Biogeochemistry of upland to wetland soils, sediments, and surface waters across Mid-Atlantic and Great Lakes coastal interfaces

Allison N. Myers-Pigg; Stephanie C. Pennington; Khadijah K. Homolka; Allison M. Lewis; Opal Otenburg; Kaizad F. Patel; Peter Regier; Madison Bowe; Maxim I. Boyanov; Nathan A. Conroy; Donnie J. Day; Cooper G. Norris; Edward J. O’Loughlin; Jesse Alan Roebuck; Lucie Stetten; Vanessa L. Bailey; Kenneth M. Kemner; Nicholas D. Ward; Silver Alford; Michael P. Back; Andy Baldwin; Jade Bolinger; Jacob A. Cianci-Gaskill; Matthew J. Cooper; Alex Demeo; Kyle Derby; Derek Detweiler; Suzanne Devres-Zimmerman; Erin Eberhard; Keryn Gedan; Lee Ann Haaf; Erin Johnson; Aliya Khan; Matthew L. Kirwan; Payton Kittaka; Erika Koontz; Adam Langley; Riley Leff; Scott Lerberg; Sairah Y. Malkin; Amy M. Marcarelli; Steven E. McMurray; Tyler Messerschmidt; Taylor C. Michael; Holly A. Michael; Elizabeth C. Minor; Brian Moye; Thomas J. Mozdzer; Scott Neubauer; Andrea Pain; Michael Philben; Evan Phillips; Dannielle Pratt; Lauren Sage; Daniel Sandborn; Stacy Smith; Alexander Smith; Samina Soin-Voshell; Bongkeun Song; Amanda Sprague-Getsy; Kari St. Laurent; Lorie Staver; Alice Stearns; Rebecca Swerida; Ethan J. Theuerkauf; Katherine Tully; Rodrigo Vargas; Elizabeth Watson; Coreen Weilminster

doi:10.1038/s41597-023-02548-7

Biogeochemistry of upland to wetland soils, sediments, and surface waters across Mid-Atlantic and Great Lakes coastal interfaces

Allison N. Myers-Pigg, Stephanie C. Pennington, Khadijah K. Homolka, Allison M. Lewis, Opal Otenburg, Kaizad F. Patel, Peter Regier, Madison Bowe, Maxim I. Boyanov, Nathan A. Conroy, Donnie J. Day, Cooper G. Norris, Edward J. O’Loughlin, Jesse Alan Roebuck, Lucie Stetten, Vanessa L. Bailey, Kenneth M. Kemner, Nicholas D. Ward, Silver Alford, Michael P. BackAndy Baldwin, Jade Bolinger, Jacob A. Cianci-Gaskill, Matthew J. Cooper, Alex Demeo, Kyle Derby, Derek Detweiler, Suzanne Devres-Zimmerman, Erin Eberhard, Keryn Gedan, Lee Ann Haaf, Erin Johnson, Aliya Khan, Matthew L. Kirwan, Payton Kittaka, Erika Koontz, Adam Langley, Riley Leff, Scott Lerberg, Sairah Y. Malkin, Amy M. Marcarelli, Steven E. McMurray, Tyler Messerschmidt, Taylor C. Michael, Holly A. Michael, Elizabeth C. Minor, Brian Moye, Thomas J. Mozdzer, Scott Neubauer, Andrea Pain, Michael Philben, Evan Phillips, Dannielle Pratt, Lauren Sage, Daniel Sandborn, Stacy Smith, Alexander Smith, Samina Soin-Voshell, Bongkeun Song, Amanda Sprague-Getsy, Kari St. Laurent, Lorie Staver, Alice Stearns, Rebecca Swerida, Ethan J. Theuerkauf, Katherine Tully, Rodrigo Vargas, Elizabeth Watson, Coreen Weilminster

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Transferable 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.

Original language	English (US)
Article number	822
Journal	Scientific Data
Volume	10
Issue number	1
DOIs	https://doi.org/10.1038/s41597-023-02548-7
State	Published - Dec 2023
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2023, Battelle Memorial Institute.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access

10.1038/s41597-023-02548-7

OpenUrl availability

Full text

Cite this

Myers-Pigg, A. N., Pennington, S. C., Homolka, K. K., Lewis, A. M., Otenburg, O., Patel, K. F., Regier, P., Bowe, M., Boyanov, M. I., Conroy, N. A., Day, D. J., Norris, C. G., O’Loughlin, E. J., Roebuck, J. A., Stetten, L., Bailey, V. L., Kemner, K. M., Ward, N. D., Alford, S., ... Weilminster, C. (2023). Biogeochemistry of upland to wetland soils, sediments, and surface waters across Mid-Atlantic and Great Lakes coastal interfaces. Scientific Data, 10(1), Article 822. https://doi.org/10.1038/s41597-023-02548-7

Myers-Pigg, AN, Pennington, SC, Homolka, KK, Lewis, AM, Otenburg, O, Patel, KF, Regier, P, Bowe, M, Boyanov, MI, Conroy, NA, Day, DJ, Norris, CG, O’Loughlin, EJ, Roebuck, JA, Stetten, L, Bailey, VL, Kemner, KM, Ward, ND, Alford, S, Back, MP, Baldwin, A, Bolinger, J, Cianci-Gaskill, JA, Cooper, MJ, Demeo, A, Derby, K, Detweiler, D, Devres-Zimmerman, S, Eberhard, E, Gedan, K, Haaf, LA, Johnson, E, Khan, A, Kirwan, ML, Kittaka, P, Koontz, E, Langley, A, Leff, R, Lerberg, S, Malkin, SY, Marcarelli, AM, McMurray, SE, Messerschmidt, T, Michael, TC, Michael, HA, Minor, EC, Moye, B, Mozdzer, TJ, Neubauer, S, Pain, A, Philben, M, Phillips, E, Pratt, D, Sage, L, Sandborn, D, Smith, S, Smith, A, Soin-Voshell, S, Song, B, Sprague-Getsy, A, St. Laurent, K, Staver, L, Stearns, A, Swerida, R, Theuerkauf, EJ, Tully, K, Vargas, R, Watson, E & Weilminster, C 2023, 'Biogeochemistry of upland to wetland soils, sediments, and surface waters across Mid-Atlantic and Great Lakes coastal interfaces', Scientific Data, vol. 10, no. 1, 822. https://doi.org/10.1038/s41597-023-02548-7

@article{5189718fa465402ebfd6cbf19d55b9e4,

title = "Biogeochemistry of upland to wetland soils, sediments, and surface waters across Mid-Atlantic and Great Lakes coastal interfaces",

abstract = "Transferable 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.",

author = "Myers-Pigg, {Allison N.} and Pennington, {Stephanie C.} and Homolka, {Khadijah K.} and Lewis, {Allison M.} and Opal Otenburg and Patel, {Kaizad F.} and Peter Regier and Madison Bowe and Boyanov, {Maxim I.} and Conroy, {Nathan A.} and Day, {Donnie J.} and Norris, {Cooper G.} and O{\textquoteright}Loughlin, {Edward J.} and Roebuck, {Jesse Alan} and Lucie Stetten and Bailey, {Vanessa L.} and Kemner, {Kenneth M.} and Ward, {Nicholas D.} and Silver Alford and Back, {Michael P.} and Andy Baldwin and Jade Bolinger and Cianci-Gaskill, {Jacob A.} and Cooper, {Matthew J.} and Alex Demeo and Kyle Derby and Derek Detweiler and Suzanne Devres-Zimmerman and Erin Eberhard and Keryn Gedan and Haaf, {Lee Ann} and Erin Johnson and Aliya Khan and Kirwan, {Matthew L.} and Payton Kittaka and Erika Koontz and Adam Langley and Riley Leff and Scott Lerberg and Malkin, {Sairah Y.} and Marcarelli, {Amy M.} and McMurray, {Steven E.} and Tyler Messerschmidt and Michael, {Taylor C.} and Michael, {Holly A.} and Minor, {Elizabeth C.} and Brian Moye and Mozdzer, {Thomas J.} and Scott Neubauer and Andrea Pain and Michael Philben and Evan Phillips and Dannielle Pratt and Lauren Sage and Daniel Sandborn and Stacy Smith and Alexander Smith and Samina Soin-Voshell and Bongkeun Song and Amanda Sprague-Getsy and {St. Laurent}, Kari and Lorie Staver and Alice Stearns and Rebecca Swerida and Theuerkauf, {Ethan J.} and Katherine Tully and Rodrigo Vargas and Elizabeth Watson and Coreen Weilminster",

note = "Publisher Copyright: {\textcopyright} 2023, Battelle Memorial Institute.",

year = "2023",

month = dec,

doi = "10.1038/s41597-023-02548-7",

language = "English (US)",

volume = "10",

journal = "Scientific Data",

issn = "2052-4463",

publisher = "Nature Publishing Group",

number = "1",

}

TY - JOUR

T1 - Biogeochemistry of upland to wetland soils, sediments, and surface waters across Mid-Atlantic and Great Lakes coastal interfaces

AU - Myers-Pigg, Allison N.

AU - Pennington, Stephanie C.

AU - Homolka, Khadijah K.

AU - Lewis, Allison M.

AU - Otenburg, Opal

AU - Patel, Kaizad F.

AU - Regier, Peter

AU - Bowe, Madison

AU - Boyanov, Maxim I.

AU - Conroy, Nathan A.

AU - Day, Donnie J.

AU - Norris, Cooper G.

AU - O’Loughlin, Edward J.

AU - Roebuck, Jesse Alan

AU - Stetten, Lucie

AU - Bailey, Vanessa L.

AU - Kemner, Kenneth M.

AU - Ward, Nicholas D.

AU - Alford, Silver

AU - Back, Michael P.

AU - Baldwin, Andy

AU - Bolinger, Jade

AU - Cianci-Gaskill, Jacob A.

AU - Cooper, Matthew J.

AU - Demeo, Alex

AU - Derby, Kyle

AU - Detweiler, Derek

AU - Devres-Zimmerman, Suzanne

AU - Eberhard, Erin

AU - Gedan, Keryn

AU - Haaf, Lee Ann

AU - Johnson, Erin

AU - Khan, Aliya

AU - Kirwan, Matthew L.

AU - Kittaka, Payton

AU - Koontz, Erika

AU - Langley, Adam

AU - Leff, Riley

AU - Lerberg, Scott

AU - Malkin, Sairah Y.

AU - Marcarelli, Amy M.

AU - McMurray, Steven E.

AU - Messerschmidt, Tyler

AU - Michael, Taylor C.

AU - Michael, Holly A.

AU - Minor, Elizabeth C.

AU - Moye, Brian

AU - Mozdzer, Thomas J.

AU - Neubauer, Scott

AU - Pain, Andrea

AU - Philben, Michael

AU - Phillips, Evan

AU - Pratt, Dannielle

AU - Sage, Lauren

AU - Sandborn, Daniel

AU - Smith, Stacy

AU - Smith, Alexander

AU - Soin-Voshell, Samina

AU - Song, Bongkeun

AU - Sprague-Getsy, Amanda

AU - St. Laurent, Kari

AU - Staver, Lorie

AU - Stearns, Alice

AU - Swerida, Rebecca

AU - Theuerkauf, Ethan J.

AU - Tully, Katherine

AU - Vargas, Rodrigo

AU - Watson, Elizabeth

AU - Weilminster, Coreen

PY - 2023/12

Y1 - 2023/12

N2 - Transferable 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.

AB - Transferable 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.

UR - http://www.scopus.com/inward/record.url?scp=85177775316&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85177775316&partnerID=8YFLogxK

U2 - 10.1038/s41597-023-02548-7

DO - 10.1038/s41597-023-02548-7

M3 - Article

C2 - 38001085

AN - SCOPUS:85177775316

SN - 2052-4463

VL - 10

JO - Scientific Data

JF - Scientific Data

IS - 1

M1 - 822

ER -

Biogeochemistry of upland to wetland soils, sediments, and surface waters across Mid-Atlantic and Great Lakes coastal interfaces

Abstract

Bibliographical note

UN SDGs

Access

OpenUrl availability

Other files and links

Fingerprint

Cite this