Stephanie H. Robbins-Wamsley scite author profile

Vertical migrations of living organisms and settling of particle-attached organisms lead to uneven distributions of biota at different depths in the water column. In ballast tanks, heterogeneity could lead to different population estimates depending on the portion of the discharge sampled. For example, concentrations of organisms exceeding a discharge standard may not be detected if sampling occurs during periods of the discharge when concentrations are low. To determine the degree of stratification, water from ballast tanks was sampled at two experimental facilities as the tanks were drained after water was held for 1 or 5 days. Living organisms ≥50 μm were counted in discrete segments of the drain (e.g., the first 20 min of the drain operation, the second 20 min interval, etc.), thus representing different strata in the tank. In 1 and 5 day trials at both facilities, concentrations of organisms varied among drain segments, and the patterns of stratification varied among replicate trials. From numerical simulations, the optimal sampling strategy for stratified tanks is to collect multiple time-integrated samples spaced relatively evenly throughout the discharge event.

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Sample port design for ballast water sampling: Refinement of guidance regarding the isokinetic diameter

Wier

Moser

Grant³

et al. 2015

Marine Pollution Bulletin

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Measurement uncertainty in determining concentrations of living organisms

First¹,

Riley²,

Robbins-Wamsley³

et al. 2020

MBI

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Validation of a closed-housing filter skid for in-line sampling of aquatic organisms

First¹,

Lemieux

Hyland³

et al. 2012

Journal of Plankton Research

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