Refining Fire Behavior Modeling

Posted on May 15, 2012 by zhoyle

Prescribed fire in Georgia. Photo by David Moorhead, courtesy of Bugwood.

Assessing Wildland Fuels and Hazard Mitigation Treatments in the Southeast

Research by Southern Research Station mathematical statistician Bernie Parresol takes center stage in the special issue of the journal Forest Ecology and Management due out in June in print. Parresol is lead author of two of the five articles—and co-author of two more—in an issue that focuses on methods to incorporate fine-scale data into the tools Southeastern forest managers use to assess wildfire potential and plan mitigation treatments.

Fire is an important part of forest ecosystems in the southeastern United States, especially in the Coastal Plain. European settlers cleared most of the native longleaf pine forests of the region; industry later planted many of the same acres in loblolly pine plantations. Meanwhile, fire suppression policies broke the cycle of frequent low-intensity fires in remaining natural forests, causing the buildup of fuels that lead to wildfire.

Over the last decades, southeastern land managers started adding prescribed fire to other forest treatments to reduce wildland fires, promote forest restoration, and improve wildlife habitat. Because of budget constraints and public concerns about fire and smoke, managers need to prioritize the areas where they will use prescribed fire. To do this, they use wildfire hazard assessments such as LANDFIRE and the Southern Wildfire Risk Assessment (SWRA), both of which use satellite images and other supporting data to represent fuels across a landscape. Although these tools work well enough at the state and regional levels, they sometimes don’t offer enough detail for land managers trying to decide which of their hundreds or thousands of acres should be burned first. 

Setting fire. Photo by David Cappaer, courtesy of Bugwood.

The special issue of Forest Ecology and Management focuses on a study conducted on the 200,000-acre Savannah River Site as representative of an actively managed forest landscape in the Southeast. Researchers used studies on the site to assess wildland fuels, potential fire behavior and treatments to reduce fire hazard. In his first article, Parresol and fellow researchers develop equations to describe fuel loads for both dead and alive materials on the site based on vegetation type, stand age, recent fire history and other aspects. As reported in the final article, these equations were then used to create custom landscape models based on the actual data from the site, then compared with results from LANDFIRE and SWRA to assess the effectiveness of those tools.

Most fire behavior analyses rely on sparse plot inventories and data from satellites, and often do not address the complexity found at the ground level where managers operate. For a second article, Parresol and fellow researchers demonstrate a statistical approach that can incorporate hundreds to thousands of fuel observations into models that managers in the Upper Atlantic Coastal Plains can easily use to prioritize areas to treat to reduce wildfire hazard.

“Taken together, the research reported in these articles shows that fine scale measurements repeated over time can be put into a manageable framework and reduced to create dynamic fire behavior models useful to managers,” says Parresol. “They can also be used to help address scientific questions and to evaluate the effect of management conditions.”

Access the special issue of Forest Ecology and Management.

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Upcoming Webinar: Forest Farming with Non-Timber Products

Posted on May 10, 2012 by zhoyle

Jim Chamberlain with galax leaves, which are used in the floral industry.

Opportunities to Share Information and Grow Resources

Jim Chamberlain, forest products technologist with the Southern Research Station, has carved out a niche in non-timber forest products. Chamberlain focuses on ramps, ginseng, goldenseal, galax, and scores of other non-timber products that flourish in the Appalachian forests. He’s devoted his career to finding and identifying plants, studying their historical uses, and learning about their ecological, cultural, and market values. On May 8 he spoke in New York City at the American Herbal Products Association Inaugural Botanical Congress about the valuation, conservation, and sustainability of wild-harvested herbs. Chamberlain next visited the United Plant Saver’s 360-acre goldenseal sanctuary in southeastern Ohio.

If you missed these opportunities to connect with Chamberlain, join us on Wednesday, May 16, at noon EDT for his webinar Forest Farming Non-Timber Products: Opportunities and Challenges.  Chamberlain co-leads teh eXtension Forest Farming Community, a collaborative effort of forest farmers, university faculty, and natural resource agency professionals that shares information about growing and selling high-value non-timber forest products.

“Gathering has been an Appalachian tradition for generations,” says Chamberlain. “Native Americans depended on non-timber forest products for subsistence, and by 1800 the Cherokee were carrying loads of ginseng to southern ports.” Appalachian people continued to collect forest products to eat such as blackberries, mushrooms, and chestnuts and others such as black cohosh and bloodroot for their medicinal value  and to generate income. Traditional medicine has blossomed into a huge industry, and more than 75 species of medicinal plants are collected from Appalachia. The total U.S. market exceeds $4 billion annually.

“Although forest farming was recognized as a potential land use practice in 1929, the forestry community has only started to promote the importance of non-timber forest products in the last 10 to 15 years,” says Chamberlain. “Forest managers often are unaware that these resources exist on their land, and they typically aren’t included in management plans.  If managers do know about their presence, they may not be aware of their economic, social, or ecological importance.”

Forest landowners are beginning to realize that it may be possible to diversify their income by selling these non-timber products while their trees are growing toward harvest or by focusing on the production of special forest products rather than timber. In his May 16 webinar,  Chamberlain will address production methods, yield estimations, market potential, and other topics. . Eligible participants will have the opportunity to earn continuing education credit. Visit the Webinar Portal to learn more. –Claire Payne

 

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Taking America’s Rarest Snake Back to the Woods

Posted on May 8, 2012 by zhoyle

Louisiana pine snake. Photo by Dan Saenz.

Louisiana pine snakes released on Kisatchie National Forest

On May 1, USDA Forest Service, U.S. Fish and Wildlife Service, Louisiana Department of Wildlife and Fisheries, the Memphis Zoo, and other partners released seven young Louisiana pine snakes on a restored longleaf pine stand in the Kisatchie National Forest in Louisiana. The release is the fourth in 2 years, part of a plan to restore a very rare snake to its range in Louisiana. Last year the partners released 20 newly hatched snakes; this year’s snakes are 6 months old and about 3 feet long.

Four to 5 feet long as an adult and covered with a striking pattern of black, brown and beige, the Louisiana pine snake is a rare sight in its native range in east-central Texas and across Louisiana. Craig Rudolph, Southern Research Station research ecologist, has monitored the species for decades, and concurs with other herpetologists that it well may be one of the rarest snake species in the United States. Snakes released for the restoration effort are hatched and raised in zoos, and are the offspring of Louisiana pine snakes captured from the wild.

Already listed as threatened in Texas and a candidate for listing under the Federal Endangered Species Act, the Louisiana pine snake population has declined because of alterations to the its native longleaf pine habitat and that of its prey.

A nonvenomous species, the Louisiana pine snake spends most of its time underground in burrows of its favorite prey, the Baird’s pocket gopher. The ideal habitat for both species consists of dry, sandy-soiled ridges covered with longleaf pine trees and an open understory of the grasses and forbs the pocket gophers feed on. This habitat largely disappeared due to commercial logging in the late 19th and early 20th centuries and subsequent fire suppression.

“Without fire, these upland pine savannahs rapidly develop a midstory that shades out the grassy understory that pocket gophers need,” says Rudolph. “The release site on the Kisatchie, which was intentionally restored for red-cockaded woodpecker habitat, should also support pocket gophers and Louisiana pine snakes.”

Only time will tell whether the Louisiana pine snake can be sustainably restored to longleaf pine ecosystems in its native range.  

Researchers implanted each of the snakes released on May 1 with a passive integrated transponder (PIT) that allows them to be tracked by recorders installed on the site. “So far we’ve not had much success with the recorders, which are dug into the ground in four places on the release site,” says Rudolph. “We’ve recorded activity in the first weeks, but nothing later on. This is not unexpected, since these snakes have a large home range and probably leave the immediate area. We need to get good population estimates for the areas we’ve released in, but the only way to get data is by trapping, which is very time-consuming and expensive.”

The animal’s biology presents another constraint to its survival. While most other snakes produce large clutches of eggs, the Louisiana pine snake lays only three to five eggs, and in captive breeding programs, sometimes only one or two eggs per clutch hatch. This low reproductive rate means that the species might not recover quickly in the wild. Rudolph worries that breeding programs, which rely on the progeny of only16 founder individuals caught in the wild, may be producing snakes that are not genetically diverse enough to survive when released.

“In the best-case scenario, there would still be Louisiana pine snakes out there that we’ve never caught that can breed with the released snakes,” says Rudolph. “We have traps operating for thousands of trap days a year in Texas, for instance, and haven’t caught a single snake in three years. When we find better ways to monitor our releases, perhaps we’ll find some additional populations.”  

Read more in a recent article in Forest Magazine.

Read about the Candidate Conservation Agreement signed in 2004 to protect the Louisiana pine snake on federal lands in Texas and Louisiana.

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