Forest development in North America following major disturbances

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Abstract

Large-scale, man-created or natural disturbances play a mjaor role in determining forest structure and species composition in many areas of North America and probably other temperate and tropical forests. Trees begin growth by a variety of mechanisms — each of which can respond to disturbances of a different severity. Studies suggest: a single group of species is not predestined to inhabit an area; forest physiognomic appearances assumed to imply all-aged succession often occur in single-age class stands; and recruitment of new stems into a forest often follows a disturbance rather than being a constant occurrence. After disturbances, forests develop through general physiognomic stages: “stand initiation”, “stem exclusion”, “understory reinitiation”, and “old growth”. Disturbance severity determines which species will dominate the forest afterward. The frequency of disturbances is also important in determining the general forest type over a large area, because species dominance and stand physiognomy change with time following disturbance.

References (68)

  • J.H. Connell et al.

    Mechanisms of succession in natural communities and their role in community stability and organization

    Am. Nat.

    (1977)
  • T.C. Croker

    Ecology of an ideal forest community in the longleaf-slash pine region

  • R. Daubenmire

    Plant Communities: A Textbook of Plant Synecology

  • W.H. Drury et al.

    Succession

    J. Arnold Arboretum

    (1973)
  • F.E. Egler

    Vegetation science concepts. I. Initial floristic composition. A factor in old-field vegetation development

    Vegetatio

    (1954)
  • F.H. Eyre et al.

    Partial cuttings in northern hardwoods of the Lake States

    USDA Bull. No. 1076

    (1953)
  • J.F. Franklin et al.

    Natural vegetation of Oregon and Washington

    USDA Forest Service General Technical Report PNW-8

    (1973)
  • J.F. Franklin et al.

    Distinctive features of the North western Coniferous Forest: development, structure and function

  • S.F. Gingrich

    Management of upland hardwoods

    USDA Forest Service Research Paper NE-195

    (1971)
  • J.L. Harper

    Population Biology of Plants

  • Harvard Forest

    The Harvard Forest Models

  • M.L. Heinselman

    The natural role of fire in northern conifer forests

    Naturalist

    (1970)
  • M.A. Hemstrom

    Recent disturbances of forest ecosystems of Mount Rainier National Park

  • J.D. Henry et al.

    Reconstructing forest history from live and dead plant material — an approach to the study of forest succession in south west New Hampshire

    Ecology

    (1974)
  • B.R. Holt

    Effect of arrival time on recruitment, mortality and reproduction in successional plant populations

    Ecology

    (1972)
  • H.S. Horn

    The ecology of secondary succession

    Annu. Rev. Ecol. Systemat.

    (1974)
  • A.F. Hough

    Some diameter distributions in forest stands of north western Pennsylvania

    J. For.

    (1932)
  • A.F. Hough et al.

    The ecology and silvics of forests in the high plateaus of Pennsylvania

    Ecol. Mono.

    (1943)
  • S.O. Hubbell

    Tree dispersion, abundance and diversity in a tropical dry forest

    Science

    (1979)
  • G.E. Hutchinson

    Concluding remarks

  • E.W. Jones

    The structure and reproduction of the virgin forest of the north temperate zone

    New Phytol.

    (1945)
  • T.T. Kozlowski
  • B.C. Larson et al.

    Forest dynamics and fuelwood supply of the Stehekin Valley, Washington

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