrofaunal communities changed along the grain size gradient with higher abundance, biomass and number of species in coarser sediments and in habitats with more vegetation. Across the whole gradient, the macrofauna cumulatively accounted for 25% of the variability in the multivariate solute fluxes, whereas environmental variables cumulatively accounted for 20%. Only the biomass and abundance of a few of the most dominant macrofauna species, not the number of species, appeared to contribute significantly to the nutrient recycling processes. Closer analyses of different sediment types (grouped into coarse, medium and fine sediment) showed that the macrofauna was an important predictor in all sediment types, but had the largest impact in fine and medium sediments. The results imply that even if the ecosystem functioning is similar in different sediment types, the underpinning mechanisms are different, which makes it challenging to generalize patterns of functioning across the heterogeneous shallow coastal zones.


Benthic macrofauna, biodiversity-ecosystem functioning, coastal zone, environmental gradient, sediment grain size, solute fluxes, Spatial heterogeneity

Senast uppdaterad 2020-05-06 vid 05:13