Results of the Appalachian Trail MEGA

Results of the Appalachian Trail MEGA-Transect
Atmospheric Deposition Effects Study
G.B. Lawrence, T.J. Sullivan, D.A. Burns, S.W. Bailey, B. J. Cosby, M.Dovciak, H.A. Ewing,
T.C. McDonnell, R. Minocha, R. Riemann, J. Quant , K.C. Rice, J. Siemion, K.C. Weathers
Objectives
• Determine status and susceptibility of AT corridor with
respect to atmospheric dep - acidification
1. Model S and N dep
2. Measure soil and stream chemistry
3. Determine vegetation species composition and health
4. Map soil and water acid-base condition
5. Develop, analyze and map acidification critical loads,
target loads, and exceedances
6. Use CLs, TLs and exceedances of S and N deposition to
identify thresholds of air pollutant deposition to
protect key ecosystem elements from harm
Project Field Sampling Design
Tier
Sites
Measurements
Level 1
12
S and N deposition (4 sites)
Soil chemistry
Stream chemistry
Plant communities
tree biochemistry
Level 2
48
Soil chemistry
Stream water
Plant communities (18 sites)
Level 3
205
Stream water
AT Level 1 and 2 Sample Sites
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Gulf Hagus
Sugarloaf
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Crawford Notch
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Sherburne Pass
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Kelly Stand
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Deleware Water Gap
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Piney River
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White Oak Run
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Whitetop
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Cosby Creek
Upper Road Prong
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Coweeta
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Modeled Sulfur Deposition
Level 1 Soil Sampling
Level 2 Soil
Coring
Processing
Soil Cores
Stream ANC Map
Magic Modeling to Assess Future Recovery Potential
Modeled deposition scenarios
Scenario Number
Scenario ID
Scenario Description
Scenario 1
Base Case
Continued ambient S and N deposition
Scenario 2
(-25% S,N)
25% Reduction in S and N deposition
Scenario 3
(-50% S,N)
50% Reduction in S and N deposition
Scenario 4
(-75% S,N)
75% Reduction in S and N deposition
Scenario 5
(-90% S,N)
90% Reduction in S and N deposition
Scenario 6
(+25% N)
25% Increase in N deposition
Selected sensitive criteria, critical values, and endpoint years for critical and target
load simulations
Receptor
Stream
Stream
Soil
Soil Solution
Sensitive Criterion
ANC
NO3BS
Ca:Al
Critical Values
20, 50, 100 µeq/L
10, 20 µeq/L
5, 10, 12, 20%
1, 10
Endpoint Years
2050, 2100, 3000
2050, 2100, 3000
2050, 2100, 3000
2050, 2100, 3000
RESULTS
Soils and Stream Water
Soils - Level 1 and 2 Sites
Upper B horizon
Aluminum Mobilization
Stream ANC Statistics
Description
Sites
Mean (µeq/L)
Median (µeq/L)
Std. Dev. (µeq/L)
< 0 µeq/L (%)
0 – 50 µeq/L (%)
North
98
50.5
19.1
67.1
16.3
50.0
Central
94
64.2
33.3
76.9
11.7
51.1
South
74
71.2
49.3
71.9
1.4
50.0
ANC – high, medium, low flow
Data Set
Mean
Median
Averaged
61.1
35.4
Q85
49.7
23.0
Q50
73.5
38.9
Q15
97.3
53.9
Modeling Results:
Predicting Future Conditions
TL Exceedance ANC = 50 µeq/L by
2100
Region
+15% or more
+15% to -15%
-15% or less
North
43%
5%
52%
Central
33%
6%
61%
South
50%
5%
45%
Total
43%
5%
52%
Soil Base Saturation
North
Soil Base Saturation
Central
Soil Base Saturation
South
TL Exceedance BS = 12% by 2100
Region
+15% or more
+15% to -15%
-15% or less
North
41%
0%
59%
Central
42%
0%
58%
South
43%
0%
57%
Total
42%
0%
58%
Key Findings
1. Variation in landscape acid buffering is more important than acid rain
levels.
2. Soils were Ca depleted to the point of Al mobilization at 60% of sites.
3. North: 16% of streams severely acidic; 50% of streams moderately acidic.
South: 1.4% of streams severely acidic; 50% of streams moderately acidic.
ANC depressions averaged 40 µeq L-1 during episodes.
4. Acidic deposition effects on plant communities were expressed through
ecosystem relationships, not simple cause and effect.
5. Measures of tree metabolism were related to soil conditions, but these
responses were also influenced by ecosystem relationships.
6. Target loads of S needed for ecosystem protection were exceeded in 2100
under 2005-2009 deposition levels at sites distributed over the full AT.
Rangely Lake, ME
Acknowledgements
Retirees: Tony Federer, Jim Lynch, Jake Peters
Field assistants: Paul Beaver, Briana Boaz, and Celesta Collacchi
Reports
• Detailed report and two fact sheets available
• Available at -https://www.researchgate.net/profile/Dougla
s_Burns/publications
• Current link to US NPS site seems to be broken