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• W2312639810 abstract "Spatial structure in species populations usually takes the form of an aggregated distribution of individuals. Aggregation occurs either in response to environmental heterogeneity or as a result of species morphology; vegetative spread or reproduction by heavy seed will lead to the aggregation of offspring in the vicinity of parent plants. An aggregated structure is general even in apparently homogeneous vegetation. Superficial homogeneity in vegetation may be taken to indicate that the majority of habitat factors are constant. Therefore, the prevalence of aggregated distributions in superficially homogeneous vegetation provides a means of examining the control of species by habitat factors in relatively simple situations. Recent work illustrates the usefulness of this approach (Phillips 1953, 1954a, b; Kershaw 1958; Greig-Smith 1961; Anderson 1961a, b). The occurrence of structure may also throw light on the mechanisms of vegetational succession. It has been suggested (Greig-Smith 1964) that succession is accompanied by structural changes involving concurrently an increase in the size of the species aggregations and a decrease in the intensity of aggregation, these changes leading eventually to the elimination of an aggregated structure by coalescence of the individual aggregations. Published work dealing with a variety of vegetation types supports these suggestions. Whitford (1949) and Kershaw (1957) found decreasing intensity of aggregation during succession in woodland herbaceous communities and in upland grassland communities respectively. Greig-Smith (1952) found that the aggregations in secondary rainforest increased in scale with succession. The eventual elimination of an aggregated structure in the course of succession was observed by Greig-Smith (1961) in a dune species and by Kershaw in upland grassland. This paper presents the results of an investigation into the population structure of the two major species, Salicornia europaea L. and Puccinellia maritima (Huds.) Parl., in a developing salt-marsh. The factors influencing structure have been examined and the changes in structure through several successional phases are described. The determination of the Salicornia species present depends on the key provided by Ball & Tutin (1959). The identification was confirmed by K. Ferguson, Trinity College, Dublin." @default.
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• W2312639810 date "1971-07-01" @default.
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• W2312639810 title "The Structure of the Species Populations in the Initial Stages of Salt-Marsh Succession" @default.
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• W2312639810 doi "https://doi.org/10.2307/2258314" @default.
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