David Costello
Kent State University
| Subject Areas: | Ecosystem ecology, Ecotoxicology |
Recent Activity
ABSTRACT:
Clay tiles and tracer particles were deployed in Mill Creek in Cleveland, OH to investigate how biofilm and streambed materials respond to high flow events. Ten cross-sectional transects were established evenly across a 100-meter reach where cinderblocks with 16 unglazed clay tiles were buried in the streambed near the deepest part of the channel to promote biofilm growth. Particles of sizes corresponding to the 50th, 75th, and 90th percentile of the substrate size classes at each transect were painted and numbered for use as tracer particles. Samples from the tiles were collected after each high-flow event and measured their biomass using chlorophyll a (chla) and ash-free dry mass (AFDM). Movement of tracer particles (yes/no) was recorded to estimate how much of the streambed moved.
ABSTRACT:
Water quality sensors were placed in 3 urban streams in Cleveland, OH and 4 urban streams in Denver, CO to estimate stream metabolism and assess response to high flow events. MiniDOT (dissolved oxygen and temperature) and Onset (specific conductance) sensors were placed mid-channel near USGS gages. Light was measured as global horizontal irradiance (GHI) and supplied by SolCast. Data collection was part of the NSF STORMS project (PI Jefferson, co-PIs Costello, Bhaskar, Turner). Specific conductance, dissolved oxygen, and light were measured every 10 minutes. Sensors were removed during winter months to avoid damage. Datasets were cleaned to remove values when sensors were out of water, buried, and removed for maintenance/calibration.
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Created: Oct. 7, 2024, 12:57 p.m.
Authors: Costello, David · Blinn, Andrew · Bhaskar, Aditi S · Jefferson, Anne J
ABSTRACT:
Water quality sensors were placed in 3 urban streams in Cleveland, OH and 4 urban streams in Denver, CO to estimate stream metabolism and assess response to high flow events. MiniDOT (dissolved oxygen and temperature) and Onset (specific conductance) sensors were placed mid-channel near USGS gages. Light was measured as global horizontal irradiance (GHI) and supplied by SolCast. Data collection was part of the NSF STORMS project (PI Jefferson, co-PIs Costello, Bhaskar, Turner). Specific conductance, dissolved oxygen, and light were measured every 10 minutes. Sensors were removed during winter months to avoid damage. Datasets were cleaned to remove values when sensors were out of water, buried, and removed for maintenance/calibration.
Created: Oct. 8, 2024, 11:52 p.m.
Authors: Blinn, Andrew · Costello, David · Jefferson, Anne J
ABSTRACT:
Clay tiles and tracer particles were deployed in Mill Creek in Cleveland, OH to investigate how biofilm and streambed materials respond to high flow events. Ten cross-sectional transects were established evenly across a 100-meter reach where cinderblocks with 16 unglazed clay tiles were buried in the streambed near the deepest part of the channel to promote biofilm growth. Particles of sizes corresponding to the 50th, 75th, and 90th percentile of the substrate size classes at each transect were painted and numbered for use as tracer particles. Samples from the tiles were collected after each high-flow event and measured their biomass using chlorophyll a (chla) and ash-free dry mass (AFDM). Movement of tracer particles (yes/no) was recorded to estimate how much of the streambed moved.