Coastal margins are important areas of materials flux that link terrestrial and marine ecosystems. Consequently, climate-mediated changes to coastal terrestrial ecosystems and hydrologic regimes have high potential to influence nearshore ocean chemistry and food web dynamics. Research from tightly coupled, high-flux coastal ecosystems can advance understanding of terrestrial–marine links and climate sensitivities more generally. In the present article, we use the northeast Pacific coastal temperate rainforest as a model system to evaluate such links. We focus on key above- and belowground production and hydrological transport processes that control the land-to-ocean flow of materials and their influence on nearshore marine ecosystems. We evaluate how these connections may be altered by global climate change and we identify knowledge gaps in our understanding of the source, transport, and fate of terrestrial materials along this coastal margin. Finally, we propose five priority research themes in this region that are relevant for understanding coastal ecosystem links more broadly.
|Title||Climate-mediated changes to linked terrestrial and marine ecosystems across the northeast Pacific coastal temperate rainforest margin|
|Authors||Allison L. Bidlack, Sarah Bisbing, Brian Buma, Heida Diefenderfer, Jason Fellman, William Floyd, Ian Giesbrecht, Amritpal Lally, Ken Lertzman, Steven Perakis, David Butman, David D'Amore, Sean W. Fleming, Eran W. Hood, Brianna K. Hunt, Peter Kiffney, Gavin McNicol, Brian Menounos, Suzanne E. Tank|
|Publication Subtype||Journal Article|
|Record Source||USGS Publications Warehouse|
|USGS Organization||Forest and Rangeland Ecosystem Science Center|
Steven S Perakis
Steven S Perakis