Evaluation of the relationships between physico-chemical parameters and the abundance of Vibrio spp. in blue crabs (Callinectes sapidus) and seawater from the Maryland Coastal Bays

Jasmine Smalls¹, John Jacobs², Howard Townsend³, Paulinus Chigbu⁴, Salina Parveen¹

Affiliations

¹ Department of Agriculture, Food, and Resource Sciences, University of Maryland Eastern Shore, Princess Anne, MD, United States.
² NOAA/NOS/NCCOS, Cooperative Oxford Laboratory, Oxford, MD, United States.
³ NOAA/NMFS/ST/Ecosystems, Cooperative Oxford Laboratory, Oxford, MD, United States.
⁴ Department of Natural Sciences, University of Maryland Eastern Shore, Princess Anne, MD, United States.

PMID: 39479213
PMCID: PMC11521862
DOI: 10.3389/fmicb.2024.1459077

Evaluation of the relationships between physico-chemical parameters and the abundance of Vibrio spp. in blue crabs (Callinectes sapidus) and seawater from the Maryland Coastal Bays

Jasmine Smalls et al. Front Microbiol. 2024.

. 2024 Oct 16:15:1459077.

doi: 10.3389/fmicb.2024.1459077. eCollection 2024.

Authors

Jasmine Smalls¹, John Jacobs², Howard Townsend³, Paulinus Chigbu⁴, Salina Parveen¹

Affiliations

¹ Department of Agriculture, Food, and Resource Sciences, University of Maryland Eastern Shore, Princess Anne, MD, United States.
² NOAA/NOS/NCCOS, Cooperative Oxford Laboratory, Oxford, MD, United States.
³ NOAA/NMFS/ST/Ecosystems, Cooperative Oxford Laboratory, Oxford, MD, United States.
⁴ Department of Natural Sciences, University of Maryland Eastern Shore, Princess Anne, MD, United States.

PMID: 39479213
PMCID: PMC11521862
DOI: 10.3389/fmicb.2024.1459077

Abstract

Introduction: Fluctuations in water quality characteristics influence the productivity of blue crabs (Callinectes sapidus), and the risk of human exposure to pathogenic Vibrio species. Thus, this study assessed the prevalence of total and pathogenic/clinical markers of Vibrio parahaemolyticus and Vibrio vulnificus in blue crabs and seawater from the Maryland Coastal Bays (MCBs) and the correlation between Vibrio levels and physicochemical parameters.

Methods: Three to five crabs and 1 L of seawater were collected monthly for 3 years (May 2018 to December 2020) from six sites within the MCBs. Hemolymph and crab tissue were extracted and pooled for each site. Extracted hemolymph, crab tissue, and seawater were analyzed for V. parahaemolyticus and V. vulnificus using the Most Probable Number (MPN) and real-time PCR methods. A one-way Analysis of Variance (ANOVA), correlations, and linear models were used to analyze the data. Akaike Information Criterion (AICc) was evaluated to determine the model that provides the best fit to the data relating to Vibrio concentrations and environmental factors.

Results: Results suggested that environmental factors could influence the growth of Vibrio spp. Both V. parahaemolyticus and V. vulnificus were more prevalent during the warmer months than colder months. Vibrio was more prevalent in crab samples compared to seawater. Vibrio vulnificus concentrations in seawater and hemolymph were positively correlated with temperature (p = 0.0143 seawater) and pH (p = 0.006 hemolymph). A negative correlation was observed between the concentration of V. vulnificus in whole crab (tissue) and dissolved oxygen level (p = 0.0256). The concentration of V. parahaemolyticus in seawater was positively correlated with temperature (p = 0.009) and negatively correlated with dissolved oxygen (p = 0.012).

Discussion: These results provide current information on the spatial and temporal distributions of Vibrio spp. in the MCBs that are useful for implementing more efficient processing and handling procedures of seafood products.

Keywords: Vibrio parahaemolyticus; Vibrio vulnificus; crabs; physicochemical parameters; predictive modeling.

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Conflict of interest statement

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Figures

**Figure 1**
Location of the six sampling sites in the Maryland Coastal Bays.

**Figure 2**
Total *Vibrio parahaemolyticus* (*tlh*⁺) in crab, hemolymph, and seawater samples for 3 years. The x-axis represents the months sampled. The left y-axis represents the average levels of total *Vibrio parahaemolyticus* for six sites. The right y-axis represents the average seawater temperature and salinity levels.

**Figure 3**
Combined annual averages of total **(a)** *Vibrio parahaemolyticus* (*tlh*⁺) and **(b)** *Vibrio vulnificus* (*vvhA*⁺) in crab, hemolymph, and seawater samples for three years. The x-axis represents the years sampled. The y-axis represents the annual average levels of total *Vibrio* spp. for six sites.

**Figure 4**
Total *Vibrio vulnificus* (*vvhA*⁺) in crab, hemolymph, and seawater samples for three years. The x-axis represents the months sampled. The left y-axis represents the average levels of total *Vibrio vulnificus* for six sites. The right y-axis represents the average seawater temperature and salinity levels.

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References

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Evaluation of the relationships between physico-chemical parameters and the abundance of Vibrio spp. in blue crabs (Callinectes sapidus) and seawater from the Maryland Coastal Bays

Affiliations

Evaluation of the relationships between physico-chemical parameters and the abundance of Vibrio spp. in blue crabs (Callinectes sapidus) and seawater from the Maryland Coastal Bays

Authors

Affiliations

Abstract

Conflict of interest statement

Figures

References

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