S. Catovsky et Fa. Bazzaz, The role of resource interactions and seedling regeneration in maintaininga positive feedback in hemlock stands, J ECOLOGY, 88(1), 2000, pp. 100-112
1 When a species influences conditions at a site to promote recruitment of
conspecifics, the community may remain dominated by that species until the
next major disturbance. We examined the occurrence of possible mechanisms f
or such a positive feedback in one community where it may be important: for
ests dominated by eastern hemlock (Tsuga canadensis).
2 Intact soil divots were collected from a hemlock stand in central Massach
usetts, USA, and placed in shade-houses at either 1.5% or 60% full sun. Soi
l was amended with nitrogen (5 g m(-2) year(-1)), lime (1 kg m(-2) year(-1)
; to increase soil pH) or left untreated. Emergence, survival and growth of
seedlings arising from the soil seed bank were subsequently monitored.
3 Light availability had a very large influence on seedling regeneration dy
namics. Birch (Betula spp.) seedlings were most sensitive of all species to
light availability, with low light reducing emergence by 43% and substanti
ally decreasing seedling growth (by 99%) and survival (by 94%). In contrast
, light treatments had smaller effects on performance of other species [hem
lock and white pine (Pinus strobus)]. Birch survival was also increased by
nitrogen addition, but only in low light. Liming had only marginal effects
on seedling performance.
4 Differential seedling responses to resource availability led to dominance
of final seedling communities by hemlock in low light, unamended soils (i.
e., under conditions naturally found in hemlock stands), but by birch in hi
gh light, as well as in low light, nitrogen-amended soils.
5 Positive feedbacks in hemlock stands are mediated both by availability of
light and nitrogen, and by species' life-history strategies.