With the threat of another bumper crop of BROWNTAIL MOTH (Euproctis chrysorrhoea…Lepidoptera), a moth in the family Lymantriidae. looming, a regional approach to finding solutions to the nuisance caterpillars and directed their town manager to work on forming a coalition to combat the insect. Maine Forest Service entomologist Charlene Donahue informed more than a dozen local communities in October that she expects a return of the pest, hoping to give property owners and municipalities time to survey their lands and take action. “For the second year in a row, there was enough late-summer damage to the leaves, particularly Sagadahoc County, that it could be mapped from the air,” Donahue wrote. “The late-summer defoliation indicates that populations are very high in those areas.” Contact with the poisonous hairs found on the caterpillars can cause a skin rash similar to poison ivy and some people suffer respiratory distress from inhaling the microscopic hairs. Pam LeDuc, Topsham’s parks and recreation director, said town staff was asked to research the browntail moth issue. They met with town arborist Kyle Rosenberg, and then Donahue, who both provided recommendations. “Topsham is probably, as you can see by the map, the most involved community in the region, along the water especially,” LeDuc said.The town has a recreation field by the Androscoggin River, where LeDuc said it can’t spray. The only affordable option is to trim the trees. The town’s turf maintenance company would do a spray treatment at the municipal complex, the library and the Foreside Road recreation complex on the concession building side of the road, for an estimated $1,200.
LeDuc said Cumberland sprayed its most impacted streets for approximately $15,000 — both on private and public property.
“To do anything such as that, you would have to vote that this is a public nuisance,” LeDuc said. “It would entitle you, under state statute, to use emergency funds should you wish to do so. There is protocol as to how to inform residents if we were going to do something such as that.” Town Manager Rich Roedner said a meeting of Midcoast town managers is scheduled for Dec. 9 to talk about browntail moth, “and see if there’s a way to work cooperatively in trying to do something along the lines perhaps of what Cumberland did with a roadside spraying program.” Cumberland considered an aerial program, Roedner said, but you run into issues when several property owners opt out, as well as the proximity of affected areas to the river. Selectman Dave Douglass said board members have been contacted by multiple people about the browntail moth caterpillar outbreaks. “It’s a true nuisance, if anyone has had a browntail rash before,” he said. “I am not opposed to putting anything on the table to rid these things. What we’ve got to find out is, is the public willing to accept some of the ways to treat it, and the costs and so forth.” Selectman Bill Thompson agreed there should be a regional effort, and with local municipal and state officials involved in the discussion.
MAUGET has several Insecticides that should provide excellent season long control, such as Abacide2,
Palm Petiole Injections with Mauget Products have been employed successfully for decades.
It is a fast and easy method for injecting Palm trees effectively rather then into the trunk. No damage occurs to the leaves or the trunks. Materials such as Antibiotics, Insecticides, Fungicides and Nutrients will translocate throughout the entire tree using this method. It is an alternative method of injecting is the bases of leaf petioles was found to be of definite therapeutic value in diseased palms.
Apple scab, Venturia inequalis, affects apple, crabapple, pear and many other species of Malus throughout North America. The cool, wet weather that is common in early spring favors the development of apple scab.
Symptoms first appear in the spring as lesions on the leaf surface. When heavily infected, the leaves become distorted and drop early in the summer. Scab may be controlled by an early injection of either Arborfos (available in both liquid loadable bottles and capsules) or Tebuject 16 (available only in capsules).
Seventy years after American chestnuts all but died out, researchers will soon be applying with Canadian regulators to distribute a genetically modified version.
(Before 1950, American chestnuts thrived in forests from Ontario to Georgia. (SUNY-ESF) )
In target, scope, and sheer lethal speed, the obliteration of the American chestnut is an ecological disaster without precedent. The towering trees — redwoods of the east, some called them — were a foundational species in the forests that stretched from southwestern Ontario to Georgia. In some parts, one in four trees was an American chestnut. The trees were a refuge for hundreds of species and a thrumming industry: its wood was so hardy that chestnut fences still stake Ontario fields. Then, in less than 50 years, the trees were gone. An exotic blight, accidentally carried over on an Asian chestnut variety, began infecting American chestnuts as the 20th century dawned. By 1950, up to four billion trees had died, two million of them in Ontario, wiping out 99.9 per cent of the species and radically reshaping the forests it once dominated. Now, a century later, an American research team has an equally unprecedented solution: a genetically modified American chestnut. By splicing a single gene from wheat into the tree’s genome, scientists from the State University of New York’s College of Environmental Science and Forestry (SUNY-ESF) have engineered blight-resistant saplings. This year, the team plans to apply for approval from U.S. and Canadian regulators to distribute the plant. If they are successful, the tree would be the first genetically modified organism released with the goal of reintroducing an endangered species to the wild, rather than producing a commercial agricultural crop. The SUNY-ESF team, led by William Powell, a professor and director of the American Chestnut Research and Restoration Project, expects the regulatory review to take between two and four years. But because no one has ever done this before, there could be unexpected hurdles or accelerants — including the response of the public. “I think many of the values and perceptions of people about genetically modified organisms are based around issues of commercial interest,” like profits and patents, says Sally Aitken, a professor who studies forest and conservation genetics at the University of British Columbia, who is not involved in the research. “The case of the chestnut and chestnut blight really makes us reconsider some of the concerns, perhaps, but it also raises additional concerns about working with genetic manipulations of native wild species.”
Aitken and other researchers are monitoring Powell’s progress, because so many other tree species, from the Elm to the Butternut, are being ravaged by disease. “Really, the chestnut has a chance to pave the way,” says Aitken. The blight, a fungus, was first observed at the Bronx Zoo in 1904, in an era when importing exotic botanical specimens was popular. By 1906, it was discovered in Maryland, Virginia, New Jersey, and D.C. Within 20 years, it had reached Ontario, the northerly edge of its range. (A blighted Virginia forest. It’s estimated that up to four billion American chestnut trees died)
Researchers discovered the fungus on chestnuts in China and Japan, but found fewer symptoms: the pathogen and the trees had co-evolved. The American species, however, bore no natural resistance. It’s hard to overstate the consequences of the loss of the American chestnut, ecologically, commercially and culturally. The trees dominated the forest canopy, produced massive volumes of nuts, and shed a particularly protein-rich leaf litter, providing shelter and nourishment for other species. When the tree was wiped out, multiple species of insects went extinct almost immediately, and many other animals, from deer to bears to wild turkeys, were impacted. Some scientists wonder whether the loss of the American chestnut contributed to the extinction of the passenger pigeon, since the soaring, 35-metre-high trees provided roosts for birds and both died out around the same time. As commercial timber, Americans “called it the cradle to grave wood, since almost all everyday items were made of chestnut,” says Ron Casier, chair of the Canadian Chestnut Council, a conservation group. Its supreme rot resistance made it a favourite for log cabins, flooring, and railroad ties. Nuts from the tree were a common food, as North American holiday traditions still suggest. In a single human generation, a geological wink, the tree disappeared. “That’s pretty much the most important wipeout of a species by a pathogen — I can’t think of anything else on that scale,” says Richard Hamelin, a professor of forest pathology at the University of British Columbia. Because the tree is so “iconic,” says Hamelin, “ever since I did my PhD — and before that, of course — people have been interested in its restoration.” The fungus creates cankers that girdle the trunk and branches, but it does not affect the roots. Decades after the trees died off, stump rings still pock the countryside, sending up shoots that then become infected and die. This cycle gives researchers hope — and more importantly, if the trees survive long enough to flower, seeds. For decades, researchers have been trying to crossbreed the naturally resistant Asian chestnut species with the American. But the offspring of these trees are smaller hybrids, so the ones with blight resistance are then selected and “back-crossed” with another American chestnut tree to create offspring that are genetically truer to the endangered species. Through enough generations of crossing and back-crossing, a tree that is blight-resistant and mostly American chestnut would be created. But the tree takes years to reach sexual maturity, so this research has been painstakingly slow, and has not yet produced trees with high levels of resistance. Researchers also tried a tactic called hypovirulence, which uses a virus to infect the fungus, making it less potent. It didn’t pan out, but it gave researchers a clue. The weaker strains of fungus produced less of a substance called oxalic acid — a hint that this was the fungus’ weapon. Powell and his colleagues noted that wheat and other grasses carry a gene that produces an enzyme that defangs oxalic acid, transforming it into two harmless byproducts, carbon dioxide and hydrogen peroxide. By splicing this gene into the American chestnut genome, the SUNY-ESF team theorized they could create a blight-resistant tree. It sounds simple. It took Powell and his colleagues 27 years. “We started off when no one was doing this stuff,” he says. The lab planted their first transgenic American chestnut trees in an outdoor research plot in 2006, ones with “intermediate” levels of blight resistance. Recent tests have shown even better defences, matching or surpassing the Asian trees; these highly resistant trees will be planted in the New York Botanical Garden this year. As early as summer, Powell and his team will begin applying to U.S. federal agencies for approval to distribute the plant to the public. As soon as those reviews are initiated, they will reformat their documents and submit to Environment Canada and the Canadian Food Inspection Agency. “What we want to do is quickly get their approval too so we can plant up there. We want them planted throughout their range,” says Powell. The lab has already been in discussion with regulators on both sides of the border, and initiated experiments to determine whether the transgenic tree is a benign presence in its ecosystem (which so far, Powell says, have been reassuring — he emphasizes that the transgenic approach alters far less of the species’ genome than conventional crossbreeding, which mixes thousands of genes). Each agency has a different package of requirements. “It’s always harder to be the first,” Powell says, adding that he hopes this sets a precedent for other researchers trying to save wild plants threatened by invasive pests and pathogens. With any intervention into nature, there are unknowns. “There’s always a risk because it’s biology,” says Hamelin, the forest pathology researcher. Horizontal gene transfer, the transmission of DNA between species, is far less common in multicellular organisms like plants than in bacteria, but scientists are discovering more and more instances of it. Powell doesn’t believe this is an overwhelming concern, in part because the oxalic acid neutralizing enzyme is found in so many plants, including bananas and strawberries. A more pressing scenario, one often encountered by agricultural biotechnologists, is a genetic arms race between the transgenic tree and the fungus. The tree would carry a single gene conferring resistance and takes years to mature. The pathogen produces billions of spores in that time, and each is an opportunity to mutate — an “unfair advantage,” Hamelin notes. In a discussion of the transgenic tree, “this issue has to be addressed.” Powell says that his team’s approach, which doesn’t attack the fungus itself, lessens the selective pressure to beat the tree’s gene. The lab is also working with groups that are crossing and back-crossing the Asian and American chestnuts, exploring ways to “stack” resistance genes — a platoon approach. UBC’s Aitken says Powell is “doing great work,” in part because his lab has taken pains to keep their work transparent — a chance for fruitful dialogue. “In addition to having great potential for getting American chestnut back out on the landscape and increasing the diversity of species in the forest and providing food for all those creatures that eat chestnuts and all those good things, it also provides us with a good example of one use of genetic modification that isn’t tangled up with profit and patent and genetic control of resources,” Aitken says. In a survey that was part of a larger project Aitken led, researchers found that approximately half of respondents would accept planting genetically modified seedlings as a strategy to help western Canada’s forests adapt to climate change. “Really, the number of American chestnuts they’re going to have if they don’t do this is zero.” Hamelin says the greater concern in the forestry research community is not that the approach is risky, but that it will fail because the pathogen will adapt. “Among the people who care about chestnuts and the people who care about trees and forest protection, I think most people, because of the fact that it’s an endangered species decimated by a foreign invader, that justifies going to this level.” Others have reservations. The Canadian Chestnut Council is pursuing a conventional breeding program. “We are not interested at this point, nor do I see it in the future, in bringing in any genetically modified trees,” says Casier, chair of the council and a retired secondary school science teacher. Casier says the group is “not anti-GMO” and “not opposed to what they’re doing in the States. We just have concerns,” chiefly about the ability of the pathogen to overwhelm the new tree’s single resistant gene, and whether transgenic trees will contaminate the wild tree gene pool. “Once that pollen is genetically modified and is released into environment, there’s no way of going back and putting the genie in the bottle.” (Powell’s group has developed a way to identify the transgenic trees with a test that shows results in 30 minutes.) A recent survey found 800 surviving American chestnuts in Ontario, though most were immature saplings. Casier says there is reason to think some Canadian trees carry blight resistance, in part because some trees scarred with the blight remain standing for years, perhaps decades. The Canadian Chestnut Council’s program is breeding trees from Ontario with each other, with the goal of producing trees that carry native blight resistance genes and are adapted to the colder climate. But it is not clear how many generations will be needed to produce a viable resistant tree, if the program is successful at all. No matter what it will be an important pool of genetic diversity from the fringe of the species’ range. While the species is wind-pollinated, a reproductive strategy that doesn’t care much for national borders, Powell notes that the natural spread of the tree is incredibly slow, a few kilometres every hundred years. “We always call it a century project,” he adds. “This is something for our grandchildren — that’s the way I look at it.”
Date: Thursday, March 30, 2017 Location: SHELTER TREE, INC. | 195 John Dietsch Square | N. Attleboro, MA 02763 Time: 7:30 -8:00 a.m. Registration | 8:00 a.m. – 1:00 p.m. Seminar Pre-Reg Deadline: March 23, 2017 (or at door if space is available) CEU’s: State Pesticide Credits, and ISA CEU’s Seminar includes: Education,
Mauget Certification Test & Applicators Manual, & Refreshments Fee: $50 – Early Registration (3/1-16)
$65 – Registration (3/17-23) or at the door if space is available AGENDA 7:30-8:00 Registration, coffee & muffins 8:00-8:50 Introductions & Networking 8:50-10:00 Basic Training (Mauget capsule & feeder tube installation) 10:00-10:15 Coffee break 10:15-11:30 Products & Research (Pesticide labeling and MSDS sheets and target insects and diseases.) 11:30-12:00 Inject-A-Cide B (Bidrin) (Use of a restricted use pesticide, safety, and target pests.) 12:00-12:30 Tests 12:30-1:00 Evaluations, Credits, Pricing, and Ordering
OVERVIEW If you are a Green Industry Professional and have been considering using a tree injection product for systemically applying nutrients, antibiotics, fungicides, and insecticides to trees then this is a seminar not to miss. If you are a company that has had Mauget products in your line-up but no longer employ a certified applicator then this is an opportunity to advance someone in your organization with this plant health care tool. Mauget Products have been developed over the past 50 years and have become a leader in injectables for plant health care. In order to purchase Mauget Products an individual must have this certification as well as their state pesticide license to apply any of the products other than the nutrients. Attendees will receive: Current Use & Label RecommendationsMarketing & Sales Tips, Mauget Products Guide, Mauget Certification (unless previously certified – certification is good for life)
We all understand that tree injection may not be the first tool you reach for in a Plant Health Care program but a company would not be well-equipped without it. Mauget products have made a difference, and is established for over 50 years in providing proper tree health. Easy to use and environmentally safe, Mauget Tree Injection tools should not be overlooked. Available in small affordable packaging (24 capsule pak), mid-size “flats” (96 capsules), or discounted larger case quantities (288 capsules).
PRESENTERS: Jim Rollins, the Eastern Region Mauget Products Manager will be on hand to present Mauget products to you and answer pertinent questions to most all your questions. Patrick Parker, PHC Program Director for Sav-A-Tree, will again be on hand to give an overview of his company’s experience with Mauget products and recent successes they’ve had controlling diseases and insects as well as invigorating their clients important plant material. George Mellick, President of Shelter Tree, will be on hand to relay the logistics of ordering and providing Mauget products to the region. We are also hoping to provide outside speakers whom have had previous experience with these products. SEMINARSPECIAL Each person and/or company who attends receives a $50 discount on their initial 2017 MAUGET product order.
Gypsy moths strip trees bare of their leaves and — if left unchecked in Illinois — could leave a path of destruction in their wake.
*NOTE… See the Mauget products that control Gypsy Moth since the late 1960’s at the end of this article…
The state’s Department of Agriculture is trying to prevent that from happening. Phil Nixon, an extension entomologist with the University of Illinois, said the Department of Agriculture has been fighting the spread of the gypsy moth since the 1970s.
Nixon said the insect has migrated from north to south in Illinois; and without any natural enemies, the moths could potentially grow in number every spring.
“Once a female mates, she will typically lay 300 to 1,000 eggs, which will hatch,” Nixon said. “The caterpillars start feeding on the leaves and start stripping the trees.”
Nixon said oak trees are most susceptible to gypsy moth populations and, according to the Belleville News-Democrat, so are more than 250 other trees and shrubs.
Large populations of gypsy moths are mostly found in northeast Illinois and the Chicago metro area, but a program called “Stop the Spread” is working to change that, Nixon said. “The numbers are too large to stop it, but we can slow it and save us several decades if not a hundred years or more on the insect becoming widespread through the state,” Nixon said.
Nixon said aerial spraying, the use of pheromones to stop the moths from mating and dousing their eggs in oil are some of the ways gypsy moth populations have been kept in check.
Gypsy moths could potentially impact homeowners in the state, Nixon said. “The trees on a property, if you lose those trees, can devalue the property 20, 30, maybe even 50 percent, so having the trees there has value as well,” Nixon said.
The Department of Agriculture will be holding public meetings on this issue in Pontiac, Oglesby, Oswego and Freeport, according to the Belleville News-Democrat. Read Full Article
ABC News Reports: They may be down but they’re not out:
Damaging insects can emerge from fallen trees and logs for several years after a major storm, according to a U.S. Forest Service study that reinforces longstanding warnings against moving firewood from place to place.
Timber that gets blown down, broken or damaged by wind is often cut and used as firewood, which in turn can enable the spread of invasive, destructive insects that drain the life out of forests from New England to the West Coast.
Such pests are projected to put 63 percent of the country’s forest at risk through 2027 and carry a cost of several billion dollars annually in dead tree removal, declining property values and timber industry losses, according to the peer-reviewed study last year in Ecological Applications. The emerald ash borer alone, now in 30 states, has killed hundreds of millions of trees and has the potential to cause $12.7 billion in damage by 2020.
After a tornado tore through western Massachusetts in 2011, U.S. Forest Service officials based in New Hampshire collected ash, birch, maple, oak and pine logs from the affected area in 2012, 2013 and 2014, split them into firewood-sized pieces and put them in barrels. They painstakingly counted the insects that emerged from the wood — 32,121 to be exact. Eastern ash bark beetle was the most common, accounting for 85 percent of the total.
Researchers were surprised to find that wood harvested even three years after the tornado produced a significant number of insects.
“It was a little surprising that even after three years, we still found insects associated with recently killed trees emerging from firewood,” said Kevin Dodds, one of the study’s lead authors.
Not all the trees die at the time of the tornado or wind storm. Instead, there is a range of damage and pockets of living trees that create insect habitat over time, researchers said.
“You might think that several years after a windstorm that blows down trees, it would be safe to cut the downed trees into firewood and transport them. But this study shows that some of this downed wood still harbors insects several years later,” said Gary Lovett, a senior scientist at the Cary Institute of Ecosystem Studies who was not involved in the study.
While the best solution is to keep invasive insects out of the country in the first place via stronger controls on imports, Lovett said, the study “reinforces the point that we should be using firewood locally rather than transporting it to use in second homes, cabins, or campsites.” Nearly 40 states have imposed restrictions on the movement of firewood in an effort to protect forests from the pests. In New Hampshire, out-of-state firewood has been banned since 2011 and in some areas, is not allowed to be moved from county to county.
The study was published in January 2017 in the journal Agricultural and Forest Entomology. Read ABC Article
Diplodia corticola is an aggressive disease that limits the ability of oak trees to access essential nutrients and water, ultimately killing them.
It was first reported in Europe, and has since emerged in Florida, California, Massachusetts and Maine. This is the first time that it’s been found in oak trees in West Virginia. Infection in live oak trees (Quercus virginiana) infected by D. corticola in California and Florida may be more difficult to detect, since it is not preceded by cork removal. Clumps of dead branches suddenly appear in the crown, randomly distributed. Cankers (elongated cracks in the bark) are evident on branches, and cutting into the branch at these points reveals sapwood and phloem discolored to dark brown. Pycnidia, tiny black spots which contain conidia, erupt through the bark or cankers.
It is unknown how Diplodiacorticola and Diplodia quercivora colonize oaks. However, members of the Botryosphaeriaceae, the family to which the genus Diplodia belongs, are generally known to enter plants through wounds, including leaf scars, or stomata open for gas exchange. They often live harmlessly as endophytes within the plant, becoming pathogenic when the plant is stressed by environmental factors such as drought, flooding, heat, freezing, herbicide use, or soil compaction (Bush, 2009; Vajna, 1986). The fungus may colonize dead tissue, then move into healthy tissue in the branch. It can be spread by air, water splash, or contaminated pruning tools. In the case of cork oak, Quercus suber, the traditional practice of removing cork from the trunks of oak trees causes mild injury, thus likely providing entry for Diplodia corticola, as evidenced by cankers on the trunk. In Florida, a trunk canker has been observed only once: the most common diagnostic features are branch cankers and twig dieback. Thus, D. corticola/D. quercivora may enter through lenticels. Their close relative Botryosphaeria obtusa is known to enter plants through lenticels and stomata. Oaks in cultivated landscapes, unlike those in forests, are exposed to stresses such as transplanting, pruning, herbicides, and water stress brought on by extensive periods of both drought and flooding. Pruning might create the wounds that provide entry to these pathogens. Also, most of Florida experienced severe drought in 2010, the year reports of dieback began.
Since 2009, D. corticola has been reported causing cankers for the first time in five North American oak species as well as grapevines in California and Texas
D. corticola has been reported to cause cankers and dieback in several Quercus spp. in Greece, Hungary, Italy, Morocco, Portugal, and Spain and has recently been reported to cause cankers on Q. chrysolepis and Q. agrifolia in California. Inoculations of coast live oaks with D. corticola in California produced additional symptoms not seen in Florida, including epicormic shoots, leaf desiccation, and lesions on roots. The source of D. corticola (and D. quercivora) in the United States is unresolved. The ITS ribosomal DNA sequence of the strain of D. corticola isolated in Florida (from Marion County) has 100% homology to the strains from oaks in California and Europe, as well as from Vitis vinifera in Texas. The ITS rDNA sequence of the D. quercivora strain from Alachua County, FL, has 99% homology to D. quercivora isolated in Tunisia. There are substantial indications in the literature, dating back to 1912, that D. corticola (or D. quercivora, or both) may be native to North America Attempts to tie entry of the fungus in oaks to an insect vector in California (ambrosia beetles or the gold spotted oak borer) have been inconclusive .
Mauget Note:
Mauget ‘s effective fungicice FUNGISOL, carries a registration for Diplodia in most states in the U.S.
A Texas tree care company who became Mauget certified early in 2016 reported to Ann Hope, Mauget’s western sales representative, that since introducing Mauget Technology into their business in 2016, they have experienced an increase in revenues of approximately $200,000.00.
Previously this company had worked with several other tree injection systems offered by other companies. They were not happy with the results they were getting and voiced concerns regarding the tree damage that these systems produced including the insertion of many plugs into trees that were supposed to hold materials into the trees.
This tree care company found that they spent 20% lesstime making Mauget applications, compared to using other injection systems including pressurized systems with tree plugs.
The Texas Tree Care Company has been extremely happy with the results they saw on their client’s trees when using the Mauget System and products. Mauget’s time proven technology and chemicals proved to be simple, fast and effective with no bark splitting caused by these other systems. The simplicity of the Mauget injection system was easy for their employees to learn and use. The Mauget injection system also proved profitable for the company.
Many other tree care companies that have introduced Mauget microinjection into their operations have also experienced these positive benefits.
Mauget remains “The Time Proven, SIMPLY EFFECTIVE” tree injection system ever developed for trees. At Mauget, the health of the tree is our main concern. We encourage those who are interested to reach out to us directly at Mauget.com. or for more information: info@mauget.com
We will be than happy to get you on the road to success, with Mauget.
Tony Tealdi, a California state park ranger, at the fallen Pioneer Cabin tree on Monday. A giant ancient sequoia with a hollowed-out tunnel that drew thousands of visitors each year in California toppled over on Sunday during heavy rains, according to a nonprofit group. The Pioneer Cabin tree was “barely alive,” according to a volunteer at the Calaveras Big Trees State Park, about 90 miles east of Sacramento, and it was not immediately clear what would become of the sequoia. The base of the tree (there was no immediate information on its height) was carved out in the 1880s, and it became a tourist attraction. Cars, once they became common, were allowed to drive through it, but in recent years, the tunnel was accessible only to hikers on a 1.5-mile loop through the park, according to the United States Forest Service. “The storm was just too much for it,” the nonprofit group, the Calaveras Big Trees Association, said in a Facebook post that included two photos of the fallen tree. Jim Allday, a park volunteer who took photos, told SF Gate, a website operated by The San Francisco Chronicle that the tree fell around 2 p.m. on Sunday and “shattered” as it hit the ground. Joan Allday, Mr. Allday’s wife and also a volunteer at the park, said the tree had become “very brittle.” “It was barely alive; there was one branch alive at the top,” Ms. Allday told SF Gate. A storm system dropped nearly four inches of rain on Northern California over the weekend, leading to severe flooding and at least three deaths. Mr. Allday told SF Gate that he saw water flooding around the remains of the tree on Sunday. “When I went out there, the trail was literally a river; the trail is washed out,” he said. “I could see the tree on the ground — it looked like it was laying in a pond or lake with a river running through it.” There was no immediate confirmation of the tree’s age. Many in the park were more than 1,000 years old, and sequoias can live more than 3,000 years, according to the National Park Service. The Pioneer Cabin tree was one of several “tunnel trees” that had been carved out and served as human amusements. The Wawona tree, in the Mariposa Grove at Yosemite National Park, was cut open in 1881. It fell down during a winter storm in 1969 and has been known as the Fallen Tunnel Tree since then. It was more than 2,000 years old when it fell, the park service said. In Leggett, Calif., the Chandelier tree lives in a private Redwood grove north of San Francisco, where people drive through its carved-out opening for a fee. It is one of three such redwoods along Highway 101 that belong to private parks, the Forest Service said.
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nuisance caterpillars and directed their town manager to work on forming a coalition to combat the insect.
ILLINOIS NEWS NETWORK REPORTS:
Diplodia corticola is an aggressive disease that limits the ability of oak trees to access essential nutrients and water, ultimately killing them.
A Texas tree care company who became Mauget certified early in 2016 reported to Ann Hope, Mauget’s western sales representative, that since introducing Mauget Technology into their business in 2016, they have experienced an increase in revenues of approximately $200,000.00.
At Mauget, the health of the tree is our main concern. We encourage those who are interested to reach out to us directly at Mauget.com. or for more information:
(Credit Rich Pedroncelli/Associated Press)