Effects of Small Dams and Dam Removals on Stream Temperature in Massachusetts, USA
Dates
Publication Date
2022-09-28
Start Date
2015-06-10
End Date
2021-10-23
Citation
Abbott, K.A., and Roy, A.H., 2022, Stream Temperature and Dissolved Oxygen Responses to Small Dams and Dam Removal in Massachusetts: U.S. Geological Survey data release, https://doi.org/10.5066/P9L2ATHV.
Summary
Small, surface-release dams can impair natural stream connectivity by disrupting the flow of water, sediment, nutrients, and biota. Many dams built during the 19th and 20th centuries have exceeded their functional lifespan, and as a result, dam removal has become an increasingly prevalent stream restoration method. However, many streams have not been consistently monitored before and after dam removal, and there is a paucity of information regarding how dam removals affect stream ecosystems across different dam, stream, and landscape characteristics. Therefore, this study aimed to quantify the effects of dams and dam removals on a critical water quality parameter (stream temperature) across 16 Massachusetts streams with completed (10 [...]
Summary
Small, surface-release dams can impair natural stream connectivity by disrupting the flow of water, sediment, nutrients, and biota. Many dams built during the 19th and 20th centuries have exceeded their functional lifespan, and as a result, dam removal has become an increasingly prevalent stream restoration method. However, many streams have not been consistently monitored before and after dam removal, and there is a paucity of information regarding how dam removals affect stream ecosystems across different dam, stream, and landscape characteristics. Therefore, this study aimed to quantify the effects of dams and dam removals on a critical water quality parameter (stream temperature) across 16 Massachusetts streams with completed (10 sites) or upcoming dam removals. We collected continuous temperature data for 1-3 years prior to removal and up to 5 years following removal in upstream, downstream, and impounded or formerly impounded reaches. Prior to dam removal, most sites experienced downstream warming, although the magnitude and spatial extent of dam impacts on temperature varied across sites. Within one year following dam removal, downstream warming was reduced or eliminated at some, but not all sites. These data suggest that the magnitude and time line of thermal recovery may vary depending on dam (e.g., dam and impoundment size), stream (e.g., upstream temperatures), and watershed characteristics (e.g., impervious/forest cover). An understanding of the factors influencing recovery of stream ecosystems following dam removal may inform our understanding of biotic responses and help set expectations for restoration.
Click on title to download individual files attached to this item.
TemperatureDataDamRemoval.csv “Temperature Data”
10.77 MB
text/csv
TemperatureMetadata.xml “Temperature Metadata” Original FGDC Metadata
View
31.02 KB
application/fgdc+xml
Purpose
The data outline temperature monitoring results from stream reaches upstream, within the impoundment or former impoundment, and downstream of dam and dam removal sites in Massachusetts. This research may be used in conjunction with stream dissolved oxygen, macroinvertebrate, and fish sampling information to inform future restoration prioritization and contribute to understanding of ecosystem recovery after dam removals. Daily temperature data collected at each data logger can be used to calculate dam-and dam removal-related responses, such as impoundment or downstream warming relative to upstream reference conditions.
