Competitive Interaction between Hedera helix and Native Riparian Vegetation Terry Le and Debbie Sonu Environmental Sciences Program, University of California, Berkeley Abstract The perennial vine, Hedera helix, is perceived as an aggressive and noxious invader from Eurasia. There are hypotheses and predictions that describe H. helix as capable of killing host trees by shading and inhibiting recruitment of herbaceous species, however, they remain untested. The purpose of this study was to establish if competition exists between H. helix and native riparian plant species and how such interspecific competition might alter riparian assemblages. We found that different native plants exhibited different growth responses when grown with ivy. Some plants decreased both root and shoot length in the absence of ivy and others increased growth in the presence of ivy. Then there were plants that increased or decreased only shoot or only root length but never both in the absence and presence of ivy. The study also examined the toxic effects that H. helix may have on soil. Native wildflowers seeds watered with ivy extract showed 16% germination, and soil pH for ivy treatments were more acidic than were control treatments. This suggested that ivy has the potential to exclude indigenous plant species germination by actively releasing allelopathic chemicals, thereby maintaining dominance by changing the chemical traits of soils.Introduction Non-indigenous riparian plant species have continually increased their presence in aquatic ecosystems throughout California by intentional or non-intentional human dispersal, or a combination of both (Dudley and Collins 1995). As the rate of introduction and disturbance increases within and between these regions due to human activity, the likelihood of introducing species to new environments also increase (Brock et al 1994) . Increases in non-indigenous species either directly impact individual native species or alter the ecosystem, indirectly affecting the native biodiversity of the community, especially animal and plant species dependent on the area for food and habitat resources. Examples of problem plants in the San Francisco Bay Area include Cape ivy (Delairea odorata) and Himalayan blackberry (Rubus discolor)(Dudley and Collins 1995). One non-indigenous plant that poses a serious threat to riparian communities is Hedera helix, or English ivy, which can establish in either wet or dry environments (Carter and Teramura 1988). H. helix, a member of the Araliaceae family, is a woody evergreen vine of Eurasian origin which was probably introduced to the United States in colonial times and now has become widely established in North America as garden ornamentals. H. helix possesses certain attributes of successful invaders. This includes the ability for quick regeneration following cutting, the large production of adventitious roots, and the potential to alter site conditions, by which it can displace native species and prevent further interspecies growth (Luken and Thieret 1997). English ivy is also capable of spreading its roots expansively into the soil and its stems just below the surface to form a dense, creeping, flat groundcover (B. Ertter, UC Herbarium, pers. comm.). The connecting structures may allow the translocation of resources from ivy growing in spatially favorable habitats to clonal ivy segments growing in spatially unfavorable patches (Stuefer and Hutchings 1994). Ivy is common in both deep shade and full sun environments, and thus may possess a broad intraspecific physiological and morphological plasticity (e.g. hardiness to extreme temperatures and specific root length) that strongly affects survival, growth, and competitive ability (Aerts 1999, Viougeas et al. 1995, Hutchings and Steufer 1994, Carter and Teramura 1988). The potential threat of invasive plants in natural ecosystems is often assessed or predicted by considering the life history characteristics of the invading species, the attributesof the invaded system, and the facilitating factors that may modify system or invader attributes (Luken and Thieret 1997). Without knowing the characteristics of the species and of the ecosystem (i.e. its physical and chemical characteristics) it is not possible to predict the rate of invasion, the mechanisms controlling invasion, or the impact of invasion on native abundance within the community (D’Antonio 1993, Luken and Thieret 1997). There exist few quantitative data showing the competitive relationship between H. helix and natural riparian vegetation. H. helix is thought to be damaging to adjacent vegetation by competing for light and below ground nutrients (Gough and Grace 1997). This report is intended to establish whether competition exists between H. helix and native riparian plants, and if so, what are the effects of competition on growth and form in native species in the presence of H. helix. We hypothesized that ivy can alter site chemistry by releasing secondary/inhibitory chemicals that discourage herbivory and thereby facilitate the displacement of native species. Study Site/Methods The study was conducted at the University of California Gill Tract Agricultural Research Facility in Albany (Alameda Co.). Outdoor field experiments at the facility were adjacent to a stream channel that carries primarily urban run-off. Experimental plots were on a gradually sloping bank of the stream channel underlain with well-drained riparian soil and organic matter. Field Study The experimental treatments were conducted within 1m x 1m plots with a 0.5 m buffer strip surrounding each to minimize edge effects. The three treatments were 1) addition of native species after ivy removal, 2) addition of native species among ivy, and 3) addition of natives where ivy was absent. Each treatment was replicated three times to yield nine experimental plots. The following native species were selected based on their presence in riparian systems and also on availability and capability to grow quickly. The plants included: California blackberry (Rubus vitifolius), mugwort (Artemesia douglasiana), bee plant (Scrophularia californica), fringe cups (Tellima grandiflora), pitcher sage (Salvia spathacea), California fuschia (Zauchneria californica/ Epilobium canum), inside-out-flower (Vancouveria planipetala), yarrow (Achillea millefolium), red sorrel (Rumex sp.), wild ginger (Asarum caudatum) and a variety of wildflower seeds from a commercial native