TY - JOUR
T1 - Context-dependency of eelgrass-clam interactions
T2 - Implications for coastal restoration
AU - Meysick, Lukas
AU - Norkko, Alf
AU - Gagnon, Karine
AU - Gräfnings, Max
AU - Boström, Christoffer
N1 - Funding Information:
Acknowledgements. This project received funding from the European Union’s Horizon 2020 research and innovation programme as part of the project MERCES: Marine Ecosystem Restoration in Changing European Seas (grant agreement no. 689518). L.M. further received funding from the Functional Marine Biodiversity Network (FunMarBio) at Åbo Akademi University. C.B. was funded through the Åbo Akademi University Foundation Sr. A.N. was funded by the Academy of Finland (Project ID 294853). We thank Carmen de los Santos (anonymity waived) and 2 anonymous reviewers for critically reviewing and thus improving this manuscript. We also thank Victoria Jakaus for field assistance during the experiment, Johannes Kleinhempel for helpful comments and the Archipelago Centre Korpoström for excellent working facilities. Für Kasi.
Funding Information:
This project received funding from the European Union?s Horizon 2020 research and innovation programme as part of the project MERCES: Marine Ecosystem Restoration in Changing European Seas (grant agreement no. 689518). L.M. further received funding from the Functional Marine Biodiversity Network (FunMarBio) at ?bo Akademi University. C.B. was funded through the ?bo Akademi University Foundation Sr. A.N. was funded by the Academy of Finland (Project ID 294853). We thank Carmen de los Santos (anonymity waived) and 2 anonymous reviewers for critically reviewing and thus improving this manuscript. We also thank Victoria Jakaus for field assistance during the experiment, Johannes Kleinhempel for helpful comments and the Archipelago Centre Korpostr?m for excellent working facilities. F?r Kasi.
Publisher Copyright:
© 2020 Inter-Research. All rights reserved.
PY - 2020/8/13
Y1 - 2020/8/13
N2 - Facilitative interactions between co-occurring species sustain diverse communities and constitute a vital functional component of coastal marine ecosystems. In seagrass ecosystems, facilitation ensures the survival and resilience of this important habitat. As seagrass meadows are in decline, innovative restoration strategies incorporating facilitative interactions could open new avenues in marine restoration. Here, we investigated the interactions between eelgrass Zostera marina and the Baltic clam Macoma balthica, and tested whether clams could enhance early survival and biomass increase of transplanted eelgrass shoots in the northern Baltic Sea. We measured eelgrass responses to differing densities of clams, as well as porewater ammonium (NH4+) and phosphate (PO43-) concentrations in field and aquarium experiments. Overall, survival of transplanted plots was high, independent of clam density. Specifically, we found that clams facilitated eelgrass above- and below-ground biomass in low porewater nutrient conditions, potentially through nutrient release, but inhibited growth in high-nutrient conditions, particularly where clams were added at high densities. Our results show the important role of infaunal bivalves for nutrient fluxes within seagrass meadows. Most notably, we highlight the importance of considering and testing context- and density-dependency when studying interspecific interactions, as clams could both benefit and hamper Zostera biomass increase. This becomes particularly crucial when incorporating such interactions in a restoration context.
AB - Facilitative interactions between co-occurring species sustain diverse communities and constitute a vital functional component of coastal marine ecosystems. In seagrass ecosystems, facilitation ensures the survival and resilience of this important habitat. As seagrass meadows are in decline, innovative restoration strategies incorporating facilitative interactions could open new avenues in marine restoration. Here, we investigated the interactions between eelgrass Zostera marina and the Baltic clam Macoma balthica, and tested whether clams could enhance early survival and biomass increase of transplanted eelgrass shoots in the northern Baltic Sea. We measured eelgrass responses to differing densities of clams, as well as porewater ammonium (NH4+) and phosphate (PO43-) concentrations in field and aquarium experiments. Overall, survival of transplanted plots was high, independent of clam density. Specifically, we found that clams facilitated eelgrass above- and below-ground biomass in low porewater nutrient conditions, potentially through nutrient release, but inhibited growth in high-nutrient conditions, particularly where clams were added at high densities. Our results show the important role of infaunal bivalves for nutrient fluxes within seagrass meadows. Most notably, we highlight the importance of considering and testing context- and density-dependency when studying interspecific interactions, as clams could both benefit and hamper Zostera biomass increase. This becomes particularly crucial when incorporating such interactions in a restoration context.
KW - Density dependence
KW - Ecosystem engineering
KW - Facilitation
KW - Macoma balthica
KW - Porewater nutrients
KW - Restoration
KW - Species interactions
KW - Zostera marina
UR - http://www.scopus.com/inward/record.url?scp=85090439336&partnerID=8YFLogxK
U2 - 10.3354/meps13408
DO - 10.3354/meps13408
M3 - Article
AN - SCOPUS:85090439336
SN - 0171-8630
VL - 647
SP - 93
EP - 108
JO - Marine Ecology Progress Series
JF - Marine Ecology Progress Series
ER -