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Younger Lagoon Reserve

Younger Lagoon Reserve
IUCN category V (protected landscape/seascape)[1]
Map showing the location of Younger Lagoon Reserve
Map showing the location of Younger Lagoon Reserve
Location in California
Map showing the location of Younger Lagoon Reserve
Map showing the location of Younger Lagoon Reserve
Location in United States
Location100 Shaffer Road, Santa Cruz, California
Coordinates36°57′N 122°4′W / 36.950°N 122.067°W / 36.950; -122.067
Area72 acres (0.113 sq mi)
Governing bodyUniversity of California, Santa Cruz
Websitehttp://ucsantacruz.ucnrs.org/reserves/younger-lagoon/

Younger Lagoon Reserve is a 72-acre (28-hectare) University of California Natural Reserve System reserve on the northern shore of Monterey Bay in Santa Cruz County, California. The site is owned by the University of California and managed for teaching and research. It is adjacent to Long Marine Laboratory.

The reserve encompasses a pocket beach, seasonal lagoon, wetlands, and coastal prairie on the western edge of the city of Santa Cruz. Other features include a sea stack, sea caves, and tidepools.

History

Donald and Marion Younger, whose family had owned a ranch in the area for over a century, donated the reserve to the University of California in 1972 to enable development of Long Marine Laboratory and protect the lagoon. The reserve was made part of the UC Natural Reserve System in 1987. The university added 47 acres of adjacent farm fields, an area known as Terrace Point, to the 25-acre reserve in 2008 as part of the establishment of its Coastal Science Campus.[2]

Geography

The reserve sits on the lowest and southernmost of the series of marine terraces that make up the Santa Cruz coastline. The lagoon was formed by a coastal stream when ocean waves eroded the sea caves beneath the coastal bluffs.

The Y-shaped lagoon is seasonal, filling with winter and spring rains until winter storms erode the sandy berm at its mouth. At this point, the entire lagoon drains over the course of a few hours. Ocean waters fill the lagoon until waves reform the berm, enabling rain and runoff to freshen the waters again.

Ecology

The federally endangered tidewater goby (Eucyclogobius newberryi) is the most abundant fish species in the lagoon. Surrounding terrestrial habitats feature willow thickets, dune plants, and pickleweed marsh. Common animals range from brush rabbits and striped skunks to coyote and bobcat. Shorebirds such as willets and sanderlings forage on the beach.

Restoration efforts

Younger Lagoon deploys interns and students to restore native vegetation around the lagoon and along the coastal prairie. Their experiments revegetating bluffs covered with non-native iceplant and remnants of brussels sprout fields inform research on habitat restoration. Cape Ivy has spread throughout some areas.

Other experiments include understanding the effects of extreme drought on coastal prairie restoration across time. These studies were set up in collaboration with a global network of drought researchers called the International Drought Experiment.[3] Published work from the reserve indicates that certain traits such as slow growth rates and high leaf lobedness can decrease mortality risk when plants experience drought.[4] Studies at the International Drought Experiment plots also indicate that nonperiodic restoration activities, such as one-off planting or weeding events, can facilitate coyote bush invasion in restored coastal grasslands.[5]

References

  1. ^ Protected Area Profile for Younger Lagoon Reserve Archived February 27, 2024, at the Wayback Machine from the World Database on Protected Areas. Retrieved April 13, 2023.
  2. ^ Fiedler, Peggy Lee; Rumsey, Susan Gee; Wong, Kathleen Michelle, eds. (2013). The Environmental Legacy of the UC Natural Reserve System. University of California Press. ISBN 9780520272002.
  3. ^ "International Drought Experiment".
  4. ^ Luong, Justin C.; Holl, Karen D.; Loik, Michael E. (August 2021). "Leaf traits and phylogeny explain plant survival and community dynamics in response to extreme drought in a restored coastal grassland". Journal of Applied Ecology. 58 (8): 1670–1680. doi:10.1111/1365-2664.13909. S2CID 236373918.
  5. ^ Luong, Justin C. (4 March 2022). "Nonperiodic grassland restoration management can promote native woody shrub encroachment". Restoration Ecology. 30 (8). doi:10.1111/rec.13650. S2CID 246791865.
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