Jump to content

Belews Lake

Coordinates: 36°17′56″N 80°02′15″W / 36.2990°N 80.0375°W / 36.2990; -80.0375
From Wikipedia, the free encyclopedia
Belews Lake
Location of Lake Mattamuskeet in North Carolina, USA.
Location of Lake Mattamuskeet in North Carolina, USA.
Belews Lake
Location of Lake Mattamuskeet in North Carolina, USA.
Location of Lake Mattamuskeet in North Carolina, USA.
Belews Lake
LocationStokes / Rockingham / Guilford / Forsyth counties, North Carolina, United States
Coordinates36°17′56″N 80°02′15″W / 36.2990°N 80.0375°W / 36.2990; -80.0375
Typereservoir
Primary inflowsBelews Creek
Primary outflowsBelews Creek
Basin countriesUnited States
Max. length5.15 miles (8.29 km)
Max. width0.96 miles (1.54 km)
Surface area3,864-acre (16 km2)
Surface elevation722 feet (220 m)[1]
Islandsnumerous islets

Belews Lake is a reservoir in Stokes, Rockingham, Guilford and Forsyth counties of North Carolina, near the towns of Stokesdale and Pine Hall. It was created in 1973 by the Duke Energy corporation as a cooling basin for the corporation's Belews Creek Steam Station, a coal-burning power plant.

There are 4 public boat ramps on the lake, with 2 being commissioned by the North Carolina Wildlife Resources Commission (NCWRC). Piney Bluff is located on the southern part of the lake, in Forsyth County, with entrance on NC Highway 65. Pine Hall Boat Launch is the closest to the plant, located in Stokes County, with the ramp being located on the west-northwest part of the lake, with entrance from Pine Hall Rd. Carolina Marina is located in the northern part of the lake, in Rockingham County, with a fee for use.

Humphreys Ridge has a boat ramp located on the eastern side of the lake, in Rockingham County. The power plant can be seen from the ramp. Cooling water was pumped back and forth between the plant and reservoir until 1986 when the corporation decided to use other methods to dispose of their coal ash waste. From 1974-1986, contaminants such as vanadium, nickel, cobalt, barium, and arsenic were introduced into the lake through the release of contaminated cooling water from the power plant back into the lake.[2] Many scientific studies were undertaken at Belews Lake and their findings, along with those conducted at the Kesterson Reservoir, are fundamental to today's understanding of the ecological risks associated with elevated selenium concentrations in aquatic systems.

Background

[edit]
Belews Creek Steam Station

The lake has a surface area of 3,864 acres (16 km2) and an 88-mile (142 km) shoreline. It is held back by a rolled earth dam and a concrete spillway. The northern portion of the lake commonly has depths of over 100 feet (30 m) and the lake reaches up to 130 feet (40 m) deep in the vicinity of the dam. There is no hydroelectric power generation at this dam, so the lake is not bound by many FERC regulations.

It was formed from Belews Creek, a small tributary of the Dan River. U.S. Route 158 and North Carolina Highway 65, as well as a number of secondary roads provide access to the lake. Boating and water skiing are common on the lake.

Two marinas on the lake include Humphrey's Ridge, which has a grill that serves food, and Carolina Marina, which has a grill, boat sales, and service facilities.

Contamination

[edit]

Belews Lake was contaminated with selenium as a result of the repeated release of wastewater generated by the adjacent Duke Energy coal-fired power plant into the lake beginning in 1974.[3] Selenium, when ingested in high concentrations is toxic to animals.[4] Selenium bioaccumulates in both terrestrial and aquatic food chains and in animals found at high trophic levels.[5] Elevated levels of selenium cause reproductive and teratogenic defects in fish populations and also inhibit gill, liver, kidney, heart, and eye function.[4]

The number of species of fish in the main basin of Belews Lake fell from 24 to 6 between 1975 and 2002.[6] One explanation for the decrease in species diversity is the sharp decline in reproduction rates of piscivorous fish, such as largemouth bass and green sunfish, after 1975 following the introduction of selenium rich coal ash sluice into the lake.[6] Another study found that 19 of the 20 original species found in Belews Lake experienced reproductive failure and no offspring successfully survived due to selenium poisoning.[4] The species composition of the lake changed from a mix of fish species at several trophic levels to a near complete dominance by fish at lower trophic levels that consume plankton and were not greatly impacted by selenium bioaccumulation.[6] Mosquitofish were found to be tolerant of heightened selenium levels and were able to thrive as other fish species were extirpated.[4]

Hundreds of analyses were run at Belews Lake as part of a 1988 study measuring potentially hazardous substances in the lake such as metals, metalloids, and pesticides, in addition to other physiochemical properties, but none were found to be of a level of concern except for selenium.[7] This led the scientists to conclude that selenium was the direct cause of fish kills in the lake.[7] Selenium was found to be the only inorganic element of an elevated concentration among the 16 elements that were measured in a 1985 review.[7]

In 1986, the coal-fired power plant stopped releasing selenium rich wastewater into the lake and instead sent dry ash waste to a landfill for disposal.[4] In the following years, sport fish, like bluegill and largemouth bass, were stocked and were successfully re-established in the lake.[4] Selenium concentrations in the water were measured at less than 1 microgram per liter in 1996 compared to a high of 20 micrograms per liter during the period of selenium loading into the system. Additionally, selenium concentrations in fish tissues were found to be 85-95% lower in 1996 compared with the period of active wastewater loading into the lake.[4] Despite the decrease in selenium concentrations in the water and in fish tissue, reproductive impairment was still observed in fish ten years after the wastewater release was halted.[4] This was due to the tendency selenium has to accumulate in sediments and slowly release back into the food web.[4] The presence of high selenium concentrations in sediments at the bottom of the lake also poses risk for quick reintroduction into the lake's food web if there were a disturbance event like a storm that mobilized the sediments.[4] Other factors extending the time it took the lake to recover was how long it takes the lake to flush out contaminated water because of its long retention time and the low rates of new water inflow both of which helped selenium persist in the lake ecosystem.[4]

Other ecological concerns

[edit]

In 2011, a species of bass called Alabama bass was illegally introduced to Belews Lake for sportfishing.[8] In 2017, a dramatic decrease in the Largemouth bass population in Belews Lake was observed while the number of invasive Alabama bass rose quickly.[8] There are concerns that smallmouth bass may also be extirpated from the lake because of interbreeding and competition with Alabama Bass.[8] To address this issue, North Carolina officials eliminated catch limits on the number and size of Alabama bass that can be caught from Belews Lake to help mitigate the ecological damage these invasive fish cause.[8] A study undertaken at Lake Norman, another reservoir in North Carolina created by Duke Energy, found the introduction of Alabama bass caused a significant shift in species composition and a decline in Largemouth bass population over ten years that never recovered. [9]

See also

[edit]

References

[edit]
  1. ^ get-direction.com website, at http://www.get-direction.com/altitude.html .
  2. ^ "Protecting Our Water from Power Plant Pollution" (PDF).
  3. ^ Lemly, A. Dennis (August 28, 1996). "Ecosystem Recovery Following Selenium Contamination in a Freshwater Reservoir". Ecotoxicology and Environmental Safety. 36 (3): 275–81. CiteSeerX 10.1.1.436.6155. doi:10.1006/eesa.1996.1515. PMID 9143456.
  4. ^ a b c d e f g h i j k Lemly, A. Dennis (2002-04-01). "Symptoms and implications of selenium toxicity in fish: the Belews Lake case example". Aquatic Toxicology. State of Science and Future Needs for Selenium Aquatic Criteria. 57 (1): 39–49. doi:10.1016/S0166-445X(01)00264-8. ISSN 0166-445X. PMID 11879937.
  5. ^ Hoffman, David J.; Rattner, Barnett A.; Burton, G. Allen Jr.; Cairns, John Jr. (2002-11-13). Handbook of Ecotoxicology. CRC Press. ISBN 978-1-4200-3250-5.
  6. ^ a b c Browne, Robert A.; Lutz, David (2010-11-01). "Lake ecosystem effects associated with top-predator removal due to selenium toxicity". Hydrobiologia. 655 (1): 137–148. doi:10.1007/s10750-010-0416-3. ISSN 1573-5117. S2CID 20167276.
  7. ^ a b c Hamilton, Steven J. (2004-06-29). "Review of selenium toxicity in the aquatic food chain". Science of the Total Environment. 326 (1): 1–31. Bibcode:2004ScTEn.326....1H. doi:10.1016/j.scitotenv.2004.01.019. ISSN 0048-9697. PMID 15142762.
  8. ^ a b c d Caranna, Kenwyn. "Invasive bass species poses threat to native largemouth and smallmouth bass in Belews Lake". Greensboro News and Record. Retrieved 2020-11-18.
  9. ^ Dorsey, Lawrence (2016). "Changes in Black Bass Population Characteristics after the Introduction of Alabama Bass in Lake Norman, North Carolina". Journal of the Southeastern Association of Fish and Wildlife Agencies. 3: 161–166.