Dataset Authors

Jason Lenes

Abstract

A two-dimensional (2-D) ecosystem model, set within the De Soto Canyon ecotone of the Northern Gulf of Mexico (NGOM) and driven by 3-D flow fields from coupled circulation models, explores the daily food web and sedimentary consequences of oil-, nutrient-, and overfishing-induced transitions of dominant particle transports to the sea floor: from changing vectors of copepod fecal pellets to those of marine snow over the annual period of 2010-2011. Recent spilled petrochemicals are found to minimally impact already decimated zooplankton populations on the West Florida shelf (WFS). They facilitate instead formation of marine snow macroaggregates. The model results here replicate concurrent time series of: 1) annual sediment accumulations, measured at the sea floor; 2) bimonthly onshore nutrient supplies, due to upwelling, forced remotely by the Loop Current; and 3) near-surface weekly phytoplankton changes, seen by satellite.

Comments

Supplemental Information

Information refers to three (3) Excel documents. File: Finalrun.xlsx (one tab): Column A = simulation day (32= April 1st 2010; 396 = March 31st 2011) Column B = Station (29, 43, 46) Column C = Depth (meters) Column D = Large diatoms Rhizosolenia (mmol C m-3) Column E = Small diatoms Skeletonema (mmol C m-3) Column F = Autotrophic microflagellates (mmol C m-3) Column G = Trichodesmium (mmol C m-3) Column H = Karenia brevis (mmol C m-3) Column I = Cocholodinium (mmol C m-3) Column J-M = Heterotrophic microflagellates (mmol C m-3; mmol N m-3; mmol P m-3; mmol Fe m-3) Column N = Ammonium (mmol N m-3) Column O = Nitrate (mmol N m-3) Column P = Phosphate (mmol P m-3) Column Q = Silicate (mmol Si m-3) Column R = Dissolved Iron (mmol Fe m-3) Column S = Dissolved Inorganic Carbon (mmol C m-3) Column T = Labile Dissolved Organic Nitrogen (mmol N m-3) Column U = Refractory Dissolved Organic Nitrogen (mmol N m-3) Column V = Dissolved Organic Phosphorus (mmol P m-3) Column W = Colloidal Iron (mmol Fe m-3) Column X = Labile Dissolved Organic Carbon (mmol C m-3) Column Y = Ammonifying bacteria (mmol C m-3) Column Z = Nitrifying bacteria (mmol C m-3) Column AA-AD = Ciliates (mmol C m-3; mmol N m-3; mmol P m-3; mmol Fe m-3) Column AE-AH = Larvaceans (mmol C m-3; mmol N m-3; mmol P m-3; mmol Fe m-3) Column AI-AL = Temora (mmol C m-3; mmol N m-3; mmol P m-3; mmol Fe m-3) Column AM-AP = Centropages (mmol C m-3; mmol N m-3; mmol P m-3; mmol Fe m-3) Column AQ-AT = Fish (mmol C m-3; mmol N m-3; mmol P m-3; mmol Fe m-3) Column AU-AY = Large Detritus (mmol C m-3; mmol N m-3; mmol P m-3; mmol Si m-3; mmol Fe m-3) Column AZ-BD = Small Detritus (mmol C m-3; mmol N m-3; mmol P m-3; mmol Si m-3; mmol Fe m-3) File: Finalchl.xlsx (one tab): Tab 1 = Station 29 full simulation Tab 2 = Station 29 copepod oil mortality off Column A = Date Column B = Depth (meters) Column C = Large diatoms Rhizosolenia (ug chl l-1) Column D = Small diatoms Skeletonema (ug chl l-1) Column E = Autotrophic microflagellates (ug chl l-1) Column F = Trichodesmium (ug chl l-1) Column G = Karenia brevis (ug chl l-1) Column H = Cocholodinium (ug chl l-1) Column J = Total Chlorophyll (ug chl l-1) File: Finalflux.xlsx (two tabs) Column A = Date Column B = Mass Accumulation Rate (g cm-2 yr-1) at Station 29 Column C = Mass Accumulation Rate (g cm-2 yr-1) at Station 43 Column D = Mass Accumulation Rate (g cm-2 yr-1) at Station 46 Station Coordinates: 29: 29.4, -86.76 (400 m depth) 43: 29.15, -87.33 (1043 m depth) 46: 29.116, -87.36 (1143 m depth) |Ecological modelling.|||Sensitivity analysis. Data/model comparison.|

Purpose

The model output was generated to test the differential roles of top down and bottom up controls on material flux during the DWH event.

Keywords

Marine snow, Mass accumulation, Phytoplankton, Zooplankton, Nutrients, Ecological modeling, Oil spill

UDI

R1.x135.122:0004

Date

April 2016

Point of Contact

Name

Jason M. Lenes

Organization

University of South Florida / College of Marine Science

Funding Source

RFP-1

DOI

10.7266/N78C9T92

Rights Information

Creative Commons License
This work is licensed under a Creative Commons Public Domain Dedication 1.0 License.

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