Figure 8. Molecular ratios from Moose Creek. All bars n=3; Error bars represent SE. ** p=0.05 ** DOC...
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Transcript of Figure 8. Molecular ratios from Moose Creek. All bars n=3; Error bars represent SE. ** p=0.05 ** DOC...
Figure 8. Molecular ratios from Moose Creek. All bars n=3; Error bars represent SE. ** p=0.05
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DOC:TP TP:NHN DON:NHN
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multiple burn**
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DOC to DON Ratios in Ponderosa Pine Forest Soils of Fire-Excluded and Frequently Burned SitesRachel J. Brimmer and Thomas H. DeLuca, The University of Montana, Department of Ecosystem and Conservation Sciences
Methods•Two wilderness sites each having stands of different fire history were used for this study:
•0 burn: no fires in 120 years
•Multiple burn: 3 or more fires in 120 years
• 4 soil cores (5cm dia.) including litter layer were taken per plot (n=3).
•Cores were trimmed to 2.5cm mineral soil and pore volume was determined by bulk density estimation.
•Cores were leached with 5 pore volumes of water
•Inorganic N (NH4+ & NO3
-), total phenols, DON (persulfate oxidation), DOC (Shimadzu TOC 5000), and ninhydrin-reactive N analyses were performed on the leachates.
•Potentially mineralizable N (14-day anaerobic incubation) was determined on soils sampled from the same sites.
•Statistical analyses performed using SPSS 10.0. All significance values from Mann Whitney U-tests due to data violations of normality.
Acknowledgements
The authors would like to thank M. Derek MacKenzie, Valerie Kurth,
Michael Gundale, Clarice Pina and Joss McKinnon for their assistance
and technical advice. Funding for site selection was provided by
USDA-NRI 2002-35107-12267; support for this research was provided
by the NSF-DEB-03171108.
Introduction
•Ponderosa pine forests are estimated to have had a historic fire return
interval of 25-50 years.
•Forests have experienced fire suppression for ~100 years.
•Nitrogen availability decreases with increasing time since fire
• The specific mechanism for this decline is not clear.
•Previous research has shown fire excluded sites to have less charcoal in
the forest floor litter compared to sites experiencing a more typical fire
return interval.
•Charcoal was also shown to adsorb phenolic compounds, a C source or
potentially inhibitory class of organic compounds.
•Charcoal may also influence solution C:N ratios by adsorbing HMW,
low N organic compounds.
•We also investigated the labile amino-N portion of the DON pool.
Discussion and Conclusions
•These two sites display very different solution chemistry likely due to
different storage times before leaching; however PMN data indicates a
fundamental difference between fire effects on N pools at the two sites.
•Charcoal content in forest floor litter was less than 100 kg/ha at both 0
burn stands; charcoal content in multiple burn stands was not
significantly greater at 23 Mile (~130 kg/ha) but was significantly
greater at Moose Creek (~900 kg/ha).
•DOC is significantly lowered at Moose Creek multiple burn. Total
phenols do not differ between stands.
•Nitrate dominates the inorganic N fraction in the multiple burn stand at
23 Mile and in both stands at Moose Creek.
•TDN pool is much larger in the multiple burn stand at 23 Mile than in
the 0 burn stand.
•DOC:DON of leachate is significantly lowered at 23 Mile multiple
burn. 0 burn stands have high variation in C:N ratios of the soil
solution.
•Though not significant between sites, DOC:NHN (labile amino-N)
ratios at multiple burn stands are lower than 0 burn stands; this
potentially indicates less inhibition of microbial population by high C:N
ratios.
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NH4+ NO3- TIN NHN DON TDNanalysis
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Figure 3.Organic and Inorganic nitrogen from 23 Mile. All
bars n=3; Error bars represent SE. * p<0.10, ** p <0.05.
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NH4+ NO3- TIN NHN DON TDN
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Figure 4.Organic and Inorganic nitrogen from Moose Creek. All bars n=3; Error bars represent SE. ** p=0.05
** **
Figure 7. Molecular ratios from 23 Mile. All bars n=3; Error bars represent SE.
NS
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DOC:DON DOC:NHN
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Figure 6. Carbon to nitrogen ratios from Moose Creek. All bars n=3; Error bars represent SE.
NS
Figure 5. Carbon to nitrogen ratios from 23 Mile. All bars n=3; Error bars represent SE. ** p < 0.05
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Figure 1. Potentially
mineralizable nitrogen. All bars
n=3. Error bars represent SE,
* p<0.10, ** p <0.05.
Figure 2. DOC and total
phenols. All bars n=3.
Error bars represent SE.
* p<0.10, ** p <0.05.
**
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