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1. Total dissolved nitrogen (TDN) and total dissolved phosphorus (TDP) of samples collected on the West Florida Shelf during STING II cruise EN704 on R/V Endeavor from Jul 1 to Jul 12, 2023

   https://doi.org/10.26008/1912/bco-dmo.986861.1  

   Knapp, Angela N (December 2025, Biological and Chemical Oceanography Data Management Office (BCO-DMO))

   The West Florida Shelf (WFS) is oligotrophic, with inorganic N and P concentrations typically at or below detection limits, and yet significant rates of primary productivity, including blooms of the cyanobacterial diazotroph Trichodesmium spp. as well as the harmful algal species Karenia brevis, are observed there. Consequently, dissolved organic nitrogen (DON) and dissolved organic phosphorus (DOP) are thought to be the primary sources of assimilative nutrients on the WFS. Here we report measurements of total dissolved nitrogen (TDN) and total dissolved phosphorus (TDP) concentrations made on samples collected on a cruise in July of 2023 aboard the R/V Endeavor. Elevated concentrations of TDN (>12 µM) and TDP (>0.5 µM) were observed in the shallow, nearshore region, while to the west concentrations of both TDN and TDP decreased to values typically associated with oligotrophic North Atlantic waters (4 to 5 µM TDN and 0.05 to 0.1 µM TDP). 

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2. Total dissolved nitrogen (TDN) and total dissolved phosphorus (TDP) of samples collected on the West Florida Shelf during STING I cruise AE2305 on R/V Atlantic Explorer from Feb 20 to Mar 05, 2023

   https://doi.org/10.26008/1912/bco-dmo.986688.1  

   Knapp, Angela N (December 2025, Biological and Chemical Oceanography Data Management Office (BCO-DMO))

   The West Florida Shelf (WFS) is oligotrophic, with inorganic N and P concentrations typically at or below detection limits, and yet significant rates of primary productivity, including blooms of the cyanobacterial diazotroph Trichodesmium spp. as well as the harmful algal species Karenia brevis, are observed there. Consequently, dissolved organic nitrogen (DON) and dissolved organic phosphorus (DOP) are thought to be the primary sources of assimilative nutrients on the WFS. Here we report measurements of total dissolved nitrogen (TDN) and total dissolved phosphorus (TDP) concentrations made on samples collected on a cross-shelf cruise in Feb-Mar 2023 aboard the R/V Atlantic Explorer. Elevated concentrations of TDN (>12 µM) and TDP (>0.5 µM) were observed in the shallow, nearshore region, while to the west concentrations of both TDN and TDP decreased to values typically associated with oligotrophic North Atlantic waters (4 to 5 µM TDN and 0.05 to 0.1 µM TDP). 

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3. A multidisciplinary study of the elemental sources and fluxes fueling nitrogen fixation fixation on the oligotrophic West Florida Shelf

   Knapp, Angela N; Boiteau, R; Buck, Kristen N; Caprara, S; Chappell, PD; Confesor, K; Conway, T; Hunt, Hannah; Lindgren, A; Alorda-Kleinglass, A; et al (August 2025, American Geophysical Union, 2026 Ocean Sciences Meeting)

   The West Florida Shelf (WFS) in the Gulf of America (formerly the Gulf of Mexico) is oligotrophic, with inorganic nitrogen (N) and phosphorus (P) concentrations typically at or below detection limits, and yet significant rates of primary productivity, including blooms of the harmful algal species Karenia brevis, are observed there. Additionally, multiple clades of the cyanobacterial diazotroph Trichodesmium spp. are endemic on the WFS. Consequently, dissolved organic nitrogen (DON) and dissolved organic phosphorus (DOP) are thought to be the primary sources of assimilative macro nutrients on the WFS. Here we present results from a multidisciplinary study conducted on spring and summer 2023 cruises that 1) quantified rates of N2 fixation on the WFS; 2) characterized the diazotroph community composition; 3) measured dissolved inorganic and organic and suspended particulate organic nutrient concentrations and isotopic compositions; 4) measured trace element concentrations, speciation, and isotopic composition; 5) characterized dissolved organic matter chemical composition; and, 6) quantified fluxes of these elements from submarine groundwater discharge using a radium isotope mass balance model. Additionally, quarterly sampling of the geochemistry of riverine and submarine groundwater wells defined the chemical composition of margin (i.e., riverine and submarine groundwater) inputs. Together, we use these results to understand whether submarine groundwater discharge is the dominant source of bioavailable DON, DOP, dissolved iron, and iron-binding ligands on the WFS. Additionally, we use the results to ask whether the abundance of Karenia brevis and Trichodesmium spp. are associated with enhanced submarine groundwater inputs, and whether rates of N2 fixation carried out by two different Trichodesmium spp. are associated with enhanced submarine groundwater inputs. 

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4. Dissolved Macronutrient Concentrations from Depth Profiles and Incubation Experiments from STING I Cruise AE2305 on R/V Atlantic Explorer in the Gulf of Mexico from February to March 2023

   https://doi.org/10.26008/1912/bco-dmo.929305.1  

   Buck, Kristen N; Parente, Caitlyn E; Caprara, Salvatore; Boiteau, Rene M; Chappell, Phoebe Dreux; Conway, Timothy M; Knapp, Angela N; Smith, Chris; Tamborski, Joseph; Parente, Caitlyn E (January 2024, Biological and Chemical Oceanography Data Management Office (BCO-DMO))

   Concentrations of inorganic dissolved macronutrients, including phosphate, nitrate plus nitrite (N+N), silicic acid, and nitrite, from phytoplankton shipboard incubation experiments and depth profiles collected on STING I cruise AE2305 on R/V Atlantic Explorer in the Gulf of Mexico from February to March 2023. This project investigates how groundwater discharge delivers important nutrients to the coastal ecosystems of the West Florida Shelf. Preliminary studies indicate that groundwater may supply both dissolved organic nitrogen (DON) and iron in this region. In coastal ecosystems like the West Florida Shelf that have very low nitrate and ammonium concentrations, DON is the main form of nitrogen available to organisms. Nitrogen cycling is strongly affected by iron availability because iron is essential for both photosynthesis and for nitrogen fixation. This study will investigate the sources and composition of DON and iron, and their influence on the coastal ecosystem. The team will sample offshore groundwater wells, river and estuarine waters, and conduct two expeditions across the West Florida Shelf in winter and summer. 

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5. Short-Lived Radium-Isotope (Radium-223 and -224) Specific Activity for Samples Collected Between November 2022 and March 2024 Along the West Florida Shelf (Indian Rocks Beach, Nature Coast, and Venice Headland)

   https://doi.org/10.5066/p1ziofsx  

   Chestang, Emma S; Ellis, Alisha M; Smith, Christopher G; Knapp, Angela; Tamborski, Joseph; Lindgren, Andrew (August 2025, U.S. Geological Survey)

   In 2021, a collaborative scientific investigation (National Science Foundation Grant Award OCE-2148989, Project 880516) was started for the purpose of quantifying shelf inventories and boundary fluxes of dissolved organic nitrogen and dissolved iron to the West Florida Shelf (WFS) to assess their role in supporting the oligotrophic WFS ecosystem. To assess the spatial and temporal variability in submarine groundwater as a boundary source to the shelf, scientists from the U.S. Geological Survey (USGS), St. Petersburg Coastal and Marine Science Center (SPCMSC) designed a marine well network (three transects of wells across different coastal regions) and conducted five sampling events over a 16-month period. For each trip, samples were collected from shallow (< 10 meters [m] water depth) offshore groundwater wells and coincidental water column stations. Samples were collected from the different water types for the determination of naturally occurring, short-lived isotopes of radium (Ra): Ra-223 (half-life, t1/2 = 11.4 days) and Ra-224 (t1/2 = 3.63 days). Identifiers for the transects and subsequent samples are two to three letter acronyms based on coastal communities or geographic features in Florida: Nature Coast near Hudson (NC); Indian Rocks Beach near Indian Rocks Beach (IRB), and Venice Headland near Venice (VH). Radium-223 and Radium-224 were absorbed onto manganese (di)oxide impregnated fibers (referred to as Mn-fibers from hereon) following exposure to seawater and the fiber was retained as the sample. The activities of Radium-223 and Radium-224 absorbed onto the Mn-fibers were measured on a set of Radium Delayed Coincidence Counters (RaDeCC) as outlined originally in Moore and Arnold (1996) and updated for procedural recommendations by Diego-Feliu and others (2020). Data included in this data release correspond to USGS Field Activity Number (FAN) 2022-340-FA, with associated events spanning over one year (November 2022 to March 2024) and are distinguished by alternative field activity numbers (Alt FANs) of 22WFS05, 23WFS01, 23WFS02, 23WFS03, 23WFS04, 24WFS01. Samples were acquired in November 2022, January-February 2023, May-June 2023, September 2023, December 2023, and February-March 2024, respectively. Moore, W.S., and Arnold, R., 1996, Measurement of 223Ra and 224Ra in coastal waters using a delayed coincidence counter: Journal of Geophysical Research, v. 101, no. C1, p. 1321-1329, https://doi.org/10.1029/95JC03139. Note: This data release was versioned on August 13, 2025. Please see the Suggested Citation section for details. 

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