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Large-scale patterns of forest succession as determined by remote sensing

Journal Article · · Ecology; (United States)
DOI:https://doi.org/10.2307/2937203· OSTI ID:5746739
 [1];  [2];  [3];  [4];  [5]
  1. Goddard Space Flight Center, Greenbelt, MD (United States)
  2. Univ. of California, Santa Barbara (United States)
  3. Versar, Columbia, MD (United States)
  4. Bennington Coll., VT (United States)
  5. Science Applications Research, Lanham, MD (United States)
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The spatial pattern of and the transition rates between forest ecological states were inferred for {approx} 260,000 pixel-sized (3,600 m{sup 2}) landscape units using satellite remote sensing. Transition rates were estimated from 1973 to 1983 Landsat images of the study area, classified into ecological states associated with forest succession. The effects of classification error on transition rate estimates were modeled and error adjustments made. Classification of the 1973 and 1983 Landsat images of the 900 km{sup 2} study region required a relatively small set of ground-observed and photo-interpreted plots in 1983, with a total area of just 1.62 km{sup 2}. An innovative technique for correcting multiyear Landsat images for between-image differences in atmospheric effects and sensor calibration, permitted classification of the 1973 Landsat image using 1983 ground observations. Given current Landsat data, and ground observations in one year, this technique would permit monitoring of forest succession and dynamics for nearly a 20-yr period. Results of applying these techniques to a forest ecosystem showed that during the 10-yr observation period it was patchy and dynamic. For both a wilderness and a nonwilderness area in the study region, sizeable values of transition rates were observed and over half of the landscape units were observed to change state; however, a Markov analysis, using the observed transition probabilities, suggests that at the regional level neither the wilderness nor the nonwilderness areal proportions of ecological states are undergoing rapid change.
OSTI ID:
5746739
Journal Information:
Ecology; (United States), Journal Name: Ecology; (United States) Vol. 72:2; ISSN 0012-9658; ISSN ECOLA
Country of Publication:
United States
Language:
English

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Related Subjects

54 ENVIRONMENTAL SCIENCES
540110
540210* -- Environment
Terrestrial-- Basic Studies-- (1990-)
BIOSPHERE
CLIMATES
ECOLOGICAL SUCCESSION
ECOLOGY
ECOSYSTEMS
FORESTS
LANDSAT SATELLITES
REMOTE SENSING
RESEARCH PROGRAMS
SATELLITES