Main Page |
Goals & Objectives |
Background |
Approach |
References
References
Bonan, G.B., Atmosphere-biosphere exchange of carbon dioxide in boreal
forests, J. Geophys. Res. 96:7301-7312, 1991a.
Bonan, G.B., 1991b. Seasonal and annual carbon fluxes in a boreal forest
landscape, J. Geophys. Res. 96: 7329-17338, 1991b.
Bonan, G.B. and K. Van Cleve. 1992. Soil temperature, nitrogen mineralization,
and carbon source-sink relationships in boreal forests. Canadian Journal of
Forest Research 22:629-639.
Bourgeau-Chavez, L.L., P.A. Harrell, E.S. Kasischke, and N.H.F. French, The
detection and mapping of Alaskan wildfires using a spaceborne imaging radar
system, Int. J. Remote Sens., 18, 355-373, 1997.
Bourgeau-Chavez, L.L., E.S. Kasischke and M.D. Rutherford, Evaluation of ERS
SAR data for prediction of fire danger in a boreal region, Int. J. Wildland
Fire (in press), 2000.
Cahoon, D.R., Jr., B.J. Stocks, J.S. Levine, W.R. Cofer III, and J.M. Pierson,
Satellite analysis of the severe 1987 forest fires in northern China and
southeastern Siberia, J. Geophys. Res. 99, 18,627-18,638, 1994.
Chambers, S. and F.S. Chapin III, The effect of burn severity on surface
energy exchange over a 4-year old black spruce fire scar in interior Alaska,
(in preparation) 1999.
Chambers, S, F.S. Chapin III, K. O'Neil, D. McGuire and M. Durant, The effect
of burn severity on net ecosystem CO2 exchange over a black spruce stand in
interior Alaska, (in preparation) 1999.
French, N.H.F., L.L. Bourgeau-Chavez, Y. Wang and E.S. Kasischke, Initial
observations of Radarsat imagery at fire-disturbed sites in interior Alaska,
Remote. Sens. Environ. 68, 89-94, 1999.
French, N.H.F., E.S. Kasischke, L.L. Bourgeau-Chavez, P. Harrell, and N.L.
Christensen, Jr., Monitoring variations in soil moisture on fire disturbed
sites in Alaska using ERS-1 SAR imagery. Int. J. Remote Sens. 17, pp.
3037-3053, 1996.
French, N.H.F., E.S. Kasischke, B.J. Stocks, J.P. Mudd, B.S. Lee, and D.L.
Martell, Carbon released during fires in North American boreal forests, pp.
377-388 in Fire, Climate Change and Carbon Cycling in the Boreal Forest
,Kasischke, E.S., and B.J. Stocks (editors), Ecological Studies Series,
Springer-Verlag, New York, 2000.
Goetz, S. J. and S. D. Prince. 1998. Variability in carbon exchange and light
utilization among boreal forest stands: implications for remote sensing of net
primary production, Canadian Journal of Forest Research 28 (3):
375-389.
Goetz, S. J., S. D. Prince, S. N. Goward, M. M. Thawley, J. Small and A.
Johnston. 1999. Mapping net primary production and related biophysical
variables with remote sensing: application to the BOREAS region, Journal of
Geophysical Research 104 (22): 27719-27733.
Goetz, S. J., S. D. Prince, J. Small, A. Gleason and M. Thawley. 2000.
Interannual variability of global terrestrial primary production: results of a
model driven with global satellite observations, Journal of Geophysical
Research (in press).
Goward, S. N., and Huemmrich, K. F., Vegetation canopy PAR absorptance and the
normalized difference vegetation index: an assessment using the SAIL model.
Remote Sensing of Environment, 39, 119-140, 1992.
Harrell, P., L.L. Bourgeau-Chavez, E.S. Kasischke, N.H.F. French and N.L.
Christensen, Sensitivity of ERS-1 and JERS-1 radar data to biomass and stand
structure in Alaskan boreal forest, Remote Sens. Environ., 54, pp.
247-260,1995.
Haxeltine, A. and I.C. Prentice. 1996. BIOME3: an equilibrium terrestrial
biosphere model based on ecophysiological constraints, resource availability,
and competition among plant functional types, Global Biogeochemical
Cycles 10: 693-709.
Kasischke, E.S. Biomass burning and carbon release during fires in Alaskan
boreal forests, Canadian Journal Forest Research (in review), 2000.
Kasischke, E.S. and N.H.F. French, Natural limits on using AVHRR imagery to
map patterns of vegetation cover in boreal forest regions, Int. J. Remote
Sens., 18, 2403-2426, 1997.
Kasischke, E.S. and L.L. Bourgeau-Chavez, L.L., Monitoring south Florida
wetlands using ERS-1 SAR imagery, Photogram. Eng. Remote Sens. 33,
281-291, 1997.
Kasischke, E.S., L.L. Bourgeau-Chavez, N.H.F. French, P. Harrell, and N.L.
Christensen, Jr., Initial observations on the use of SAR imagery to monitor
wildfires in boreal forests, Intern. J. Remote Sens., 13, pp.
3495-3501, 1992.
Kasischke, E.S., L.L. Bourgeau-Chavez, N.L. Christensen, Jr., and E. Haney,
Observations on the sensitivity of ERS-1 SAR image intensity to changes in
aboveground biomass in young loblolly pine forests, Intern. J. Remote
Sens., 15, pp. 3-16, 1994a.
Kasischke, E.S., L.L. Bourgeau-Chavez, and N.H.F. French, Observations of
variations in ERS-1 SAR image intensity associated with forest fires in
Alaska. IEEE Trans. Geosci. Remote Sensing, 32, 206-210, 1994b.
Kasischke, E.S., L. Morrissey, J.B. Way, N.H.F. French, L.L. Bourgeau-Chavez,
E. Rignot, J.A. Stearn, G.P. Livingston, Monitoring seasonal variations in
boreal ecosystems using multi-temporal spaceborne SAR data, Can. J. Remote
Sens. 21, 96-109, 1995.
Kasischke, E.S., J.M. Melack, and M.C. Dobson, The use of imaging radars for
ecological applications - a review, Remote Sens. Env. 59, pp. 141-156,
1997.
Kasischke, E.S., K. Bergen, R. Fennimore, F. Sotelo, G. Stephens, A. Janetos,
and H.H. Shugart. 1999. Satellite imagery gives a clear picture of Russia's
boreal forest fires. EOS - Transactions of the American Geophysical
Union 80, 141, 147. 1999.
Kasischke, E.S., K.P. O'Neill, N.H.F. French, D.D. Richter, L.L.
Bourgeau-Chavez, and Peter H. Harrell, Influence of fire on long-term patterns
of forest succession in Alaskan boreal forests, pp. 214-238 in Fire,
Climate Change and Carbon Cycling in the Boreal Forest, Kasischke, E.S.,
and B.J. Stocks (editors), Ecological Studies Series, Springer-Verlag, New
York, 2000.
Kasischke, E.S., S. Chambers, K. Yoshikawa, F.S. Chapin III, L. D. Hinzman,
and N.H.F. French, Fire as a catalyst for rapid change in boreal forests
during periods of climate warming, Climatic Change (in review), 2000b.
Kasischke, E.S, K. P. O'Neill, N.H.F. French, and L.L. Bourgeau-Chavez,
Controls on patterns of biomass burning in Alaskan boreal forests, pp. 173-196
in Fire, Climate Change and Carbon Cycling in the Boreal Forest,
Kasischke, E.S., and B.J. Stocks (editors), Ecological Studies Series,
Springer-Verlag, New York, 2000c.
Kasischke, E.S., B.J. Stocks, K.P. O'Neill, N.H.F. French and L.L.
Bourgeau-Chavez. Direct effects of fire on the boreal forest carbon budget,
pp. 51-68 in M. Beniston, J.L. Innes, and M.M. Verstraete (eds), Biomass
Burning and its Inter-Relationships with the Climate System, Kluwer
Academic Press, Dordrecht, The Netherlands, 2000d.
Kasischke, E.S., L.L Bourgeau-Chavez, K.P. O'Neill, and N.H.F. French,
Indirect and long-term effects of fire on the boreal forest carbon budget, pp.
263-280 in M. Beniston, J.L. Innes, and M.M. Verstraete (eds.), Biomass
Burning and its Inter-Relationships with the Climate System, Kluwer
Academic Press, Dordrecht, The Netherlands, 2000e.
Landhaeusser, S.M., and R.W. Wein. 1993. Postfire vegetation recovery and tree
establishment at the Arctic treeline: climate-change - vegetation-response
hypotheses. J. Ecol. 81:665-672.
McGuire, A.D., J.M. Melillo, D.W. Kicklighter, Y. Pan, X. Xiao, J. Helfrich,
B. Moore III, C.J. Vorosmarty, and A.L. Schloss. 1997, Equilibrium responses
of global net primary production and carbon storage to doubled atmospheric
carbon dioxide: sensitivity to changes in vegetation nitrogen concentration,
Global Biogeochemical Cycles 11: 173-189.
Morrissey, L. A., S. L. Durden, and G. P. Livingston, J.A. Stearn, and L.S.
Guild, Differentiating methane source areas in Arctic environments with
multitemporal ERS-1 SAR data, IEEE Geosci. and Remote Sens. 34:
667-673, 1996.
Murphy, P.J., J.P. Mudd, B.J. Stocks, E.S. Kasischke, D. Barry, M.E.
Alexander, and N.H.F. French, Historical fire records in the North American
boreal forest, pp. 274-288 in Fire, Climate Change and Carbon Cycling in
the Boreal Forest, Kasischke, E.S., and B.J. Stocks (editors), Ecological
Studies Series, Springer-Verlag, New York, 2000.
Myneni, R.B., C.D. Keeling, C.J. Tucker, G. Asrar, and R.R. Nemani, Increased
plant growth in the northern high latitudes for 1981 to 1991, Nature
386, 698-702, 1997.
O'Neill, K.P., Changes in Carbon Dynamics Following Wildfire in Soils of
Interior Alaska, Ph.D. Dissertation, Duke University, Durham, NC.
2000.
O'Neill, K.P.; Kasischke, E.S.; Richter, D.D.; Krasovic, V. 1997. Effects of
fire on temperature, moisture and CO2 emissions from soils near Tok, Alaska.
In Proceedings of the International Symposium on Physics, Chemistry, and
Ecology of Seasonally Frozen Soils, Fairbanks, Alaska, June 10-12, 1997,
295-303.
Potter CS, Randerson JT, Field CB, Matson PA, Vitousek PM, Mooney HA,
Klooster SA (1993) Terrestrial ecosystem production: a process model based on
global satellite and surface data. Global Biogeochemical Cycles, 7,
811-841.
Prince, S.D. and S.N. Goward, Global primary production: a remote sensing
approach, J. Biogeography 22: 2829-2849, 1995.
Pulliainen, J.T., P.J. Mikkela, M.T. Hallikainen, and J.-P. Ikonen, Seasonal
dynamics of C-band backscatter of boreal forests with applications to biomass
and soil moisture, IEEE Geosci. and Remote Sens. 34: 758-770, 1996.
Randerson, J.T., M.V. Thompson, T.J. Conway, I.Y. Fung, and C.B. Field. 1997.
The contribution of terrestrial sources and sinks to trends in seasonal cycles
of atmospheric carbon dioxide, Global Biogeochemical Cycles 11:
535-560.
Randerson, J.T., C.B. Field, I.Y. Fung, and P.P. Tans. 1999. Increases in
early season ecosystem uptake explain recent changes in the seasonal cycle of
atmospheric CO2 at high northern latitudes.
Geophysical Research Letters 26: 2765-2768.
Richter, D., E.S. Kasischke, and K.P. O'Neill, Postfire stimulation of soil
respiration in burned black spruce (Picea mariana L.) forest ecosystems: a
hypothesis, pp.197-213 in Fire, Climate Change and Carbon Cycling in the
Boreal Forest, Kasischke, E.S., and B.J. Stocks (editors), Ecological
Studies Series, Springer-Verlag, New York, 2000.
Rignot, E. and J.B. Way. 1994a. Monitoring freeze-thaw cycles along
north-south Alaskan transects using ERS-1 SAR. Rem. Sens. Environ.
49:131-137.
Rignot, E., J.B. Way, K. McDonald, L. Viereck, C. Williams, P. Adams, C.
Payne, W. Wood and J. Shi. 1994b. Monitoring of environmental conditions in
taiga forests using ERS-1 SAR, Rem. Sens. Env. 49:145-154.
Running, S.W., and Nemani, R.R., Relating seasonal patterns of the AVHRR
vegetation index to simulated photosynthesis and transpiration of forests in
different climates, Remote Sensing of Environment, 24, 347-367, 1988.
Schlentner, R.E. and K. Van Cleve. 1985. Relationships between CO2 evolution from soil, substrate temperature, and
substrate moisture in four mature forest types in interior Alaska.
Canadian Journal of Forest Research 15:97-106.
Viereck, L.A., Dyrness, C.T., Van Cleve, K., and Foote, M.J. 1983. Vegetation,
soils, and forest productivity in selected forest types in interior Alaska,
Canadian Journal of Forest Research 13:703-720.
Viereck, L.A., K. Van Cleve, and C.T. Dyrness. 1986. Forest ecosystem
distribution in the taiga environment. Pages 23-43 in K. Van Cleve, F.S.
Chapin III, P.W. Flanagan, L.A. Viereck, and C.T. Dyrness, editors.
Ecological series vol. 57: Forest ecosystems in the Alaskan taiga.
Springer-Verlag, New York, USA.
Wang, Y., E.S. Kasischke, F.W. Davis, J.M. Melack, and N.L. Christensen, Jr.,
The Effects of Changes in Loblolly Pine Biomass and Soil Moisture Variations
on ERS-1 SAR Backscatter - a Comparison of Observations with Theory, Remote
Sens. Env., 49, pp. 25-31, 1994.
Wang, Y., E.S. Kasischke, L.L. Bourgeau-Chavez, K.P. O'Neill and N.H.F.
French, Assessing the influence of vegetation cover on soil-moisture
signatures in fire-disturbed boreal forests in interior Alaska: modeled
results, Int. J. Remote Sens. (in press) 2000.
Way, J.B., J. Paris, M.C. Dobson, K. McDonald, F.T. Ulaby, S. Ustin, V.
Vanderbilt, J.A. Weber, S.L. Ustin, V.C. Vanderbilt, and E.S. Kasischke,
Diurnal Changes in Trees as Observed by Optical and Microwave Sensors: The EOS
Synergism Experiment, IEEE Trans. Geosci. Remote Sensing, 29, pp.
807-821, 1991.
Main Page |
Goals & Objectives |
Background |
Approach |
References