Where You Can See Snowdrops (Galanthus)

snowdrops, ghiocei - Galanthus by john stanbridge

TheGardenLady received this question from Charlotte.

Can you tell me where you can see snowdrops (galanthus) in the US – I cannot seem to find any listings except yours for Winterthur – if you can help, I’d be really grateful.

Check out the public Botanical gardens in your area to see if they have spring flowering bulb gardens and call them to see if they grow Galanthus-Snowdrops. Gardens that have spring show gardens should have Galanthus. Gardens such as the Denver Botanic Gardens (see here)  or the New York Botanical Garden may have them growing among their spring bulbs. Or contact the Missouri Botanical Gardens to see if they can recommend a garden with Galanthus. If you call any of the Botanical Gardens you should be able to ask for a list of the plants they exhibit.

Snowdrops in the perennial garden at the NY Botanical Garden - First spring flowers by annabelleny

Join the American Horticultural Society and contact them to take tours of gardens or learn of spring gardens you can visit to see Galanthus. Or contact the Horticultural Society in your area. The Pennsylvania Horticultural Society, for example, gives great tours of gardens that you could take to see spring bulb gardens.  See here.

Join the Garden Conservancy and visit gardens during their open gardens days. Private gardens are often open to the public on these days. One of the gardens that often shows during open garden days is David Culp’s private garden. Culp, a famous breeder of Helleborus, loves Galanthus and has them growing in his delightful garden in Downingtown, Pennsylvania.

Castle Rock State Park – Part IV

This is the fourth and final post in a series about Castle Rock State Park, submitted by a reader named Jonathan.  In the first post, Jonathan explained why he chose to write about Castle Rock State Park and he also showed where it’s located.  In the second post, Jonathan discussed the geologic history of the park.  In the third post, Jonathan discussed Castle Rock and surrounding outcroppings.  In this fourth and final post on Castle Rock State Park, Jonathan discusses the Falls Overlook, outcroppings along Saratoga Gap Trail and Ridge Trail, and Goat Rock.  Jonathan also makes some concluding remarks.

Figure 15

Approximately 1 mile from the Park’s main entrance is Castle Rock Falls and the Falls Overlook (figure 15). According to the Park’s brochure, this formation is roughly 100 feet tall. This sheer wall of Vaqueros Sandstone is somewhat of an anomaly because it doesn’t contain any of the pockmarks of tafoni found on most other formations. Since the formation is located in the Kings Creek Canyon, perhaps it is better protected from dry winds that might otherwise wick absorbed water to the rocks’ surface and bring with it the dissolved carbonic acid and calcium carbonate.

Along the roughly 2 mile stretch of the Saratoga Gap Trail, between Castle Rock Falls and Russell Point,  there are multiple outcroppings that tower over the San Lorenzo Valley (figures 16 and 17).

Continue reading “Castle Rock State Park – Part IV”

Castle Rock State Park – Part III

Figure 7                                                                                  Figure 8

This is the third post in a series about Castle Rock State Park.  It was submitted by a reader named Jonathan.  In the first post, Jonathan explained why he chose to write about Castle Rock State Park and he also showed where it’s located.  In the second post, Jonathan discussed the geologic history of the park.  In this post, Jonathan discusses Castle Rock and surrounding outcroppings.

Castle Rock (figure 7) is one most popular outcroppings, or bosses, in Castle Rock State Park. The Park’s brochure claims the formation is roughly 50 feet tall with caves that are as much as 15 to 20 feet wide, 10 to 20 feet high, and 8 to 10 feet deep. These caves, or tafoni (figure 8), are so large that in the late 19th century, when the Castle Rock School opened in this area, the first teacher, Miss Ida M. Jones, lived in a cave for 6 weeks as her cabin was being built.

Three processes of weathering play important roles in shaping these rocks: chemical weathering, mechanical  weathering, and biological weathering.

The tafoni are a product of chemical weathering whereby carbonic acid in rainwater seeps into the interior of rocks where it dissolves calcium carbonate, which cements together the grains of sand that make up Vaqueros Sandstone. Dry summer winds then wick this water to the rocks’ surface, bringing with it the dissolved carbonic acid and calcium carbonate. As the water evaporates, dissolved calcium carbonate is left to form a hard crust at the exterior of the rock. The interior of the rock continues to erode as the cementing calcium carbonate is removed, allowing for caves, cavities, or pockets to form when the outer crust is broken by a falling tree branch, hail, windblown debris, passing animals, etc (mechanical weathering).

Tafoni appear as both caves (figure 9) and intricate honeycomb-shaped latticework (figure 10). So unique are these formations that they inspired John Steinbeck to write in his short story, “The Murder,” “This happened a number of years ago in Monterey County… At the head of the canyon there stands a tremendous stone castle, buttressed and towered like those strongholds the Crusaders put up in the path of their conquests. Only a close visit to the castle shows it to be a strange accident of time and water and erosion working on soft, stratified sandstone.”

Figure 11
Mechanical weathering also impacts the structure of Castle Rock and its surrounding outcroppings. Take, for example, a Pacific Madrone that split an outcropping in half as it rooted itself in the rock’s cracks (figure 11). Finally, biological weathering is seen where lichens (combinations of fungi and algae) live on rocks and slowly eat away at the rocks’ surface (figure 12).

Figure 12

Chemical, mechanical, and biological weathering processes result in jointed outcroppings that sometimes appear as if they are not bedrock, but erratic boulders transported to their current locations by unknown forces (figure 13).

Some of these cannonball-like formations are likely the result of the same chemical process that form tafoni; the collection of calcium carbonate at a rock’s crust creates better-cemented areas called concretions (figure 14).

Dandelion: The Unappreciated Medicinal Warrior

Sinfonía de cristal (Taraxacum officinale) - Dandelion by Arbego

With the dawn of a new year and the approach of spring this is the perfect time to do some internal spring cleaning. Clearing out the buildup of winter feasts is a great way to jump start your system and ensure optimal health.

Dandelion - All Things must pass by Batikart

TheGardenLady has invited people with horticultural interests and expertise to contribute posts to this blog.  The following post  was submitted by Christy Baker, a certified Family Herbalist and Consulting Herbalist.   Christy is currently pursuing a certificate in Horticulture Therapy and a second Master’s in Landscape Architecture.

With a 30 million year history originating in Eurasia, Dandelion, Taraxacum Officinale, was once revered for its healing properties. Today however, most people think of it as a brightly colored nuisance, especially gardeners; the self fertilizing herbaceous plant does a very good job evading eviction. Instead of relentlessly fighting the Dandelion, try embracing its presence, for as many herbalists and naturalists know this small unassuming plant is a nutritious wonder.

Continue reading “Dandelion: The Unappreciated Medicinal Warrior”

Castle Rock State Park – Part II

Climbing at Castle Rock State Park by ...Rachel J..

This is the second post in a series about the geology of Castle Rock State Park.  It was submitted by a reader named Jonathan.  In the first post, Jonathan explained why he chose to write about Castle Rock State Park and he also showed where it’s located.  In this post, Jonathan will discuss the geologic history of the park.

According to geologist Richard Stanley, the rock formations of Castle Rock State Park are a component of the tertiary strata of La Honda basin, a “marine embayment that persisted through much of Tertiary time in the area of the modern Santa Cruz Mountains.” In his paper, ‘Evolution of the Tertiary La Honda Basin, Central California’ (1990), Stanley summarizes the history of this area:

The complicated geology and geologic history of the La Honda basin reflect the fact that, throughout its history, the basin has been located at or near the tectonically active plate boundary between the North American continent and various oceanic plates of the Pacific basin. The La Honda basin originated during the Paleocene, perhaps during an episode of wrench tectonism associated with oblique subduction and arrival of the Salinia terrane. Major restructuring of the basin during the Oligocene—including uplift and erosion of the basin margins, movement along the Zayante-Vergeles fault, and deposition of two sand-rich deep-sea fans—apparently resulted from the approach of the Farallon-Pacific spreading ridge and its collision with the California continental margin. During the late Oligocene and early Miocene, widespread volcanism and marine transgression accompanied an episode of regional transtension along the San Andreas fault system. Deposition of shallow marine sandstones and deeper-water siliceous mudstones occurred during much of the Miocene and Pliocene but was interrupted at least three times by brief episodes of uplift and erosion associated with transpressional wrench tectonism along the San Andreas fault. Marine deposition ended and uplift of the modern Santa Cruz Mountains began during the late Pliocene in response to the most-recent episode of regional transpression.

Stanley refers to ‘sand-rich deep-sea fans,’ which, in ‘A Dictionary of Earth Sciences’ (A. Allaby & M. Allaby, 1999) is defined as a “fan-shaped body of sediment that accumulates at the lower end of a submarine canyon, either at the foot of the continental slope or on the continental rise” (figure 4). In other words, a deep-sea fan can be thought of as an underwater version of alluvial fan.

Figure 4

According to Stanley, the sandstone, mudstone and conglomerate that were deposited by these deep-sea fans formed sedimentary rock, which was uplifted in the Santa Cruz Mountains as Vaqueros Sandstone that we see today in Castle Rock State Park.

Geologic maps of Castle Rock State Park and the surrounding region indicate that most of the Park’s outcrops are Vaqueros Sandstone (figure 5).

Figure 5

Additionally, because fossils contained within sedimentary rocks vary from the bottom to the top of layers, fossils found within the Park’s outcrops allow geologists to date the rock to be approximately 23 million years old (figure 6).

Figure 6