Trutta is experienced in collecting high-quality cross-sectional transect and bathymetric data over long stretches of water of all sizes. Where bathymetric cross-sectional transects are needed, sampling is conducted perpendicular to the current, sampling from bank to bank. We can collect cross-sectional transects at set intervals along the main channel and at tributary confluences and other hydraulically important locations. Additionally, cross-sectional transects can be used for modeling purposes to estimate water quantity at different water surface elevations or to determine how much stream bottom is inundated at different discharge amounts. Combining this data with HDSS video footage and other data documented in an HDSS assessment expands modeling capabilities and accuracy.
In situations where discharge is required, water velocity, water depth and distance between points will be measured at multiple points across a fixed transect using an Acoustic Doppler Current Profiler (ADCP). An ADCP and high resolution GNSS system provides accurate area and velocity measurements in small streams or large rivers. Stream discharge is calculated to be the sum of discharge within each measured subsection.
We can collect bathymetric (water depth) measurements in streams, rivers, ponds or lakes to support your project. We have numerous boats and different sonar equipment to appropriately fit the different project needs. Recently, Trutta has combined bathymetric sonar mapping with a boat-mounted LiDAR system, for situations when using drone-mounted LiDAR is not an option. By syncing the topographic and bathymetric data Trutta can now provide a complete Digital Elevation Model (DEM) of the stream corridor.
The traditional method of collecting water samples at a few locations in a stream corridor may indicate a problem exists but does not tell you why. The HDSS technique can collect samples at any frequency required over entire corridor stretches while simultaneously recording video and many other types of data. The ability to tie visual stream features with water quality trends makes it much easier and faster to identify areas where Best Management Practices (BMPs) can and should be applied to enhance stream health.
Trutta’s HDSS methodology provides not only a much more thorough analysis of water quality (100% of the survey area, not randomly selected or just easily accessible spots), but also enables root cause analysis of water quality issues throughout a stream system. In short, HDSS can reveal changes in water quality that would likely not be revealed by relying on traditional sampling methods. For example, the algae blooms in Figure 2 below are an indication of too much nutrient runoff, as compared to healthy conditions just upstream (Figure 1). Traditional water quality samples taken short distances above or below this algae bloom would miss the fact that a dry swale (Figure 1, bottom right panel ) is obviously washing nutrients into the stream at high flow.
HIGH DEFINITION FISH SURVEY
High Definition Fish Survey (HDFS) methods are a faster and lower impact option for T&E and recreational fish studies. Fish studies can be time consuming, costly and inaccurate due to equipment associated with traditional electro-shocking or netting techniques. Netting and electro-shocking can also harm fish. Finally, such techniques merely indicate the presence of fish without showing them in their native environment.
Trutta’s High Definition Fish Surveys (HDFS) use geo-referenced, underwater video cameras to visually document species occurrence, size, density and habitats. HFDS mobility and video documentation methods make it substantially faster and lower-impact than shocking or netting. HDFS also documents fish in their native environment. HDFS has documented species from darters to smallmouth bass across the U.S. HDFS has also been used in conjunction with traditional methods.
With HDFS, you can determine:
- Species present
- Species size
- Species number
- Species biomass
- Microhabitat conditions
- Longitudinal distribution