Biogeochemistry of upland to wetland soils, sediments, and surface waters across Mid-Atlantic and Great Lakes coastal interfaces
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Published:2023-11-24
Issue:1
Volume:10
Page:
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ISSN:2052-4463
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Container-title:Scientific Data
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language:en
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Short-container-title:Sci Data
Author:
Myers-Pigg Allison N.ORCID, Pennington Stephanie C.ORCID, Homolka Khadijah K., Lewis Allison M., Otenburg Opal, Patel Kaizad F.ORCID, Regier Peter, Bowe Madison, Boyanov Maxim I.ORCID, Conroy Nathan A., Day Donnie J., Norris Cooper G., O’Loughlin Edward J., Roebuck Jesse AlanORCID, Stetten LucieORCID, Bailey Vanessa L., Kemner Kenneth M.ORCID, Ward Nicholas D.ORCID, Alford Silver, Back Michael P., Baldwin Andy, Bolinger Jade, Cianci-Gaskill Jacob A., Cooper Matthew J., Demeo Alex, Derby Kyle, Detweiler Derek, Devres-Zimmerman Suzanne, Eberhard Erin, Gedan Keryn, Haaf LeeAnn, Johnson Erin, Khan Aliya, Kirwan Matthew L., Kittaka Payton, Koontz Erika, Langley Adam, Leff Riley, Lerberg Scott, Malkin Sairah Y., Marcarelli Amy M., McMurray Steven E., Messerschmidt Tyler, Michael Taylor C., Michael Holly A., Minor Elizabeth C., Moye Brian, Mozdzer Thomas J., Neubauer Scott, Pain Andrea, Philben Michael, Phillips Evan, Pratt Dannielle, Sage Lauren, Sandborn Daniel, Smith Stacy, Smith Alexander, Soin-Voshell Samina, Song Bongkeun, Sprague-Getsy Amanda, St. Laurent Kari, Staver Lorie, Stearns Alice, Swerida Rebecca, Theuerkauf Ethan J., Tully Katherine, Vargas Rodrigo, Watson Elizabeth, Weilminster Coreen,
Abstract
AbstractTransferable and mechanistic understanding of cross-scale interactions is necessary to predict how coastal systems respond to global change. Cohesive datasets across geographically distributed sites can be used to examine how transferable a mechanistic understanding of coastal ecosystem control points is. To address the above research objectives, data were collected by the EXploration of Coastal Hydrobiogeochemistry Across a Network of Gradients and Experiments (EXCHANGE) Consortium – a regionally distributed network of researchers that collaborated on experimental design, methodology, collection, analysis, and publication. The EXCHANGE Consortium collected samples from 52 coastal terrestrial-aquatic interfaces (TAIs) during Fall of 2021. At each TAI, samples collected include soils from across a transverse elevation gradient (i.e., coastal upland forest, transitional forest, and wetland soils), surface waters, and nearshore sediments across research sites in the Great Lakes and Mid-Atlantic regions (Chesapeake and Delaware Bays) of the continental USA. The first campaign measures surface water quality parameters, bulk geochemical parameters on water, soil, and sediment samples, and physicochemical parameters of sediment and soil.
Publisher
Springer Science and Business Media LLC
Subject
Library and Information Sciences,Statistics, Probability and Uncertainty,Computer Science Applications,Education,Information Systems,Statistics and Probability
Reference34 articles.
1. Ward, N. D. et al. Representing the function and sensitivity of coastal interfaces in Earth system models. Nat. Commun. 11, 2458 (2020). 2. Regier, P. et al. Biogeochemical control points of connectivity between a tidal creek and its floodplain. Limnol. Oceanogr. Lett. 6, 134–142 (2021). 3. Spivak, A. C., Sanderman, J., Bowen, J. L., Canuel, E. A. & Hopkinson, C. S. Global-change controls on soil-carbon accumulation and loss in coastal vegetated ecosystems. Nat. Geosci. 12, 685–692 (2019). 4. Hinson, A. L. et al. The spatial distribution of soil organic carbon in tidal wetland soils of the continental United States. Glob. Change Biol. 23, 5468–5480 (2017). 5. Baatz, R. et al. Steering operational synergies in terrestrial observation networks: Opportunity for advancing Earth system dynamics modelling. Earth Syst. Dyn. 9, 593–609 (2018).
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