POPULATION-STRUCTURE AND DYNAMICS OF THE CLONAL DWARF-SHRUB LINNAEA-BOREALIS

被引：12

作者：

ERIKSSON, O

机构：

[1] Department of Botany, Stockholm University, Stockholm

来源：

JOURNAL OF VEGETATION SCIENCE | 1992年 / 3卷 / 01期

关键词：

DEMOGRAPHY; FOREST FLOOR; MATRIX MODEL; PERENNIAL HERB; SCALING PROBLEM; STOCHASTICITY;

D O I：

10.2307/3235999

中图分类号：

Q94 [植物学];

学科分类号：

071001 ;

摘要：

The demography of the long-lived clonal dwarf-shrub Linnaea borealis was studied during four years in a coniferous forest in central Sweden. The main object was to infer patterns of temporal variation in population dynamics of this species. The shoot population is organized in fragments, i.e. physically connected systems of shoots partly covered by the moss carpet. The age and size structure of the fragment population is described, but shoots are more convenient units for a study of population dynamics. A stochastic model of shoot population dynamics was constructed, and simulations indicated a considerable temporal variation in population size and flowering. Hence, variability as such is an essential aspect of the dynamics of established populations of Linnaea. Simulations of extinction risks revealed that small-sized shoot populations (ca. 250 shoots) are likely to be long-lived when experiencing environmentally induced demographic variation of the range observed. Mortality agents for established genets, such as large-scale disturbances, were not incorporated in the models. Some implications of variable population growth rates in clonal plants in woodlands are discussed.

引用

页码：61 / 68

页数：8

共 49 条

[1]

Aberg P., Size based demography of the seaweed Ascophyllum nodosum in stochastic environments, Ecology.

[2]

Allen T.H.F., Hoekstra T.W., The confusion between scale‐defined levels and conventional levels or organization in ecology, Journal of Vegetation Science, 1, pp. 5-12, (1990)

[3]

Andersen A.G., Den Danske Mosflora., (1976)

[4]

Angevine M.W., Variation in the demography of natural populations of the wild strawberries Fragaria vesca and F. virginiana, J. Ecol., 71, pp. 959-974, (1983)

[5]

Angevine M.W., Handel S.N., Invasion of forest floor space, clonal architecture, and population growth in the perennial herb Clintonia borealis, J. Ecol., 74, pp. 547-560, (1986)

[6]

Antos J.A., Zobel D.B., Ecological implications of below‐ground morphology of nine coniferous forest herbs, Bot. Gaz., 145, pp. 508-517, (1984)

[7]

Ashmun J.W., Pitelka L.F., Light‐induced variation in the growth and dynamics of transplanted ramets of the understory herb Aster acuminatus, Oecologia (Berl.), 64, pp. 255-262, (1984)

[8]

Barkham J.P., Population dynamics of the wild daffodil (Narcissus pseudonarcissus). II. Changes in number of shoots and flowers, and the effects of bulb depth on growth and reproduction, The Journal of Ecology, 68, pp. 635-664, (1980)

[9]

Barkham J.P., Hance C.E., Population dynamics of the wild daffodil (Narcissus pseudonarcissus). III. Implications of a computer model of 1000 years of population change, J. Ecol., 70, pp. 323-344, (1982)

[10]

Barrett S.C.H., Helenurm K., The reproductive biology of boreal forest herbs. I. Breeding systems and pollination, Can. J. Bot., 65, pp. 2036-2046, (1987)

← 1 2 3 4 5 →