Bio-Optical Variability of Surface Waters in the Northeastern Gulf of Mexico

Nababan, Bisman

11 April 2005

Bio-optical variability of surface waters in Northeastern Gulf of Mexico (NEGOM) was examined using satellite and in situ data. Relatively high chlorophyll-a concentration (chl>=1 mg m-3) and high colored dissolved organic mater (ag443>=0.1 m-1) were generally observed inshore, near major river mouths, and in plumes of Mississippi River water that extended offshore during the three consecutive summer seasons (1998, 1999, and 2000). River discharge dominated chlorophyll-a concentration variability inshore, particularly near major river mouths. Strong interannual variability in chlorophyll-a concentration was observed inshore from Escambia to Tampa Bay region during the winter to spring transition, which was different in 1998 compared to the winter to spring transition in 1999 and 2000. This was related to higher fresh water discharge during the 1997-1998 El Niño-Southern Oscillation event as well as strong upwelling in spring 1998. The Mississippi plume extended >500 km southeast of the Mississippi delta and up to the Florida Keys was observed for the periods extending over 14 weeks between May and September every year of the study. In general, ag443 covaried linearly and inversely with salinity inshore during spring and fall, indicating conservative mixing. The NEGOM salinity-ag443 relationship of fall 1998, i.e., Salinity=36.59-29.86*ag443 (n=8771, r2=0.86; 0.01<=ag443<=0.52, 16 <=S<=36), served as the best predictor of NEGOM salinity based on in situ ag443 observations for spring and fall seasons from all years (<3% mean percentage errors; corresponding to <1.03 psu). This may help estimate salinity from satellite ocean color data, but further testing using data from multiple years is needed to improve such relationship. While river discharge was an important source of colored dissolved organic matter (CDOM), phytoplankton blooms also contributed to CDOM formation in the NEGOM. Using a pigment index of phytoplankton taxonomic groups, the variability in biomass proportion of microphytoplankton explained up to 76% of the variability of the average of normalized phytoplankton absorption coefficients (545, 625, and 673 nm). The clorophyll-specific absorption coefficient, a*ph(440), varies by a factor of 7 (0.02-0.15 m2mg-1). Particle size and pigment composition played important roles in determining a*ph(440) variability. This must be accounted for in chlorophyll-a concentration algorithms based on aph.

Chlorophyll-a

Color dissolved organic matter

Mississippi river plume

Phytoplankton absorption

Detritus absorption

Chlorophyll-specific absorption

Salinity

Seawifs

Cyclonic and anticyclonic eddies

Packaging effect

Pigment composition

American Studies

Arts and Humanities

Modélisation des échanges dissous entre l'estuaire de la Loire et les baies côtières adjacentes / Modelling of dissolved exchanges between the Loire estuary and the adjacent coastal bays

Khojasteh Pour Fard, Iman

15 December 2015

Les estuaires sont des zones à l’interface terre-mer au coeur de la question du devenir des apports continentaux drainés par les grands bassins versants. L’objet de cette étude est focalisé sur l’estuaire de la Loire et ses zones adjacentes (i.e. baie de Bourgneuf et le Mor-Bras) situés dans le nord-est du Golfe de Gascogne. C’est un environnement soumis à l’influence significative de la marée qui se propage en amont de l’embouchure à plus de 100 km, de forçages météorologiques de moyennes latitudes donc hautement variables qui induisent en particulier des débits fluviaux pouvant varier d’un facteur dix. Cette variabilité est étudiée à l’aide d’un modèle numérique et des outils de description de la circulation qui permettent de mieux cerner les temps de séjours et de transits des eaux continentales dans l’estuaire et vers les baies riveraines. L’approche s’appuie sur un modèle en grille structurée mais dont la malléabilité pour décrire la complexité du domaine à simuler est donnée par le caractère non orthogonal des mailles employées pour la discrétisation. Le choix d’un système de coordonnées optimale (covariantes ou contravariantes) est discuté puis implémenté dans le code MARS-3D. Ce nouvel outil est qualifié et validé sur des cas-test puis implémenté en conditions réelles sur un domaine à la géométrie particulièrement accidentée. Les simulations reproduisent très finement la dynamique du grand panache de la Loire et confirment sa très grande variabilité spatiale et temporelle que décrivent partiellement des observations à haute fréquence et ponctuelles ; elles permettent de décrire les chemins privilégiés des masses d’eau à travers les sections de références choisies. / Estuaries are key areas in between land and ocean which play a major role in the spreading ofcontinental runoff drained by large watershed. This study focused on the Loire Estuary and its adjacentbays (i.e. Bourgneuf bay and Mor-Braz sea) all located in the north-east side of the bay of Biscay. It isinfluenced by the large tidal wave that propagates upstream the mouth on more than a 100 km, by highlymid-latitude meteorological forcing that may not only induced High variability in the circulation driversbut also on the river runoffs that may vary from 1 to 10 from early spring to late summer. This Highvariability is studied thanks to numerical simulation and tools dedicated to describe the circulation withsynthetic index such as transit time and mean age of water. The approach lies on a numerical modeldiscretized on a structure grid which constraints have been relaxed to better fit the fractal coastal lineusing non orthogonal grid cells. The optimal coordinate framework (co or contra-variant) have beendiscussed, and implemented within a pre-existing code (i.e. MARS-3D). This tools was validated withtest cases and implemented on a domain with a particular complex geometry. The numerical simulationscatch very accurately the dynamic of this large plume at least as it is described by available in situobservations. This numerical solution allowed to exhibit the main path of water masses through the areaand from place to place and their variability according to the main forcings.

Hydrodynamique côtière

Golfe de Gascogne

Simulations Numériques

Estuaire de la Loire

MARS-3D

Non-Orthogonal

Maillage Curviligne

Coastal Hydrodynamics

River Plume

Loire Estuary (France)

Biscay Bay

Flushing Time

MARS-3D

Non-Orthogonal

Curvilinear grid