[논문]Direct measurement of spatial autocorrelation at the community level in four plant communities

Mistral, Maia; Buck, Oliver; Meier‐; Behrmann, Daniel C.; Burnett, David A.; Barnfield, Terry E.; Scott, Andrew J.; Anderson, Barbara J.; Wilson, J. Bastow

doi:10.2307/3236561

[해외논문] Direct measurement of spatial autocorrelation at the community level in four plant communities

Journal of vegetation science : official organ of the International Association for Vegetation Science, v.11 no.6, 2000년, pp.911 - 916

Mistral, Maia , Buck, Oliver , Meier‐Behrmann, Daniel C. , Burnett, David A. , Barnfield, Terry E. , Scott, Andrew J. , Anderson, Barbara J. , Wilson, J. Bastow

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Abstract. Four sites were sampled to determine spatial autocorrelation in vegetation at the community level. All were in western New Zealand, but on different substrates and of different physiognomy: a terrace forest, a floodplain forest, a mire and the middle of a logging road. In ‘dissimograms’the four communities all showed steady increases in dissimilarity with distance, but with shoulders in the curve for some sites, which could be related to plant morphology. Most of the increase in dissimilarity occurred over very short distances: less than 0.5 m in the forests, less than 1 m in the mire and less than 2 m in the road. Separate analyses of the woody and herbaceous guilds in the floodplain forest showed that herbaceous dissimilarities remained low at distances up to 20 m, probably because of clonal structure in some species. The mire showed low overall dissimilarity, which is attributed to the uniform substrate and the small species pool. Simulations showed that the approach is capable of indicating structure when it is present. Although the dissimogram was clearest when analysing a simulated grid of patches, other types of simulated patchiness showed dissimograms that were clearly distinguishable from those obtained from the vegetation studied. The almost continuous rise in dissimilarity with distance found in the four sites offers no support to the Hierarchy theory, fitting much more closely the alternative Continuum theory.

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DOI : 10.2307/3236561
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