Houghton's Pond
Houghton's Pond | |
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Houghton's Pond | |
Location | Milton, Massachusetts |
Coordinates | 42°12′26″N 71°5′44″W / 42.20722°N 71.09556°W |
Type | Glacial Pond |
Basin countries | United States |
Surface area | 24 acres (97,000 m2) |
Max. depth | 42 ft (13 m) |
Houghton's Pond is a spring-fed kettle hole pond in Milton, Massachusetts, south of Boston. Like many ponds and lakes in the United States, it was formed by receding glaciers about 10,000 years ago.[1] By the standard definition of lakes being bodies of water larger than 20 acres (8.1 ha), the 24-acre (9.7 ha) pond is technically a lake.[2]
The pond is located within the Blue Hills Reservation and managed by the Massachusetts Department of Conservation and Recreation. The Massachusett tribe once fished the pond and hunted in the woodlands that surround it. The Native Americans called it Hoosic-Whisick, but around 1690, a British settler named Ralph Houghton bought 360 acres of forest and land (including the pond) to farm. He used the pond as a source of ice, drinking water and fish. His farmhouse once stood where the refreshment stand now stands.
The area is a popular destination for Massachusetts residents in all seasons. Just outside the city limits of Boston, the setting offers people the chance to quickly immerse themselves in a natural surrounding. The pond offers a visitor's center, supervised swimming area, stocked fishing, picnic areas, and various outdoor sports. The refreshment stand is on the National Register of Historic Places. The pond is surrounded by an array of hiking trails within the Blue Hills Reservation. The area is most popular in the summer for swimming and cook-outs.
See also
References
- ↑ "Houghton's Pond Recreation Area". Department of Conservation and Recreation. Retrieved 30 March 2010.
- ↑ pond, cited datum, wikipedia, 2008, the largest range of areas definitions for ponds tabulated top out circa 20 acres (8.1 ha). In the various older definitions used in the biological sciences, it is also a lake. The "light to bottom" criteria might be viable depending upon water turbidity.