Posts Tagged: Roger Ingram
The rare bird species makes its home in marshes created in large part by leaky pipes, stock ponds, irrigation tailwater and unlined canals. Even the springs that support some habitat may rely on water flowing from leaky canals. In 1994, UC Agriculture and Natural Resources scientists found the small, red-eyed bird with the black breast and speckled black feathers at UC ANR's Sierra Foothill Research and Extension Center. Since its discovery, a group of scientists have been exploring the effects of water management and climate change on the bird in Sutter, Butte and Yuba counties.
California black rails, which can be heard more often than seen, largely depend on humans and irrigated agriculture to provide the shallow flowing water they use for habitat.
Property owners responding to the survey said the primary reason for maintaining ponds and wetlands is to reduce wildfire risk, but they also like the birds and wildlife that are attracted by wet areas. However, Huntsinger worries that the “accidental wetlands” may dry up as the drought increases the pressure on people to conserve water by fixing leaks and replacing canals built during the 19th century Gold Rush with pipes.
Most of the farmers and ranchers buy water from a water district so Huntsinger sees working with water districts as a key to the sustainability of wetlands for wildlife.
More and more, she says, it seems that we are facing tradeoffs between “goods”— saving water is good and preserving wildlife habitat is good. “We need flexibility and adaptation rather than all or nothing choices. After all, we are creating the future landscape of California,” Huntsinger said.
Huntsinger's study is just one facet of a California black rail study that involves scientists with different kinds of expertise.
Steve Beissinger, professor in the Department of Environmental Science, Policy and Management at UC Berkeley, has been studying black rail behavior for years and continues to monitor how many sites in the Sierra foothills the small birds use as habitat.
Marm Kilpatrick, assistant professor in the Department of Ecology and Evolutionary Biology at UC Santa Cruz, studies how concern about mosquito-borne West Nile virus may affect landowners' decisions to maintain wetlands.
“It is a novel ecosystem, offering habitat engineered by people and their livestock that happens to offer the black rail what it needs,” Huntsinger said. “We just don't know enough about conservation in this kind of situation. Managing traditional landscapes is common in Europe, but rare in the United States.”
For more information about the California black rail, see the California Agriculture article “California black rails depend on irrigation-fed wetlands in the Sierra Nevada foothills.”
Below, UC Berkeley graduate student Nathan Van Schmidt describes research at UC Sierra Foothill Research and Extension Center on how the rails cope with drought, seasonal hydrology regimes, and the rescue effect.
An initiative to maintain and enhance sustainable natural ecosystems is part of UC Agriculture and Natural Resources Strategic Vision 2025.
Yellow starthistle is thought to have been introduced into California from Chile during the Gold Rush. The weed readily took hold in California valleys and foothills, thriving in areas where the soil has been disturbed by animals grazing, road construction and wildland firebreaks. Today, yellow starthistle is a very common sight in vacant lots and fields, along roadsides and trails, in pastures and ranch lands, and in parks, open-space preserves and natural areas.
Capable of growing six feet tall and bearing flowers surrounded by inch-long spines, yellow starthistle reduces land value, prevents access to recreational areas, consumes groundwater and poisons horses. (Yellow starthistle isn't all bad. Beekeepers have found that it can provide an important late-season food source for bees.)
That's where goats can come in. Goats will eat yellow starthistle at all phases of growth, including the mature, spiny stage, when it is not palatable to other browsers and grazers.
"When goats eat yellow starthistle, they open up the canopy and allow sunlight to hit the ground," said Roger Ingram, UC Cooperative Extension natural resources advisor. "That allows other, more beneficial seeds to come up and grow. If you can get other plants growing in there, the competition will choke out yellow starthistle."
Landowners can raise goats themselves and direct them to areas of starthistle infestation with portable fencing, or they can lease the animals exclusively for vegetation control. More information on yellow starthistle management is available from the UC Integrated Pest Management Program.
View the video below for more information on goats' browsing preferences.