Chromophoric dissolved organic matter (CDOM) in a subtropical estuary (Galveston Bay, USA) and the impact of Hurricane Harvey

Gerardo Gold-Bouchot, Samuel Polis, Lauren Elizabeth Castañon, Mayra Padilla Flores, Alyssa Nicole Alsante, Daniel Conrad Ogilvie Thornton

Research output: Contribution to journalArticlepeer-review

12 Scopus citations

Abstract

The landfall of Hurricane Harvey in August 2017 provided the opportunity to study the impact of extreme freshwater discharge on chromophoric dissolved organic matter (CDOM) properties in a subtropical estuary (Galveston Bay, Texas). Both fluorescence spectroscopy (excitation-emission matrices) and a three-component parallel factor analysis (PARAFAC) model identified changes in CDOM properties. Comparing to Coble’s peaks, component 1 was similar to peak C, component 2 to peak M, and component 3 to peak B. Results clearly show three periods with distinct CDOM properties: a dry season, a wet season, and Hurricane Harvey. The dry season was characterized by higher values of the spectral slope and fluorescence and biological indices. The wet season was characterized by high values of PARAFAC components 1 and 2 (humic-like) and the absorption coefficient at 350 nm. Some CDOM components were highly correlated with salinity, indicating conservative mixing. Component 3 (protein-like) had a low correlation to salinity, suggesting degradation or production processes in the bay. Silicates and NO3- + NO2- had negative relationships with salinity and a positive one with PARAFAC components 1 and 2. PARAFAC component 3 was correlated with dissolved oxygen and chlorophyll a, suggesting a relationship between CDOM fluorescent components and phytoplankton activity. High values of the humification index were observed immediately after Hurricane Harvey, indicating increased input of terrestrial organic matter into the bay. Hurricane Harvey increased CDOM levels and humification, and the variability and changes seem to be mostly due to freshwater discharge from the San Jacinto River and not the Trinity River. The influx of freshwater was sufficient to eliminate the salinity gradient in Galveston Bay and significantly change CDOM properties. Galveston Bay recovered quickly from the hurricane and associated flux of freshwater, returning to pre-hurricane CDOM characteristics in less than 2 months.

Original languageEnglish
Pages (from-to)53045-53057
Number of pages13
JournalEnvironmental Science and Pollution Research
Volume28
Issue number38
DOIs
StatePublished - Oct 2021
Externally publishedYes

Funding

This work was partially funded by a Texas A&M University “T3 Triads for Success” grant. LC, MP, and SP thank a fellowship from the NSF Research Experience for Undergraduates (REU) “Observing the Ocean” program at the Oceanography Department, Texas A&M University (grants OCE-1455851 and OCE-1849932).

FundersFunder number
Oceanography Department, Texas A&M UniversityOCE-1455851, OCE-1849932
National Science Foundation
Texas A and M University

    Keywords

    • CDOM
    • EEM
    • Galveston Bay
    • Hurricane Harvey
    • PARAFAC
    • San Jacinto River
    • Trinity River

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