Tidal frequencies and quasiperiodic subsurface water level variations dominate redox dynamics in a salt marsh system

Author:

Grande Emilio1ORCID,Arora Bhavna2,Visser Ate3ORCID,Montalvo Maya1,Braswell Anna4,Seybold Erin5,Tatariw Corianne6,Beheshti Kathryn78,Zimmer Margaret1ORCID

Affiliation:

1. Earth and Planetary Sciences University of California Santa Cruz Santa Cruz California USA

2. Lawrence Berkeley National Laboratory, Energy Geosciences Division Berkeley California USA

3. Lawrence Livermore National Laboratory, Nuclear and Chemical Sciences Division Livermore California USA

4. School of Forest Resources and Conservation, Fisheries and Aquatic Sciences Program University of Florida Gainesville Florida USA

5. Kansas Geological Survey University of Kansas Lawrence Kansas USA

6. Department of Biological Sciences University of Alabama Birmingham Alabama USA

7. Ecology and Evolutionary Biology University of California Santa Cruz Santa Cruz California USA

8. Marine Science Institute University of California Santa Barbara Santa Barbara California USA

Funder

Office for Coastal Management

California Natural Resources Agency

Biological and Environmental Research

Office of Science

U.S. Department of Energy

University of California

Publisher

Wiley

Subject

Water Science and Technology

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