DNR’s 2023 Chesapeake Bay Hypoxia Report

(Pixabay.com photo by mcfisher)

Dissolved oxygen conditions continue to be much better than average

Data collected by the Maryland Department of Natural Resources and Old Dominion University show that July 2023 dissolved oxygen conditions in the Chesapeake Bay mainstem of Maryland and Virginia continued to be much better than average.

The results are from samples collected during regular, twice-monthly monitoring cruises conducted by research vessels.

The hypoxic water volume — waters with less than 2 mg/l oxygen — was 1.24 and 1.03 cubic miles respectively during the early and late July monitoring cruises, compared to early and late July averages of 1.60 and 1.64 cubic miles since 1985.

This year’s data from early July ranks as the 12th smallest volume of hypoxic water volume on record and late July was the sixth smallest volume for their respective time periods. Small volumes of anoxia – areas of water with less than 0.2 mg/l oxygen – were observed in the early (0.008 cubic miles) and late July (0.094 cubic miles) monitoring cruises.

Maryland and Virginia combined results are comparable to the yearly seasonal forecast by the US Environmental Protection Agency’s Chesapeake Bay Program, US Geological Survey, University of Maryland Center for Environmental Science, and University of Michigan.

In late June, this forecast expected Chesapeake Bay mainstem hypoxic volume to be 33% lower than the 38-year average, due to reduced river flows from January through May 2023, as well as less nitrogen carried to the Bay because of nutrient management efforts. Maryland and Virginia’s monitoring results thus far have matched the forecast of better-than-average conditions.

Crabs, fish, oysters, and other creatures in the Chesapeake Bay require oxygen to survive. Scientists and natural resource managers study the volume and duration of Bay hypoxia to determine possible impacts to bay life.

Ongoing efforts to reduce nitrogen and phosphorus pollution from industrial sources, agricultural land, and cities and towns are aimed at reducing hypoxic conditions in the Bay. In the water, nitrogen and phosphorus fuel algal blooms that remove oxygen from the water when they die off.

Each year from May through October, the Maryland DNR computes hypoxia volumes from the water quality data collected by department staff and the Virginia Department of Environmental Quality.