Pictures from various trips

Devereux Slough

On our sixth field trip we visited Devereux slough and environs. After pausing to check out the middens along the side of the road leading down to the slough, we listened to the mockingbirds – always a treat. I hope now that you recognize their vocalization patterns you’ll notice them singing throughout your day…..and maybe even your night!
You can read more about the Northern Mockingbird at this site from Cornell U., as well as any birding field guide.

I found several lovely poems and haiku inspired specifically by this vocal arteest. A couple to share here:

This one from mon@rch nature blog

Mockingbird at night
would disturb the universe
and sing forever

And this one from a wonderful site called tinywords.com (“fresh haiku, delivered daily”)

first night of summer ...neither the mockingbird
nor I can sleep

copyright 2000.06.23 by gK

Perhaps you’ll be inspired to write your own nature haiku…

Ok, back to biology. The Devereux Slough is part of UCSB’s Coal Oil Point Reserve – another gem in the UC Natural Reserve System, described in a previous post. In the heart of the reserve, Devereux Slough is a seasonally flooded tidal lagoon that dries out in the summer to form salt flats and hypersaline ponds and channels.

We talked about estuaries (where a river meets the sea); a slough is a type of estuary formed at the outlet of a stream and other freshwater inputs to the ocean, and as a seasonally flooded lagoon, it is influenced by both tidal/sea and freshwater inputs.

Sloughs (and other estuaries such as bays & salt marshes) serve important ecological functions including: acting as nurseries for juvenile marine and terrestrial species, protecting shorelines from flooding and erosion (remember New Orleans), improving run-off quality by filtering nitrate and pollutants out of water, providing habitat for rare species and foraging grounds for migratory birds. BIG JOB!!

Unfortunately many sloughs and other coastal wetlands, being flat and conveniently located, well at the coast, have been filled in and built on. The sites of our California airports are almost all former slough/coastal wetland. Here’s a bit of local history for you…(from reports posted on www.countyofsb.org)

“The Goleta and Devereux Sloughs
The Goleta and Devereux sloughs were once part of a single large lagoon that sent arms of seawater as far north as Hollister Avenue almost to Lake Los Carneros. In the winter of 1861/62 a catastrophic storm filled the once navigable Goleta Slough changing it from a deepwater bay to a salt flat estuary by depositing as much as 10 to 14 feet of sediment. While the slough may eventually have returned to a deepwater bay, human intervention sealed its fate. A whale oil refinery was built there in 1879 and increased agricultural operations and related community development in the Goleta Valley fragmented and disturbed fresh water sources. Through the late 1890s and early 1900s, Mescaltitlan Island, once at the center of the slough, was used as fill for the railroad, the US Marine Base and what is now the Santa Barbara Airport. The island was gone by 1942. Still, in the 1930s the slough complexes covered about 1000 acres; today they are less than 350 acres.”
Lit cited: Tompkins, Walter. 1976. Goleta: The Good Land. Pioneer Publishing: Fresno, Ca.
This USGS map from 1903 shows the extent of the Goleta and Devereux sloughs at the time, and you can see the location of Mescalitan Island.

Walking along the edge of the slough we saw the plant that occupies the most area at the interface of water and land – pickleweed, Salicornia virginica. Though it’s not particularly tolerant of complete inundation it does have a wide tolerance for salinity levels from low salinity to extremely high, making it well suited for this zone in the marsh. Pickleweed is a halophyte, meaning that it can survive and grow in highly saline environments. I mentioned that salt in high concentrations is highly toxic to a plant, so how does pickleweed do it?

Plant that live in saline environments must have some kind of mechanism that allows it to filter out or excrete the salt from the leaves or remove it from the cells. In pickleweed some salt is filtered out at the roots by tiny sodium-potassium pumps within the cell membrane. However, there’s still a lot of salt that “leaks” into the plant. So, pickleweed has pumps within each cell that move the salt into vacuoles where it is stored. The green tissue of the plant has many large cells holding massive amounts of salt in interior vacuoles. That’s why, if you were curious (brave? crazy?) enough to taste this plant you’d have found it to be very salty, like pickles. That's how the plant got the name pickleweed. A bit further “upslope” from the pickleweed we saw one of the other salt marsh dominants, Alkali heath (Frankenia salina), and then California saltbush (Atriplex californica). Both of these species can tolerate some salt. We saw that they were both a bit “frosty” looking from the salt on their surfaces. Similar to other salt marsh species, like salt grass, they have glands which take the excess salt and secrete it out of the cells to the surface of the leaf. Read chapter 3, "Salt Marsh" in "An Island Called California" for a nice description of this habitat.

Thanks to Jordan’s reminder, we stopped to admire the work of the spittlebugs, spittling away on the coyote bush. Froghoppers (adult form) AKA spittlebugs (larval form) are in the family Cercopidae. There are some nice info sites on the web on these guys. Here are two:








spittle


At the freshwater pond – often overlooked by visitors to the slough – we saw very different plants and animals. No halophytes, but instead lots of tule (Scirpus californicus), which provides important habitat structure for all sorts of birds, including the red-winged blackbirds we saw there. (Our book - "An Island Called California" has a great chapter, entitled, "Red-Winged Blackbird" that you should read.) Tule also was important to the native Americans, as a source for making homes, baskets, and mats. You can learn how to weave your own tule mat to sleep on if you’d like.


One more thing I wanted to post information about – the beautiful metallic green beetles we saw on some of the coyote bushes was, the appropriately named, Coyote bush beetle (Trirhabda luteocincta). This species is a Chrysomelid, or leaf beetle. From the COPR insect sheet: “As their common name suggests, leaf beetles eat plants. Most are colorful, conspicuous beetles, frequently restricted in their feeding to one or a few similar plant species.… Trirhabda luteucinete, is abundant in the spring time and can be seen, as adult or larvae, on coyote brush, its host plant.”

Photos: Terrestrial plants & pollinators (SB Botanic Garden)

Here is a slideshow with photos from our fifth field trip to the Santa Barbara Botanic Garden to check out terrestrial plants and pollinators.

Santa Barbara Botanic Garden

The Botanic Garden was beautiful! This is a fantastic site to view native plants of California – all in one convenient and accessible setting. In addition to enjoying the scenery, our goal was to view plants and pollinators and talk about the relationships between them.

There is lots of good and reader-friendly information on pollination syndromes to follow-up if you are interested. A couple sites on the web are here:

from Wikipedia
from the US Forest Service

One of the plants we saw was the chaparral yucca, Yucca whipplei (we also saw these on our first field trip - up to E. Camino Cielo). As we predicted from the floral characters, this plant is indeed moth-pollinated. Similar to other yuccas, this one has an interesting life history, in that it flowers only once in its life time – after it has reached six or seven years old - produces seeds and then dies. Pollination in yuccas is almost always completely dependent on a single moth, which is almost always heavily dependent on its particular yucca species for development of its larvae. For the chaparral yucca, the moth species is Tegeticula maculata, which deposits its eggs into the yucca flowers ovules while also pollinating the flower. Read more about it here at Wayne’s Word.

A stunning flowering shrub that I hadn’t seen before was Carpenteria californica – tree anemone. This species is native to the foothills of the western side of the Sierra Nevada Mountains (Fresco County). I saw bumblebees visiting the flowers; perhaps they were attracted to the bright yellow stamens. This photo is from http://www.laspilitas.com/

I highly recommend visiting the Botanic Garden throughout the year to take advantage of the opportunity to see flowering in all our native flora!

Directions to the SB Botanic Garden

Photos: Rocky Intertidal (Arroyo Hondo)

Here is a slideshow with photos from our fourth field trip to the Rocky Intertidal at Arroyo Hondo.

Arroyo Hondo and our class

I really like the bridges at Arroyo Hondo. The concrete one was built in 1918 as part of the original highway (more details from some road enthusiasts). The culvert that goes underneath the bridges (a picture from when I visited a while ago) is steelhead trout habitat.


The beach had zillions of sea anemones, both underwater (waving around and greenish from algae) and hanging out on the rocks (closed up and camouflaged with sand). We weren't sure why some of them had white spots in their tentacles.

Photos: Oak Woodland (Sedgwick Reserve)

Here is a slideshow with photos from our third field trip to the Oak Woodlands at Sedgwick Reserve.

Sedgwick Reserve notes

Things I wrote down in my notebook:

• Sedgwick Reserve was the ranch of "Duke" Sedgwick, Edie Sedgwick's father.
• Valley Oaks can live to hundreds of years old, but humans have cut many of them down because people like to live in valleys too.
  
• Mistletoe is a hemiparasite with sticky seeds that are probably transported by birds.
• Serpentine is a slightly toxic green rock; certain plants grow on it that don't tend to live elsewhere.
  
• Most grasses here are non-native, except for some bunchgrass. The native grasses only really still rule the places with poor soil.
  
• This habitat is mostly very old trees and annual undergrowth.
  
• The organic lavender farm on the way to the reserve belongs to a former gossip columnist.
  
• The cows on the nearby ranches and ranchettes look like Oreos.
  
• This giant tree probably belongs to a related group of acorn woodpeckers that returns to it every year.
  

Sedgwick Reserve

To learn about grassland and oak woodland communities we visited Sedgwick Reserve – one of the gems in the University of California’s Natural Reserve System. The NRS is truly remarkable. Established as a network of protected sites that would broadly represent California's rich ecological diversity, the system now includes a total of 36 reserves that encompass approximately 130,000 acres of protected natural land available for university-level instruction, research, and public outreach. It is the largest university-operated system of natural reserves in the world. The people who initially conceived of this system, and work to maintain it are visionaries and heroes in my opinion!

Back to Sedgwick… this is one of, if not THE largest of the reserves in the NRS and is right in our “backyard”. This nearly 6000 acre former ranch is located at the base of Figueroa Mountain in the Santa Ynez Valley in the center of our county. The reserve is diverse in its environmental conditions (large elevational gradient, distinctive geologic formations, two distinct watersheds) and vegetation types, which include coast live oak forest, blue oak woodland, valley oak savannah, buckbrush chaparral, coastal sage scrub, grassland, willow riparian forest, and agricultural lands. The natural communities we focused on were grassland and oak woodland.
Your book, “An Island Called California”, has two very nice and relevant chapters – “California’s Kansas”, and “Woodpeckers in Oak Trees”.

Two more reading suggestions (I love these books and refer to them often in my own work):
Oaks of California, by Bruce Pavlik, Pamela Muick, Sharon Johnson, and Marjorie Popper

The Life of an Oak, by Glenn Keator

Two of the epiphytes we saw, especially on valley oaks (Quercus lobata), function quite differently in relation to the tree they’re found on. The first was mistletoe (Phoradendron villosum), the hemiparasite that derives all its water and mineral nutrients from the host tree. The second was lace lichen (Ramalina menziesii), which most likely does no harm to the tree itself, and in fact provides its host/the oak with wind-borne nutrients that are captured, run off the lichen when it rains, and are deposited in the soil below the tree canopy.

Check out these nice descriptions of lace lichen and oak mistletoe on the UC Hastings Reserve website. (Hastings is yet another gem in the NRS system!)

Thanks to Josh and Britta for the nice photos from our trip.

Map to our field trip site: