Influence of woody invader control methods and seed availability on native and invasive species establishment in a Hawaiian forest

When invasive woody plants become dominant, they present an extreme challenge for restoration of native plant communities. Invasive Morella faya (fire tree) forms extensive, nearly monospecific stands in wet and mesic forests on the Island of Hawai’i. We used logging, girdling, and selective girdling over time (incremental girdling) to kill stands of M. faya at different rates, with the objective of identifying a method that best promotes native forest re-establishment. We hypothesized that rapid canopy opening by logging would lead to establishment of fast-growing, non-native invaders, but that slower death of M. faya by girdling or incremental girdling would increase the establishment by native plants adapted to partial shade conditions. After applying the M. faya treatments, seed banks, seed rain, and plant recruitment were monitored over 3 years. Different plant communities developed in response to the treatments. Increased light and nitrogen availability in the logged treatment were associated with invasion by non-native species. Native species, including the dominant native forest tree, (Metrosideros polymorpha) and tree fern (Cibotium glaucum), established most frequently in the girdle and incremental girdle treatments, but short-lived non-native species were more abundant than native species. A diverse native forest is unlikely to develop following any of the treatments due to seed limitation for many native species, but girdling and incremental girdling promoted natural establishment of major components of native Hawaiian forest. Girdling may be an effective general strategy for reestablishing native vegetation in areas dominated by woody plant invaders.     

Age structure of woody species populations in relation to seed rain,germination and establishment along the river Dalälven,Sweden

Three methodological approaches were combined to assess the population dynamics of woody species, particularly birch, growing along the shores of the Dalälven river in eastern central Sweden. 1) Seed rain, seed bank and seedling densities were estimated to document the current recruitment potential. 2) Seed burial experiments were performed and artificial gaps in the field layer created to obtain additional information on germination and establishment processes. 3) Age distributions were used for retrospective interpretation of woody species successions.The zonation of the vegetation along transects from wet meadow into forest cannot be interpreted as a chronosequence. Storm gap formation, water level regulation and cessation of hay-making in the past were followed by episodic colonisation and regeneration of several woody species.Although birch seed rain is most abundant close to parent trees and the half-life of the birch seed bank increases with decreasing submersion, seedlings occur abundantly everywhere along the transects. Seedling mortality, however, is 100% and the current environmental conditions in the wet meadows and in the forest do not allow any establishment. Long-lasting submersion, shading by trees and interference by species from the field layer hampered or prevented birch establishment.