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    Author(s): Alison Ainsworth
    Date: 2007
    Source: Ainsworth, Alison. 2007. MS thesis, Oregon State University. 175 p.
    Publication Series: Miscellaneous Publication
    Station: Pacific Southwest Research Station
    PDF: Download Publication  (734.11 KB)

    Description

    The role of fire as a natural disturbance, its interactions with nonnative species and effects of repeated fires in the Hawaiian Islands have received little investigation. We are unsure of the role fire played in shaping forest structure and composition as well as affecting evolutionary processes of the native biota. Yet, many species do have adaptations that facilitate their capacity to establish, grow, reproduce, and persist on either the individual or the population level when fire occurs. The objectives of this study were to document individual survival and colonization of native Hawaiian species after fire and to examine the potential interactions of nonnative species and fire. Specifically, I hypothesized that (1) many native Hawaiian species would survive and or colonize the postfire environment because they are adapted to a wide array of disturbance events, (2) the interaction of fire and nonnative species would alter native plant community succession because fire would facilitate nonnative species invasions, and the presence of nonnative species would limit native species recovery, and (3) the occurrence of a second fire within one year would result in a more impoverished native flora because sprouts from native surviving trees would be killed by the second fire. To understand the role of fire in tropical forests of Hawaii and how forest species respond to fire, I established replicate plots (n=5) in burned and unburned areas in five vegetation communities along an elevation/community gradient in Hawaii Volcanoes National Park. At lower elevations the sampled plant communities were two shrub-dominated communities (Dodonaea viscosa/ Andropogon virginicus and Dodonaea/ Nephrolepis multiflora) and at higher elevations three forest communities (Metrosideros polymorpha/ Nephrolepis multiflora, Metrosideros/ Dicranopteris linearis, and Metrosideros/ Cibotium glaucum). Fires in all community types were stand-replacing, where >95% of the dominant native woody species were top-killed. Results from this study indicate that many native Hawaiian species had the capacity to survive fire vegetatively and/or established from seed in the postfire environment. Nineteen native tree, shrub and tree fern species survived fire primarily by sprouting from the base. Many of these species also established from seeds or spores postfire. Metrosideros, in particular, both exhibited widespread survival (>50%) primarily via basal sprouting and established from seed postfire. In addition, the effects of fire differed across species, populations and vegetation communities along the elevation gradient. Fire differentially affected the communities with greater differences in composition and structure observed in the three forest communities than the shrub-dominated communities. In the forested communities, fire dramatically altered structure from a closed-canopy Metrosideros forest to shrub, fern and herb dominated sites. Understory cover differed between unburned and burned forest sites with reduced cover in the Nephrolepis and Dicranopteris forests and greater cover in the Cibotium forest. In the previously native-dominated Dicranopteris and Cibotium forest communities, nonnative species became increasingly abundant following fire suggesting that fire facilitated nonnative species invasion in these communities. The native fern Dicranopteris linearis was the most abundant understory species in the unburned sites, but nonnative ferns and vines dominated the understory in the burned sites postfire. Species richness, percent nonnative, and understory diversity were greater in the burned sites two years postfire than the unburned sites for each community. In contrast, in the Nephrolepis forest community the nonnative fern Nephrolepis

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    Citation

    Ainsworth, Alison. 2007. Interactive influences of wildfire and nonnative species on plant community succession in Hawaii Volcanoes National Park. MS thesis, Oregon State University. 175 p.

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