exploring stress in the white pines
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Exploring Stress in the White Pines. Forest Watch November 2012 - PowerPoint PPT PresentationTRANSCRIPT
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Exploring Stress in the White Pines
Forest Watch November 2012
Forest Watch thanks Dr. Isabel Munck, US Dept. of Agriculture Forest Service, Northeastern Area, State and Private Forestry, for sharing her research regarding
fungal predation on the white pines. This photo, taken by the Vermont Division of Forestry, shows stressed white pine foliage, where tree tops appear brown.
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6/30/2011
Across Vermont, New Hampshire and Maine, Forest Watch teachers and timberland owners are noticing a curious browning of needles. Tree tops look thin. And pines are dropping massive numbers of needles. It began in June 2010.
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6/30/2011
White pine foliage looks thinner than usual. When we look at twigs, many trees have no fourth, third or second year needles.
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With the first needle cast in June 2010 and another in June 2011, citizens called Extension agents and state foresters asking what is going on.
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Even in 2010, Extension foresters and state pathologists identified fungi as a probable cause of heavy needle cast. Numerous fungi are known to cause needle cast even though such damage usually occurs in September and even though fungi rarely damaged more than 1% of the pines.
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A study of the fungi was launched by the U.S. Forest Service in collaboration with state plant pathologists in Vermont, New Hampshire and Maine. Sites on cooperating landowners pine stands were identified from existing Forest Inventory & Analysis cooperators.
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Needle casts
http://www.floridaforestservice.com/publications/Insects_and_Diseases/td_cf_needle_cast_fig10.html
Munck and her team researched the life cycles of each fungi they found so they could know at what time various fungal forms would be visible.
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Brown spot needle blight- Mycosphaerella dearnesii
http://www.na.fs.fed.us/spfo/pubs/fidls/br_spot_pines/brown-spot.htm
The chief culprit, brown spit needle blight produces spores each spring in black fruiting bodies which appear on second or third-year needles. These needles will be cast by July. Before they drop from the tree, they may infect emerging new needles at the twig tip.
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Methods of Fungal Research• Samples collected in 4/2011 and 6/2011 from 13 sites in VT, NH,
& ME damaged in 2010• 3-5 trees sampled per site (1 L zip-lock bag per tree) • All branch tips were examined • Needles from a representative branch/tree incubated for 24-48 hr
at 25 C ̊• Fruiting bodies examined & photographed
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Canavirgella needle cast caused byCanavirgella bandfieldii
The Munck Study examined needles, fruiting bodies and microscopic views of the fungal hyphae and spores.
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Bifusella needle cast caused by Bifusella linearis
The subtle differences in fruiting body and spore sacks can help identify the species.
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Brown spot needle blight caused byMycosphaerella dearnessii
Three main fungi were identified. But several others may also be infesting the pines.
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Conclusions from 2011
• At least 3 pathogenic fungi present at the same site and more than one pathogen on the same tree
• Mycosphaerella dearnessii was the most frequently observed & widely distributed pathogen
• Mycosphaerella dearnessii most constantly associated with chlorosis and defoliation
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Munck et al. conclude that …
• Damage in 2012 more severe than 2011 in VT, NH, and MA
• Damage in 2012 less severe than 2011 in ME• WPND is also a problem in Canada and Europe.
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WPND follow up• Kirk Broder’s Lab at UNH (cultures & DNA) confirmed M.
dearnessii is most frequent pathogen associated with needle damage
• Several other fungi (potential pathogens) were also isolated from symptomatic needles
• Seedlings will be inoculated with these isolates • Predictive climate model will be developed• Tagged trees will be monitored/cored
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Meanwhile Forest Watch sees the damage.At the Dublin School,
Dublin NH, 2nd Year Needles showed
extreme drying and browning and signs of fungal hyphae, black
hairs at far right.
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400 600 800 1000 1200 1400 1600 1800 2000 2200 24000
10
20
30
40
50
60
70
VIRIS Data - Dublin School - Fall 2012Trees 1941-1945
1941N 1941S 1942S 1943S
1944S 1945S
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In 2012, REIPs begin to show some loss of chlorophyll in 1st year needles.
Dublin’s two worst trees have REIPs of 719.3 and 714.6 in first year needles, very unusual. No tree is higher than 725.4.
REIP AveragesSchool 2009 2010 2011 2012RHAM CT 723.97 727.14 725.03Springfield MA 725.72 720.82 727.36 724.63Dublin NH 722.08Meridian MA 729.16
All Schools 723.8 723.7 725.69
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Healthy Needle- Dublin’s 1942
Healthy 1st year needles show no fungal damage. In 2011, even trees that had cast 2nd and 3rd year needles showed no
damage on 1st year needles.
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Dublin School, Dublin NH1st Year Needles showed fungal
infection.
Forest Watch is now finding water stress, early senescence, visible damage and slight drops in REIPs on new needles. The damage appears to be worsening.
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What stress could make the pines susceptible to the fungi?
We hypothesize that an unusual atmospheric pollution event, such as one that occurred on May 26, 2010, may have been the initial stressor.
Continued pollution occurrences, such as long winter low pressure periods which bring a mix of ozone, sulfate and nitrate into the region, may add to that damage.
We are researching these possibilities.