CONTRASTING GERMINATION AND SEEDLING GROWTH OF BETULA-ALLEGHANIENSIS AND RHUS-TYPHINA SUBJECTED TO VARIOUS AMOUNTS AND TYPES OF PLANT LITTER

Several characteristics of the environment, such as plant litter, may interact with species characteristics, such as seed size, to determine patterns of plant establishment and thereby influence abundance and spatial location of plants long after the factor has itself disappeared. To determine if litter might differentially affect seedling establishment of Betula alleghaniensis Britton and Rhus typhina L., two woody species with different sized seeds, we conducted two greenhouse experiments. We documented emergence, morphology, and growth patterns of seedlings covered by three amounts each of Fagus grandifolia Ehrh. leaves or Tsuga canadensis L. needles. All amounts of litter significantly reduced and delayed final Betula alleghaniensis seedling emergence, and the resultant seedlings had reduced root: shoot ratios, longer hypocotyls, and were less robust. Litter did not affect Rhus typhina emergence but did alter biomass allocation: stem, leaf, and root biomass of Rhus seedlings was reduced by greater amounts of litter, and by leaf litter relative to needle litter. We attribute the different responses of Betula and Rhus to differences in seed size (Betula mean seed size = 1.0 mg; Rhus mean seed size = 8.5 mg) and germination cues (Betula requires light, Rhus requires chemical or heat scarification), and suggest that differential response to litter may contribute to coexistence among these sympatric species.