Abstract
TheEarth Day: Forest Watch Program at the University of New Hampshire utilizes morphological and anatomical measurements made on branch and needle samples from eastern white pine (Pinus strobus), collected by K-12 students throughout New Hampshire and Maine. White pine is considered to be a bio-indicator species for ozone exposure. A University research project which monitors the response of white pine to elevated levels of tropospheric ozone has been developed by the authors, who incorporate student-made measurements such as needle length, occurrence of diagnostic foliar symptoms, needle retention, and cellular levels of damage, into an on-going project which characterizes conifer response to a variety of air pollutants. The research team compares classroom measurements with laboratory spectral reflectance measurements made on student-collected branch samples, and infers state-of-health conditions in white pine from the two-state area. These state-of-health data are, in turn, compared with State-monitored tropospheric ozone measurements on a yearly basis, resulting in change-over-time analysis of both regional ozone levels and relative levels of tree health. Based on the work to data (1991–1996), student-derived data have been found to correlate well with spectral parameters and with spatial patterns of summer ozone levels, suggesting that student measurements represent an accurate and reliable source of data for research scientists. Specific examples of student datasets and comparisons with reflectance data and how these can be used for Landsat data verification are presented, along with a discussion of the importance of being able to assess the accuracy of student data. Research scientists need to recognize the tremendous potential for access to reliable data represented by student data-collection programs such asEarth Day:Forest Watch.
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References
Bennett, J.P., Anderson, R.L., Campana, R., Clarke, B.B., Houston, D.B., Linzon, S.N., Mielke, M.E., and Tingley, D.T. (1986). Needle tip necrosis on eastern white pine in Acadia National Park, Maine: Results of a workshop to determine possible causes. National Park Service Publication, Air Quality Division, Denver, Colorado, 8pp.
Eckert, R., Lee, T., Stapelfeldt, K., Theisen, A., Kohut, R., Lawrence, J., and King, P. (1992). Studies to assess the effects of ozone on native vegetation of Acadia National Park. 1992 Annual Report to the National Park Service, pp.144.
Lauten, G. N., and Rock, B.N. 1992. Physiological and spectral analysis of the effects of sodium chloride onSyringa vulgaris.Froceedings of IGARSS'92, Vol. 1: pp. 236–238, Houston, Texas.
Lichtenthaler, H.K., and Rinderle, U. (1988). The role of chlorophyll fluorescence in the detection of stress conditions in plants.Critical Reviews in Analytical Chemistry, Vol. 19, Supplement 1, CRC Press, Inc., pp. S29–S85.
Moss, D.M., and Rock, B.N. (1991). Analysis of red edge spectral characteristics and total chlorophyll values for red spruce (Picea rubens) branch segments from Mount Moosilauke, New Hampshire, USA. Proceedings of IGARSS'91, Vol. 3, pp. 1529–1532, Helsinki Univ. Technology, Espoo, Finland.
Rock, B.N., Greczynski, J., Moss, D.M., and Zawila-Niedzwiecki, T. (1992). Spectral characterization of forest decline damage in branch segments of Norway spruce (Picea Abies) in the Sudety Mountains of Poland. Proc. of Am. Soc. Photogrammetry and Remote Sens. Vol. 1: pp. 271–279.
Rock, B.N., Skole, D., and Choudhury, B. (1993). Monitoring vegetation change using satellite data. In:Vegetation Dynamics and Global Change, Solomon, A., and Shugart, H.H., eds., Chapman and Hall, New York/London, pp. 153–167, plus plates.
Rock, B.N., Vogelmann, J.E., Williams, D.L., Vogelmann, A.F., and Hoshizaki, T. (1986). Remote detection of forest damage.BioScience 36: pp. 439–445.
Sanchini, P.J. (1988). Incidence and spatial pattern of trees with necrotic needle symptoms inPinus strobus populations of nine national parks in 1987. Nat. Park Service Publication, Air Quality Division, pp. 32.
Skelly, J.M., Davis, D.D., Merrill, W., Cameron, E.A., Brown, H.D., Drummond, D.B., and Dochinger, L.S. (1987). Diagnosing injury to eastern forest trees — A manual for identifying damage caused by air pollution, pathogens, insects, and abiotic stresses. Joint Publication of NAPAP, USDA Forest Service, and Penn State University, pp. 221.
Theisen, A.F., Rock, B.N., and Eckert, R.T. (1994). Detection of changes in steady-state chlorophyll fluorescence inPinus strobus following short-term ozone exposure.J. Plant Physiol. 144: pp. 410–419.
Treshow, M. (1986). Tolerance and susceptibility to air pollution, a new direction in sampling strategy: a case study ofPinus strobus L. in Acadia National Park, Maine. Proceedings of Int. Sympos. on Ecological Aspects of Tree Ring Analysis, Aug. 17–21, Marymount College, Tarrytown, New York, pp. 392–400.
Treshow, M., and Anderson, F.K. (1991). Plant stress from Pollution. John Wiley and Sons, Ltd., pp. 83
Ustin, S.L., and Curtiss, B. (1989). Spectral characteristics of ozone-treated conifers.Nat. Council of the Paper Industry for Air and Stream Improvement, Tech. Bull. No. 570, pp. 21.
Vogelmann, J.E., Rock, B.N., and Moss, D.M. (1993). Red edge spectral measurements from sugar maple leaves.Int. J. Remote Sens. 14: pp. 1563–1575.
Westman, W.E., and Price, C.V. (1988). Spectral changes in conifers subjected to air pollution and water stress: experimental studies.IEEE Transactions on Geoscience and Remote Sensing, 26: pp. 11–21.
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Rock, B.N., Lauten, G.N. K-12th grade students as active contributors to research investigations. J Sci Educ Technol 5, 255–266 (1996). https://doi.org/10.1007/BF01677123
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DOI: https://doi.org/10.1007/BF01677123