Data Name (This will be the displayed title in Catalog)
Chesapeake Bay 2023 Synthesis
Indicator Name (as exists in ecodata)
ches_bay_synthesis
Family (Which group is this indicator associated with?)
[ ] Oceanographic
[X] Habitat
[ ] Lower trophic levels
[X] Megafauna
[ ] Social
[ ] Economic
Data Description
Synthesis of Chesapeake Bay 2023 habitat conditions with implications for managed species
Introduction to Indicator (Please explain your indicator)
Chesapeake Bay is the largest estuary in the US, providing important spawning, nursery, and feeding habitat for many managed species in the Northeast US. The combination of seasonal water temperature, precipitation, salinity, and oxygen conditions in Chesapeake Bay can represent favorable or unfavorable habitat for managed species. Each species responds differently, leading to changes in populations and communities within the Bay.
Key Results and Visualization
Water column habitat conditions (temperature, salinity, and dissolved oxygen) in the Chesapeake Bay for summer and fall 2023 were generally favorable for striped bass, summer flounder, oysters, and blue crabs. However, warmer temperatures in the winter and spring may have contributed to low production of juvenile striped bass.
Salinities throughout the year were higher than average, likely a result of dry conditions that persisted from winter through fall. Higher salinities increase the area of available habitat for species such as croaker, spot, menhaden, and red drum—all marine-oriented species that prefer higher salinities—while restricting habitat area for invasive blue catfish. Salinities over about 15ppt are not tolerable by most size classes of invasive blue catfish. This may have limited their ability to occupy larger parts of tributaries and the Bay which would lessen their predation pressure on many species.
Higher salinities can also support improved oyster spawning success and spat set, but may increase disease prevalence.
Hypoxia levels in 2023 were the lowest on record (1985-2022) according to independent reports from the states of Maryland and Virginia. Low hypoxia increases the area of suitable habitat for species such as striped bass and summer flounder.
Implications
Overall, there may have been more suitable habitat available for multiple finfish and benthic species due to cooler summer water temperatures, higher salinity, and record-low hypoxia in Chesapeake Bay in 2023. Higher salinity, likely driven by low precipitation, also restricted the habitat area available for invasive blue catfish, possibly limiting their spread and impact as predators in 2023.
Spatial Scale
Chesapeake Bay
Temporal Scale
Seasonal: Dec-Feb (winter), Mar-May (spring), Jun-Aug (summer), and Sep-Nov (fall)
Synthesis Theme
[X] Multiple System Drivers
[ ] Regime Shifts
[ ] Ecosystem Reorganization
Define Variables
Synthesis of indicators Chesapeake Bay Salinity, Temperature, and Seasonal Sea Surface Temperature Anomaly
Primary Contact
Bruce.Vogt@noaa.gov
Secondary Contact
No response
Data Name (This will be the displayed title in Catalog)
Chesapeake Bay 2023 Synthesis
Indicator Name (as exists in ecodata)
ches_bay_synthesis
Family (Which group is this indicator associated with?)
Data Description
Synthesis of Chesapeake Bay 2023 habitat conditions with implications for managed species
Introduction to Indicator (Please explain your indicator)
Chesapeake Bay is the largest estuary in the US, providing important spawning, nursery, and feeding habitat for many managed species in the Northeast US. The combination of seasonal water temperature, precipitation, salinity, and oxygen conditions in Chesapeake Bay can represent favorable or unfavorable habitat for managed species. Each species responds differently, leading to changes in populations and communities within the Bay.
Key Results and Visualization
Water column habitat conditions (temperature, salinity, and dissolved oxygen) in the Chesapeake Bay for summer and fall 2023 were generally favorable for striped bass, summer flounder, oysters, and blue crabs. However, warmer temperatures in the winter and spring may have contributed to low production of juvenile striped bass.
Salinities throughout the year were higher than average, likely a result of dry conditions that persisted from winter through fall. Higher salinities increase the area of available habitat for species such as croaker, spot, menhaden, and red drum—all marine-oriented species that prefer higher salinities—while restricting habitat area for invasive blue catfish. Salinities over about 15ppt are not tolerable by most size classes of invasive blue catfish. This may have limited their ability to occupy larger parts of tributaries and the Bay which would lessen their predation pressure on many species.
Higher salinities can also support improved oyster spawning success and spat set, but may increase disease prevalence.
Hypoxia levels in 2023 were the lowest on record (1985-2022) according to independent reports from the states of Maryland and Virginia. Low hypoxia increases the area of suitable habitat for species such as striped bass and summer flounder.
Implications
Overall, there may have been more suitable habitat available for multiple finfish and benthic species due to cooler summer water temperatures, higher salinity, and record-low hypoxia in Chesapeake Bay in 2023. Higher salinity, likely driven by low precipitation, also restricted the habitat area available for invasive blue catfish, possibly limiting their spread and impact as predators in 2023.
Spatial Scale
Chesapeake Bay
Temporal Scale
Seasonal: Dec-Feb (winter), Mar-May (spring), Jun-Aug (summer), and Sep-Nov (fall)
Synthesis Theme
Define Variables
Synthesis of indicators Chesapeake Bay Salinity, Temperature, and Seasonal Sea Surface Temperature Anomaly
Indicator Category
If other, please specify indicator category
No response
Data Contributors
Bruce Vogt
Point(s) of Contact
Bruce Vogt, bruce.vogt@noaa.gov
Affiliation
NCBO
Public Availability
Source data are publicly available.
Accessibility and Constraints
No response