Posts Tagged: restoration
The Nature Conservancy: Balancing People and Nature on the Sacramento River
The reach of The Nature Conservancy (TNC) is global, with projects that range from pristine...
The no-tech way to preserve California’s state grass
Disappearing native is like an environmental Swiss Army knife
Though it is disappearing, California's official state grass has the ability to live for 100 years or more. New research demonstrates that sheep and cattle can help it achieve that longevity.
Purple needlegrass once dominated the state's grasslands, serving as food for Native Americans and for more than 330 terrestrial creatures. Today, California has lost most of its grasslands, and the needlegrass occupies only one tenth of what remains.
It is drought resistant, promotes the health of native wildflowers by attracting beneficial root fungi, burns more slowly than non-native grasses and speeds the postfire recovery of burned lands. For these and other reasons, many who work toward habitat restoration hope to preserve the needlegrass.
“Where it grows, these tall, slender bunches become focal points, beautiful as well as environmentally beneficial,” said Loralee Larios, a UC Riverside plant ecologist affiliated with UC Agriculture and Natural Resources. “However, identifying successful management strategies for a species that can live for a couple hundred years is challenging.”
To meet that challenge, Larios teamed up with University of Oregon plant ecologist Lauren Hallett and Northern California's East Bay Regional Park District. They tracked the health of nearly 5,000 individual needlegrass clumps over six years, including an El Niño rain year as well as historic drought.
The researchers took measurements of plant health including growth and seed production. They placed small bags over many of the grass clumps to capture the seeds and quantify the number of seeds they produced.
Their findings, now published in the Journal of Applied Ecology, were that purple needlegrass did better in places where sheep were allowed to graze. The positive effects of the grazing were amplified in times of wetter weather.
Previously, the park district spent a decade trying to assess the success of its grassland maintenance techniques. However, the district's method of applying a strategy like grazing, and then measuring the percentage of needlegrass clumps in a given area resulted in data that didn't follow a discernable pattern from year to year.
“By tracking each plant over time, rather than scanning broadly across an area, we gained much more clarity about how the grass responds to the grazing,” Larios explained. “Perhaps counterintuitively, we saw that the needlegrass generally died back when sheep weren't allowed to graze on it.”
When sheep were removed from the study sites, the needlegrass in all but two of the sites became less healthy. The researchers would like to learn whether the two sites that remained healthy have needlegrasses that are genetically distinct.
Grazing is a controversial strategy for grassland restoration. Some conservationists believe sheep eating the target grass, particularly during already stressful drought years, does not enhance their survival. As far back as the 1800s, some researchers hypothesized that the combination of grazing and drought resulted in the loss of perennial grasses.
Though drought was not beneficial for any of the plants in this study, the researchers believe grazing helped needlegrass survive in at least two ways. One, by trampling on leaf litter and other organic debris, sheep created space for new needlegrass to grow.
“Sometimes you get litter that's as deep as a pencil — so much dead, non-native grass piles up. It's hard for a little seed to get enough light through all of that,” Larios said.
Secondly, sheep eat non-native grasses that generate growth-suppressing debris and compete with purple needlegrass for resources.
When the Spanish colonized California, they brought forage grasses like wild oats that they thought would benefit cattle. Those introduced grasses spread, and now dominate the state's grasslands.
“Our grasslands are known as one of the world's biggest biological invasions,” Larios said.
California has as many as 25 million acres of grasslands, equivalent to the combined areas of Massachusetts, Connecticut, and Rhode Island. Though Larios does not believe it is possible to rid the state of all non-native grasses, she said it is possible to maintain or even increase the amount of purple needlegrass.
“It's great for carbon storage, which mitigates climate change, it doesn't serve as wildfire fuel, and cultivates a space for wildflowers that pollinators are then able to use,” Larios said. “We want to keep all those benefits.”
/h3>Bringing back California’s native frogs
When Al Murphy first took the reins at the UC Hopland Research and Extension Center (HREC) back in the 1950s, he had the joy of listening to California red-legged frogs living in a couple of perennial ponds. Maybe it was the frog chorus or just the rarity of year-round water that made Al and his staff decide to keep the sheep out and declare the ponds a biological area. Despite the designation as a biological area, the ponds have lost a good deal of biodiversity since Al's time.
The native frogs took a beating thanks to bullfrogs and exotic fish such as large-mouth bass that were introduced for sport fishing and by the time Kevin Lunde did his Ph.D. on chorus frogs at HREC in 2011, there were no native frogs to be found in the ponds. Also, by removing grazing and the use of fire to manage the rangelands surrounding the ponds, tule reeds dominate the pond's edge and invasive plants such as vetch spread across the higher ground.
The recent periods of drought are devastating for most of California's ecosystems, but were good news for the ponds. They went completely dry for the first time in recorded history, and the largemouth bass died off. The long, dry period also puts us at an advantage for bullfrog eradication while the habitat for the species is limited. As part of the restoration efforts, HREC staff removed some of the bullrush and community volunteers along with members from the California Conservation Corps spent the day translocating spike rush plants from nearby locations to the recently cleared areas along the edge of the pond to provide additional warm, shallow sunning areas for native amphibians.
Only time will tell if the spike rush takes hold and, in the meantime, we hope volunteers will return to help get rid of some bullfrogs. If we can keep the bass out and the bullfrogs under control, we can look forward to a time when red-legged frogs can safely return to HREC.
Thanks, HREC staff and GrizzlyCorps member Mona Latil-Quinn, for your help.
JOB ANNOUNCEMENT :: Assistant Professor of Cooperative Extension in Invasive Weed and Restoration Ecology
The Department of Plant Sciences at the University of California, Davis, seeks an Assistant...
Experts advocate fire management to conserve seasonally dry forests
Reposted from the UC Berkeley College of Natural Resources News
Fire has been a central component in California's natural and human history for millennia. Native Americans' use of cultural burns in landscape management, in addition to lightning-ignited fires that burned unhindered, have long impacted most of the state's ecosystems. However in the late 1800s, California's landscape underwent an era of Euro-American fire exclusion and suppression. As the United States began suppressing fire across western ecosystems, forests became increasingly dense with fuel which easily ignites in warm weather conditions.
In a study published in Frontiers in Ecology and the Environment today, environmental science, policy, and management professor Scott Stephens and co-authors investigate the role which fire and restoration thinning could play in restoring California's forests. Stephens argues that allowing forests to burn does not necessarily conflict with the government's environmental objectives to promote carbon storage and water availability. In the long-term, fire and restoration thinning can help forests continue to provide natural services while building ecosystem resilience to climate change.
A century of fire suppression coincided with the loss of larger, more fire-resistant trees from selective logging. With the worsening impacts of climate change, wildfires have grown increasingly destructive and high-intensity in recent years, and megafires threaten the biodiversity of many native ecosystems.
Stephens argues for the return of fire in California's forest management techniques. “With climate change and continued ignitions from people and lightning, there is a great need to move decisively,” says Stephens. “The good news is rather than conflicting with other environmental objectives, fire and restoration thinning employed now will provide numerous co-benefits.”
The authors focus on two primary management strategies: burning and restoration thinning. Fire treatments include prescribed fires, in which managers intentionally burn an area in accordance with a site-specific plan. Prescribed burns reduce dead wood, leaf litter, and small trees, which act as hazardous fuel layers in seasonally dry forests. Additionally, forest managers can monitor wildfires that are ignited naturally by lightning and, where appropriate, allow such ignitions to burn—a technique that has improved the ecological resilience of several National Parks and forests in much of the United States.
Restoration thinning—activities such as chipping, shredding, and whole-tree removal—can reduce fuel and mimic the effects of burning. However, mechanical thinning practices do not aid the many native species which rely on smoke and heat to germinate or on burnt habitat to thrive.
Importantly, the study describes how such management strategies can improve overall biodiversity, water quantity, and carbon sinks. Pyrodiversity, or the degree of heterogeneity in the age and size of a burned landscape, can support more diverse bird, pollinator, and flowering plant communities. The authors describe the challenge in maintaining complex tree canopy structures for threatened species, such as the California spotted owl. In addition to increasing streamflow and enhancing long-term carbon sequestration, the proposed management strategies could lower the likelihood of high-severity fires in the future.
“Even though increasing the scale of restoration is daunting, I am optimistic,” says Stephens. “Forests are just too important to the people and wildlife of California. But we need to act or severe wildfires and drought will continue to change forests right in front of us. We can and need to do better.”
Management strategies would need to account for the difficulty in controlling hazards from smoke, as well as how volatile weather conditions can cause undesired fire outcomes. To ensure the safety of the forest and nearby communities, the study finds that prescribed burn plans must integrate information on weather, topography, fuel type, ignition patterns, and other factors. The authors call for increased collaboration between Native American tribes and forest managers, highlighting the importance of longstanding indigenous knowledge and practices.
Now the COVID-19 pandemic is expected to impact fire suppression, an activity that necessarily involves groups working in close proximity. “Firefighters train, sleep, shower, eat, and fight fire in groups, and the effectiveness of firefighters depends on the ability to deploy and work closely to extinguish fires,” says Stephens. “New protocols are being developed for this summer and fall that will work to make groups smaller and to increase fire prevention. While these measures are needed this year, they do not address the fundamental fire problems in California forests that are addressed in this paper.”
The study was conducted in collaboration with researchers from the University of California, Merced, the University of New Mexico, the University of Wisconsin, Madison, Colorado State University, and the University of Western Australia. Read the full paper in Frontiers in Ecology and the Environment website.