I can’t pronounce the name of my new favorite plant.

The hills are alive…

Summer means everyone is busy here in the Caribou-Targhee National Forest. The office has been mostly empty in the middle of the work days because most folks are out in the field. The flowers are filling the hillsides and just when I think the landscapes couldn’t possibly get more colorful, more beautiful, more diverse more comes into bloom. The land managers, the flowers, the wildlife are all busy making the most of the summer.

You know how there are just those plants that really catch your attention, that you see just rarely enough that you have time to miss them, and yet you see just frequently enough to remain hopeful to see them? Well, I’ve gotten to see some old friends again this season and I’ve gotten to finally see in person a few that I had only previously seen pictures of. Some of my favorites that I’ve seen this month are a mariposa lily, elephant head lousewort, and glacier lily.

…mine eyes have seen the GLORIA

I just returned from a lovely weekend in the Lemhi mountains for our local GLORIA project where I had the chance to work with a number of very knowledgeable botanists at various stages in their careers. A few of these botanists are retired and volunteer their time to this and various other botany project because they believe in the importance of and enjoy this work.

Setting up the survey area by laying out string along each cardinal and intercardinal direction.

I wanted to use this blog to do some of my own research on the background and scope of GLORIA. GLORIA, by the way, stands for Global Observation Research Initiative in Alpine Environments. I found a lot of great information online and everything I’ve summarized below comes from the primary GLORIA website: https://www.gloria.ac.at/home. It is a a global project to monitor alpine habitats over time to track the effect of climate change on alpine plant communities. The alpine is an interesting environment to collect data on for a few reasons. One is because it remains largely unaffected by other human-caused factors as it tends to have relatively low human traffic and land use. Another interesting factor is that mountain areas contain a disproportional high amount of biodiversity compared to the amount of land this habitat covers. Alpine habitat is particularly sensitive as the plant communities living there will not have much in the way of suitable substitute habitat while other species ranges are beginning to shift upwards in elevation and are beginning to encroach into alpine plant communities current habitat.

Surveying one square meter plots five vertical meters below the summit point.

One particularly interesting concept that came up while I was learning more about GLORIA is the idea of extinction debt. It describes a phenomenon where a local extinction may lag significantly behind the occurrence of habitat destruction or degradation (Kuusaari et al, 2009). This means that species may be occupying an environment that is already unsuitable for them and that they will not be able to continue to occupy (Dullinger et al, 2012). This is dangerous because when we see a species surviving in a disturbed area we are likely to assume that this means the species is more resilient than it is truly able to be or the the habitat change isn’t as impactful as it actually will turn out to be. These incorrect assumptions could lead to complacency and misinformed land management and policy decisions.

An earlier sign of local extinction than range shifting or shrinking is a decreased population size (Cotto et al, 2017). A big part of the GLORIA protocol is to create a comprehensive plant list for every summit surveyed and to estimate abundance of each plant. GLORIA is creating a long-term, standardized database of alpine plant communities that can provide us with vital information for addressing this issue, as well as many other conservation concerns for alpine areas.

Can you read that?

Some article I extracted information from.

Cotto, O., Wessely, J., Georges, D. et al. A dynamic eco-evolutionary model predicts slow response of alpine plants to climate warming. Nat Commun 8, 15399 (2017).

Dullinger, S. et al. Extinction debt of high-mountain plants under twenty-first-century climate change. Nature Climate Change 2, 619–622 (2012).

Kuussaari, M. et al. Extinction debt: A challenge for biodiversity conservation. Trends in Ecololgy & Evolution 24, 564–571 (2009).

Reaching New Heights: Alpine Hikes

Clouds come and go, but the mountains remain. The dew point temperature in the morning is typically always reached here with the cooler mornings. The increased condensation in the atmosphere makes the mountains invisible, as the surrounding clouds block your view for miles. But now that we’ve finally had 70 degree days up here, the warming temperature deviates from the dew point temperature, and all the clouds evaporate to leave a stunning view. This is one of the best ways to experience the Alaskan alpine hikes, almost as if mother nature is revealing a secret to you.

These have been my favorite places to go on the Chugach, although the flowers are still barely emerging. As my eyes scan across the land, surprisingly it is the smallest plants that catch my attention. Drosera angelica, the English Sundew, is inconspicuously about 5 cm tall and found in most peatbogs in Southcentral Alaska. This interesting character is a carnivorous plant, that uses leaves covered in red mucilaginous glands with a resin tip to lure in their prey. Once the unlucky insect is trapped, the tentacle like structures then bend toward the prey and center of the leaf to maximize contact. This unique adaptation is a survival technique to live in nitrogen deficient areas, such as bogs.

Another plant we had to get down on our hands and knees to search for is the rare Aphragmus eschscholtzianus, or Aleutian Cress. This mustard is so small, it was first described in the last 75 years. One of the terrestrial crew’s projects is to monitor the subalpine valleys saturated with snowmelt to observe long-term population change. This involves going to previously mapped plots, finding due north and due east from a monument stake, measuring a 5×4 m plot, and using quadrats to measure Aleutian Cress abundance in a given area of the plot. This work also involved traversing the hillslopes off trail to ideal habitat areas to find new populations. At first I hated it, as this work is like finding a needle in a very large haystack. After hiking all day, our crew finally found a population of about 5, giving us all a euphoria and sense of accomplishment. I thought I could rule out rare plant monitoring from my career goals but instead, this experience has only made me more indecisive.

Learning from the Alpine

“What are they looking at? They’re botanists! They should be looking at the ground!”

View from Mt. Jefferson

The botanists in question were standing on the summit of Mt. Jefferson, where we would be conducting an alpine vegetation survey for the Idaho Peaks Project. We had already seen a great amount of diversity on the four mile approach to our survey site; we passed Phacelia sericea, a relative of one of our target species (Phacelia hastata), Frasera speciosa, and a thriving population of Erythronium grandiflorum, which Alex and I were very excited to see.

One forb stood out from the rest during our hike to the alpine zone: Castilleja puberula. This species of Indian paintbrush is not only beautiful, but it is a rare species endemic to alpine zones along the Continental Divide and had previously only been sighted in Colorado and Montana.

This plant is especially interesting because of its relationship with surrounding individuals. Plants in the Castilleja genus are root hemi-parasites, meaning that they obtain water and mineral nutrients from a host plant using a specialized root called a haustorium. This structure connects the Castilleja to its host like a kind of suction cup and produce digestive enzymes to siphon away essential nutrients and water from the host. This evolutionary strategy has proven very effective: research done on eleven different species has shown that plants growing parasitically reach greater heights, show greater branching, and flower earlier in the year than non-parasitizing plants of the same species. But the benefits of this parasitism is not restricted to the Castilleja alone. When Castilleja target the dominant plant in an area, reducing its fitness, it opens up an opportunity for more plant species to move in, increasing the biodiversity of the whole area. The relationship between Castilleja and its host plant impacts the whole ecosystem.

Who says botanists don’t live on the edge?

As we move higher in elevation and closer to the timberline, we meet another noteworthy plant: Pinus albicaulis, or Whitebark Pine. Like Castilleja puberula, Whitebark Pine is one half of a fascinating symbiotic relationship.

Unlike most conifers, Whitebark Pine has indehiscent cones, so even when the seeds are ripe, the cones do not open to disperse the seeds. Why would a tree evolve to its seed stuck in a cone, completely inaccessible for reproduction?

Clark’s Nutcracker is the answer to this ecological mystery. It uses its shark beak to break open the hard scales of the pinecones and stores up to 150 of Whitebark Pine’s nutrient dense seeds in a sublingual pouch. The birds will then create seed caches of three to five seeds, typically in disturbed or open areas like a recent burn, burying them a few inches deep in the soil. Each year, an individual Clark’s Nutcracker can cache up to 100,000 seeds and rely on their amazing memory for finding their caches again later in the year- they will return to approximately 60% of their seed banks! The caches that are not returned to, and that survive predation by groundhogs and other scavengers, will germinate and grow into saplings in the years following their being planted.

Clark’s Nutcracker sighting- spot the many Castilleja in the foreground!

Whitebark Pine populations rely on Clark’s Nutcrackers as the only animal to disperse their seed. As WBP faces increasing pressure from threats like blister rust and beetle infestation, their relationship with Clark’s Nutcracker is more important than ever. As a keystone species, they are crucial members of Idaho’s ecosystems, providing nutrition for countless species of wildlife as well as soil stabilization and runoff regulation. Conserving both species is essential for the protection of western ecosystems from irreversible changes.

Our journey up Mt. Jefferson gave us an invaluable look into the diverse and beautiful plant communities present in southeastern Idaho and the wildlife species that they rely on and serve. Working with several experienced botanists to complete an intensive botanical alpine survey and help fill gaps in our understanding of alpine plant communities and Idaho’s rare plants was an immensely rewarding opportunity and, although I didn’t think it was possible, I came out of the experience with an even greater love for the wildflowers we are working to conserve every day.

-az

The One Where the Seed Girls Build a Fence

July has always been my favorite month for many reasons and this July proved to be no different. Why is July my favorite, you ask? Well, for starters, it’s my birthday month and it so happens to also be my co-intern’s and another coworker’s birthday month all within days of each other. So, as you can imagine we had a LOT of sweets this month. July came with many other reasons to celebrate though, including finishing our first seed collection, completing a project we’d been talking about since I got here, friends and family coming to visit, the fourth of July and so many other things. 

July Seed Work

We started the month off strong collecting Hedyserum boreale and finished our collection with a grand total of over 300,000 seeds. I have since been finding those seeds in every nook and cranny of my house and car. 

Our final Hedyserum boreale collection.

Once done with Hedyserum boreale we began scouting for our next species, Heterotheca villosa. Our last species was found in a location that had been burned a few years back, so it was bare, dry and extremely hot. Much to my excitement, Heterotheca villosa was found in beautifully forested areas or on mountain tops where the temperatures were much cooler and the views unlike anything I had seen before. We found this species higher in elevation so the seeds were not yet ready and wouldn’t be for a week or two, so we left them to mature and began work on other projects.

One of the sites we scouted for Heterotheca villosa.

Medicine Lake Project

The hydrology crew had been talking about the Medicine Lake project since I had started, and it had finally come time to start work on it. The project was to build a fence around Medicine Lake and the surrounding wetland to protect the water and riparian vegetation from cattle. 

Medicine Lake

In preparation for the fence, we had to move large amounts of lumber, t-posts and barbed wire to the project site, which was exhausting work, but we were in one of the most breathtaking spots I have ever worked. We began work on the fence with the help of the Grand Canyon Trust volunteers and the forest service’s range crew. After about 4 long days of hard world, a few rips in my clothes (from barb wire), and 6 Oreo pop tarts (the only thing that kept me going) the fence was complete. 

Creating a base for a section of the fence. Unsure who decided to let me use the ax…
Cows testing out the finished fence.

Now that the cows could no longer get into the wetland, we were able to put in some beaver dam analogs (BDA’s) to help restore the wetland to its natural state. This was one of my favorite parts of the project because it felt more like arts and crafts than anything. We would place aspen poles vertically across the stream channel and then weave willows between the poles to trap sediment. With enough of these placed the stream begins to flood the meadow surrounding it, turning it back into a wetland. 

Me, Savannah and Emma with one of the BDA’s.

July flew by in a flash and brought with it so much hard work but so much joy and left behind so many happy memories. Hopefully august is as sweet!

Cheers! -MS

Cattle and Beavers and Seeds, Oh My!

In July, I learned a new meaning of heat. I read an article that stated that July in 2023 was the hottest month in recorded history, and that was absolutely the case here in Moab, Utah. Nevertheless, it was an exciting month full of new knowledge, birthdays (me and Mattie both celebrated July birthdays!), and new seeds to collect.

We wrapped up collecting our first target species, Hedysarum boreale, with a collection of over 300,000 seeds! We are now collecting our second target species, Heterotheca villosa, common name: hairy false goldenaster. This member of the asteraceae family produces small, yellow flowers with a center disk that produces a dark seed with fluffy, white hairs coming out from it that make it a lot of fun to collect. Since the seeds are much smaller and lighter than the last seeds we collected, it was fun to see how many more seeds we could fit in each paper bag for this species! It is quite satisfying to pinch the little puffballs of seed and see how many you can get per pinch.

Fluffly seeds of Heterotheca villosa
Vibrant yellow flowers of Heterotheca villosa
Puffballs of seeds ready to collect

Aside from our successes in seed collection, we also got to spend time with the hydrology team here working on a big fencing project at Medicine Lake in the La Sal Mountains. The fence that we helped to build will protect a wetland that has been harmed by hummocking by cattle. This project had so many different aspects that I got to be involved with and I learned so much! We built approximately half of the fence with barbed wire, T posts, and wooden stays and the other half was log worm fence reinforced with rebar.

Log worm fence working hard to keep cattle out! A very gratifying site to behold
Two seed girls and two hydrology girls after a long day of log worm

My favorite aspect of this project was building beaver dam analogs, or BDAs. Essentially, a BDA is used to function in the same way that a beaver dam would, except that it is manmade. We constructed our BDAs using small aspen logs that get pounded vertically into the water channel, and many willow branches that get weaved in between each aspen log, much like weaving a basket. The goal of the BDAs in this project is to raise the water table in the wetland. We already noticed the water rising and spreading to different areas of the wetland from one day to the next which was super satisfying and made all the hard work worthwhile.

My first Beaver Dam Analog.

July has been incredible and filled with so many new experiences, and I can’t wait to see what August in Moab has in store for me. 🙂

“So, what do you do when you’re not working?…”

…Is what all my friends, family, and coworkers have been asking me! This month’s post is dedicated to answering that question. I could make the cliché response that I love my job so much, I feel like I’m not working. Aside from general daily/weekly tasks (laundry, meal prepping, self-care, etc.), I still have a good chunk of time to myself on weekdays and weekends. When Texan tourists seek out the natural air conditioning of the high-elevation Sacramento Mountains, I descend into the desert to go rockhounding and botanizing (with some basketry and hiking mixed in).

The Malpais Lava Flow with a view of (from left to right) Lone, Baxter, and Carrizo Mountains in the background. Sotol, Opuntia sp., cholla, beargrass (Nolina microcarpa), one-seed juniper, and Yucca sp. are abundant.

One place I’ve had the chance to visit several times this summer is the Bureau of Land Management (BLM) Valley of Fires Recreation Area. The Valley of Fires is just a 40-minute drive from Ruidoso near Carrizozo. Here, you can explore the Malpais Lava Flow. The name “Malpais” refers to the rough terrain, or “bad country”, that was a significant barrier to hooved animals and wagons. Now, a paved educational path makes it easy to walk on the craggy rocks. Not as hot as lava (but still pretty hot) is the black basalt that absorbs the heat from the desert sun. The Malpais Lava Flow is one of the longest young lava flows in the United States and is an example of a tube-fed “pahoehoe” (ropy lava) system. Researchers constrained its formation to ~5,200 years ago using cosmogenic radionuclide dating techniques. Little Black Peak–a ~100 feet tall cinder cone–is thought to be the source where an eruption likely initiated from a fissure vent, eventually progressing into a single vent that produced the cinder cone. Despite the hostile environment, many plant species typical of the Chihuahuan Desert can be found here. Animals include a number of snake and lizard species, bats, and mule deer. Many bird species also inhabit the lava flow, including roadrunners, quail, burrowing owls, and cactus wrens.

I still don’t know as much detail as I’d like about regional geologic history–especially about the formation of the Sacramento Mountains. I keep eyeing a copy of “The Geology of Southern New Mexico’s Parks, Monuments, and Public Lands” in the Ranger District’s gift shop. Maybe I’ll bring it home soon! In the meantime, I resort to the local public library to find resources on geology and rockhounding. I was able to get a Library card using an addressed letter from a friend (thanks, Julia!). While small, the Ruidoso Public Library has a decent hobby section. I found a Falcon Guide on the “140 best” rockhounding sites in New Mexico. “Eureka!”–or so I thought. I would spend the next four weekends venturing to a new location only to be disappointed over and over again. It appears that many publicized locations are over-collected. In the case of Ancho Gulch, people placed mineral claims since the guide was published in 2021! So my best bet was either to own private property (or be friends with someone who does) or persevere. I don’t plan on buying land anytime soon, so the latter was really the only option.

A dilapidated schoolhouse from the ghost town of Jicarilla located near Ancho Gulch. Silver and fleck gold can supposedly be found in the gulch, though a mineral claim had been posted there prohibiting any disturbance or prospecting in the area.

That plan worked for two localities: an old copper mine in the Gallinas Mountains and exposures of the Seven Rivers Formation along the Pecos River. Tailings from the copper mine weather into chrysocolla, malachite, and azurite. The “mine” is adjacent to an old fluorite mine, though I came up empty there with the exception of a sulking Southwestern fence lizard (Sceloporus cowlesi, right). Finding the copper minerals was relatively easy–their vibrant green provides a stark contrast against the sandy red soil. They erode out of the roadcut along the Forest Service Road, so minimal digging was required.

A stunning piece of chrysocolla from the copper mine tailings

Pecos diamonds can be found just east of the banks of the Pecos River at the second locality. A more fitting name would be “Pecos double-terminated quartz crystals”, but that’s a mouthful and not as cool-sounding as “diamond”. They vary in color, shape, and size. Some have an elongated, prismatic form, while others are pseudotrigonal prisms or even pseudocubic. The diamonds are exclusively found in weathered outcrops of the Seven Rivers Formation (part of the Artesia Group), which is a saline or shelf facies that was deposited during the Permian. Shelf facies are rocks deposited at or near the continental shelf in warm, shallow, salty waters.

Searching for exposures of the Seven Rivers Formation on Bureau of Land Management land. This stratigraphic unit is composed of evaporitic minerals, red beds (sandy-silty rock colored red from iron oxides), and dolostone. An abundance of the evaporitic mineral gypsum results in fascinating
edaphic (soil-based) endemism across many different genera.
Tiquilia hispidissima (Boraginaceae) growing on a gypsum exposure near the banks of the Pecos River.

Here, you can see the variation in the diamonds that I found. The two most common colors were cloudy-white and semi-translucent gray, while the dominant form is prismatic. I decided to store them in a small, coiled, Ponderosa pine needle bowl I made from locally-sourced pine needles.

I wanted to make something place-based that I could take with me after this position so I could have something meaningful to remember it by. Nothing has left as much of an impression on me as the Ponderosa pine. Between its vanilla-scented reddish bark (one even smelled like orange-creamsicle!) and long needles, I have been obsessed with it since moving to New Mexico. I did some research on indigenous basket weaving and learned about the coiled longleaf pine (Pinus palustris) needle baskets of the Seminole and Choctaw nations. The Mescalero Apache also make coiled baskets, though yucca is the more commonly used material. Baskets are made using a similar technique to coiled pottery, where each coil/bundle is placed on top of the previous coil. Thinner or thicker coils can be used depending on the size of the basket, while the basket walls can be shallow or steep, resulting in a diversity of forms.

I took on this project as a way to weave a utilitarian (though still aesthetic) object that symbolizes more than just a cool basket: A basket that was woven with intention and respect for the tree that gifted the needles, gathered one fascicle at a time from the forest floor. Something that will remind me of the knowledge of indigenous communities and caretakers of this land. I could make more baskets if I wanted to gift them to friends/family. Someone even suggested I sell them! That would cross a moral boundary. I am content with just this one.

Further Reading on Gypsum Endemism:

https://www2.oberlin.edu/faculty/mmoore/gypsophily.html

https://www2.oberlin.edu/faculty/mmoore/Colorado_Plateau.html

Botany, Backpacking, & Birthdays – Oh My!

July has been a BUSY month! With seed collection beginning, backpacking trips, birthdays, and National Park visits, I feel overwhelmed with information, news, and experiences.

Nolan and I were finally able to start collecting seed here in the Umpqua (YAY). From the tiny farewell to spring (Clarkia amoena) and bluehead gilia (Gilia capitata) that required hours of crawling on hands and knees to the elongated pea ponds of slender goldenbanner (Thermopsis gracilis), we’ve collected roughly pounds of seed with much more to go!

Botany crew memebers from Tiller and Diamond Lake Ranger Districts

The Diamond Lake botany crew met up with trail and botany crews from a neighboring district to tackle non-native invasive species in a wilderness area of the Forest. Our trip was a 4 day backpacking trip to Fish Lake. While there we treated hundreds of canada thistle along with himalayan blackberry. Between the two botany crews, I think I was in the running for most miles hiked- around 22 miles (give or take). This was my first backpacking trip and overall I very much enjoyed the experience!

Pheromone packet

This month I also turned 25! I spent my birthday visiting Crater Lake National Park – potentially my favorite Oregon destination… I started with a nice sunrise hike up the Watchman Peak Trail. My love for Crater Lake stems greatly from the large of amount of White Bark Pines that I can see there. While on my sunrise hike, I saw a great number of the pines and even noticed a few pheromone packets nailed to the trees. These packets are used as a short-term treatment to protect individual pine trees from mountain pine beetle attack. These beetles naturally produce pheromones that disperse other beetles away from colonized trees. AKA the patch you see in the photo above communicates to the mountain pine beetle that this tree has no vacancy, protecting it from colonization. Happy to see the efforts being made to protect these special trees!

July in the Chugach: Plants, Mushrooms and Scenic Hikes

It feels as if it was just yesterday when we arrived in Alaska. It’s crazy to think that we have already reached our halfway point and that we will be leaving 2 months from now.

Over our time here, we have hiked more than 15 different trails throughout the Chugach National Forest while we continue scouting for priority plant species, collecting voucher specimens, and creating population polygons for flowering and fruiting species. One of our main objectives for this month was to return to previously scouted sites to check on plant phenology. While most plants are still just starting to flower some species such as Lupinus nootkatensis, Calamagrostis canadensis, and Luzula parviflora are currently fruiting and will soon begin seeding.

In preparation for seed collection, we have been conducting research on the number of seeds per fruits, and fruits per plant, to determine whether or not our population polygons are large enough to produce our goal of 30,000 seeds per collection. By the looks of it, we will definitely be able to achieve this goal for these 3 species.

July has proved to be a fruitful month for the fungi of the Chugach National forest. Mushrooms are beginning to pop out of the ground along many of the trails. I even got to see my first Amanita mushroom! From what I have heard these beautiful red mushrooms will start popping up everywhere like weeds very soon.

At the beginning of this month I went on my first backpacking trip where we hiked about 30 miles in total. We started at Devils Creek trailhead and hiked out to Swan Lake (about 15 miles) where we stayed in a cabin overnight and then hiked out to Resurrection Pass North trailhead. It was such an amazing experience!

The weather this month has been unlike anything I have ever experienced. Earlier this morning it was so foggy that I could not see more than 100ft in front of me. Then as I am driving North, I drove out of the fog and into the sunlight and I could immediately see all of the mountains. The Chugach always seems to surprise you with sunshine when you least expect it, and it’s wonderful.

Lucky Month in the Tongass

July in the Tongass flew by! We started the month of with another ferry ride to Prince of Whales Island to conduct more rare plant monitoring, looking for the elusive Round Leaf Orchid (Platanthera orbiculata).

The trip to Prince of Wales had a slightly sour ending because I left my phone on the hood of the truck as we left a trail head, not realizing until we stopped at our next site location 6 miles down the road. I searched for a few hours, not wanting to give up hope but realized I was grasping at straws looking through the knee-high grasses bordering the long winding road.

Less than a week went by, and I got a message from my mom, saying that someone in Thorne Bay, AK found my phone! He mailed it over to me and I got my phone back without a scratch. He found it on Sandy Beach Road, about 5 miles from the original trail head! He was able to hack my phone and get in contact with my mom since the password was 0000, which he told me to change. Feeling very appreciative for my new friend in Thorne Bay.

We have started our collections, which has been very exciting! The picture below is me pouring Oplopanax horridus (Devil’s Club) onto some newspaper to dry. The tough part about working in a rainforest is how wet everything is. It’s important that we clean our seeds, removing all the stems, bugs, and other materials from the seeds and get them spread out to dry before the moisture causes them to mold.

The salmon are starting their runs back up the creeks and streams they were born in 5 years ago. I went to this one creek on the southern end of Ketchikan almost every day last week and there is always an amazing display of wildlife. I was finally able to line up low tide with dusk and a family of hungry Black Bears (Ursus americanus).

Watching the triplet bear cups feast was amazing, but the highlight of this month was a visit from my parents and girlfriend! It was so much fun showing them where I’ve been living and working. I was so grateful to explore, hike, kayak, and boat with them. Feeling revitalized, ready to hit the field running, and collect some more seeds!

Reclaiming the Wild and Sewing Seeds of Purpose

In July, our San Bernardino National Forest CLM team has continued to make more seed collections, but when I look back on the month, what really sticks out to me is all of the great restoration efforts we’ve been a part of! From monitoring and watering past restoration sites to preparing for the restoration of future sites, this month has really put into perspective the purpose of the work that we’re doing.

At the SBNF, the majority of our restoration crew is funded through our OHV restoration grant and it’s no wonder! A lot of the destruction caused to this forest is related to the popularity of OHVs and their misuse of our trails and FS roads. OHV riders often ride and stage in unauthorized areas and eventually these previously wild areas are reduced to compact dirt trails or patches. When this happens, it becomes difficult for some riders to differentiate between an authorized area and an illegal one. This in turn perpetuates the misuse of our forest.

The SBNF restoration team is constantly monitoring, fencing, and slashing new areas to prevent them from getting this bad. But, it can be difficult to keep up with the work that’s needed all over our mountain and sometimes these OHV damage sites require more than just fencing and slashing. That’s when our amazing volunteers come in and help us reclaim these wild areas.

Big Pine Flats Green Thumbs Volunteer Event

Big Pine Flats, the site of our most recent Green Thumbs volunteer event, is a beautiful area within our forest with a family campground and a relatively new OHV staging area. Before the designation of this staging area, the popularity of OHV riding in Big Pine Flats led to unauthorized staging and the destruction of some previously wild areas. The SBNF team has been working to regulate the use of this area now that we have a designated staging area and this month our volunteers were able to help us finish our Big Pine Flats restoration project!

The plan for this volunteer event was to outplant 158 of our greenhouse plants, and do some weeding, watering, and seed collection/dispersal. In the days leading up to the volunteer event, we visited the site and prepared the compact dirt for the incoming plant heroes: Chrysothamnus viscidiflorus and Penstemon grinnellii.

After digging 158 holes that week and loading up a couple of trucks with everything our volunteers might need for our planting day, we were ready for the big day! Our volunteers helped us plant the Chrysothamnus viscidiflorus and Penstemon grinnellii plants we’ve been growing in our nursery (from seeds collected by the SBNF restoration team!!) to speed up the restoration of the area and aid in species diversity. While working hard to restore this area, I was able to meet many of the lovely people volunteering that day. They each had their own individual experiences with volunteering and what the work means to them, but the running theme seemed to be a love for the outdoors and the satisfaction they get from helping us keep these areas beautiful and wild.

They helped us get all 158 plants into the ground and watered, then we moved on to weeding and seed collection. We collected native seeds from the plants in the surrounding area and walked around the restoration side scattering the seeds onto the ground. As we dispersed the seeds and our volunteer event came to an end, I couldn’t help but feel so happy about the work we do. We are helping to preserve the native species diversity of the area while creating events for like minded people to connect and be a part of meaningful work for the future of our forest. I’m so grateful for all of the help we had that day and can’t wait for our next volunteer event!