PT - JOURNAL ARTICLE AU - Jonathan J. Henn AU - Christopher B. Anderson AU - Gastón Kreps AU - María Vanessa Lencinas AU - Rosina Soler AU - Guillermo Martínez Pastur TI - Determining Abiotic and Biotic Factors that Limit Transplanted <em>Nothofagus pumilio</em> Seedling Success in Abandoned Beaver Meadows in Tierra del Fuego AID - 10.3368/er.32.4.369 DP - 2014 Dec 01 TA - Ecological Restoration PG - 369--378 VI - 32 IP - 4 4099 - http://er.uwpress.org/content/32/4/369.short 4100 - http://er.uwpress.org/content/32/4/369.full AB - As ecosystem engineers, North American beavers (Castor canadensis) change many environmental conditions in water-sheds, felling trees, damming streams, and flooding riparian zones. In Tierra del Fuego, where beavers were introduced in 1946, these alterations have produced meadows that appear to be long-term alternate stable states, lacking signs of resilience and natural forest regeneration. The aim of this work was to determine the abiotic and biotic factors that affect native tree seedling success in abandoned beaver meadows in Nothofagus pumilio forests. Environmental conditions including light, soil moisture, herbaceous plant community composition, and reinvasion potential were measured in areas impacted by beavers and in unimpacted old-growth forests. Additionally, we monitored the survival and success of N. pumilio seedlings transplanted in plots where meadow vegetation was cleared. Tree seedlings showed little growth, and survival varied by type of beaver impact. While survival was high and similar to unimpacted sites in zones cut but not flooded by beavers, it was significantly lower in meadow zones that were previously flooded and cut, compared to old-growth forests. We found that the reinvasion of herbaceous plants into transplantation study plots was negatively related to tree seedling survival, and herbaceous (monocot) plant cover itself was related to beaver-created gradients in soil moisture and light availability. Overall, these abiotic changes modified the meadow’s plant community and enhanced herbaceous vegetation cover, particularly monocots and exotics, thus hindering transplanted seedling survival.