Alpine Plant Invasions

Alpine Plant Invasions

See discussions, stats, and author profiles for this publication at: https://www.researchgate.net/publication/305481930 Plant invasions into mountains and alpine ecosystems: current status and future challenges Article in Alpine Botany · July 2016 DOI: 10.1007/s00035-016-0172-8 READS 14 12 authors, including: Lohengrin A. Cavieres Christoph Kueffer University of Concepción ETH Zurich 182 PUBLICATIONS 4,997 CITATIONS 137 PUBLICATIONS 2,022 CITATIONS SEE PROFILE SEE PROFILE Ann Milbau Tim Seipel Research Institute for Nature and Forest Montana State University 52 PUBLICATIONS 784 CITATIONS 13 PUBLICATIONS 343 CITATIONS SEE PROFILE SEE PROFILE Available from: Tim Seipel Retrieved on: 22 July 2016 Alp Botany DOI 10.1007/s00035-016-0172-8 REVIEW Plant invasions into mountains and alpine ecosystems: current status and future challenges 1,2 3 4,5 6 Jake M. Alexander • Jonas J. Lembrechts • Lohengrin A. Cavieres • Curtis Daehler • 7,8 1 9 10 11 Sylvia Haider • Christoph Kueffer • Gang Liu • Keith McDougall • Ann Milbau • 12,5 13 13 Anı´bal Pauchard • Lisa J. Rew • Tim Seipel Received: 24 March 2016 / Accepted: 9 July 2016 Ó Swiss Botanical Society 2016 Abstract Recent years have seen a surge of interest in species as specifically cold-adapted, with the overwhelm- understanding patterns and processes of plant invasions ing majority having their centres of distribution under into mountains. Here, we synthesise current knowledge warmer environments, and few have substantial impacts on about the spread of non-native plants along elevation gra- native communities. A combination of low propagule dients, emphasising the current status and impacts that availability and low invasibility likely explain why alpine these species have in alpine ecosystems. Globally, inva- environments host few non-native plants relative to low- sions along elevation gradients are influenced by propagule land ecosystems. However, experiences in some areas availability, environmental constraints on population demonstrate that alpine ecosystems are not inherently growth, evolutionary change and biotic interactions. The resistant to invasions. Furthermore, they will face highest elevations are so far relatively free from non-native increasing pressure from the introduction of pre-adapted plants. Nonetheless, in total nearly 200 non-native plant species, climate change, and the range expansion of native species have been recorded from alpine environments species, which are already causing concern in some areas. around the world. However, we identified only three Nonetheless, because they are still relatively free from non- native plants, preventative action could be an effective way to limit future impacts of invasions in alpine environments. Electronic supplementary material The online version of this article (doi:10.1007/s00035-016-0172-8) contains supplementary material, which is available to authorized users. & Jake M. Alexander 8 German Centre for Integrative Biodiversity Research (iDiv), [email protected] Leipzig, Germany 9 College of Life Sciences, Shaanxi Normal University, 1 Department of Environmental Systems Science, Institute of 710119 Xi’an, China Integrative Biology, ETH Zurich, 8092 Zurich, Switzerland 10 Department of Ecology, Environment and Evolution, La 2 Department of Ecology and Evolution, University of Trobe University, PO Box 821, Wodonga, VIC 3689, Lausanne, 1015 Lausanne, Switzerland Australia 3 Centre of Excellence of Plant and Vegetation Ecology, 11 Department of Biodiversity and Natural Environment, University of Antwerp, 2610 Wilrijk, Belgium Research Institute for Nature and Forest INBO, 1070 4 Departamento de Bota´nica, Facultad de Ciencias Naturales y Brussels, Belgium Oceanogra´ficas, Universidad de Concepcio´n, Casilla 160-C, 12 Laboratorio de Invasiones Biolo´gicas, Facultad de Ciencias Concepcio´n, Chile Forestales, Universidad de Concepcio´n, Casilla 160-C, 5 Institute of Ecology and Biodiversity (IEB), Casilla 160-C, Concepcio´n, Chile Concepcio´n, Chile 13 Department of Land Resources and Environmental Sciences, 6 Department of Botany, University of Hawaii at Manoa, 3190 Montana State University, Bozeman, MT 59717, USA Maile Way, Honolulu, HI 96822, USA 7 Institute of Biology/Geobotany and Botanical Garden, Martin Luther University Halle-Wittenberg, Halle (Saale), Germany 123 Alp Botany Keywords Climate change Á Elevation gradient Á Non-native plant invasions along elevation Mountain Á Non-native plant Á Range expansion gradients To understand the origin and diversity of non-native plants Introduction currently found in alpine areas, it is necessary to first con- sider patterns and processes of invasions along complete Understanding the spread of non-native species underpins elevation gradients. We start by reviewing the dominant our ability to protect native species and habitats vulner- patterns of non-native species richness in mountains, and the able to invasion. In recent years, there has been an processes influencing non-native species spread (Fig. 1). explosion of studies of plant invasions into mountain Some of these processes will also affect spread in alpine areas (e.g. Marini et al. 2009; Paiaro et al. 2011; Pauchard ecosystems, but such areas have received much less direct et al. 2016; Seipel et al. 2012), motivated in part by empirical attention. concern about the possible impacts of non-native plants in mountain ecosystems. Whilst providing a global view of Patterns of non-native species richness the status of plant invasions in mountains, these studies along elevation gradients also emphasise the value of steep environmental gradients for understanding the processes limiting non-native spe- Until recently, patterns of non-native plants in mountains cies’ spread more generally. had received little attention because most experts thought Studies of plant invasions in mountains have mostly that non-native species were rare in upper montane to alpine focused on patterns of non-native species richness and ecosystems (Pauchard et al. 2009). Most research does the dynamics of spread along elevation gradients. How- indicate that non-natives are less frequent when compared to ever, often these gradient studies do not reach the the lowest elevations regionally, but upper elevations highest areas, and therefore, much less is known about (montane to alpine areas) are not free of non-native species the status of non-native plants in alpine areas. Alpine (Alexander et al. 2011; Marini et al. 2013). Studies from areas are generally considered to be relatively free from around the world support a consistent pattern of declining non-native plants (Pauchard et al. 2009; Zefferman et al. non-native plant richness from a maximum at the lowest 2015). Whether this means that alpine environments are elevation, or within the lower third of the elevation gradient, inherently resistant to invasion is, however, still unclear irrespective of the broad bioclimatic region. This pattern has (Kueffer et al. 2013; Pauchard et al. 2009). Increasing been observed in all biomes of the world in global recreational or agricultural demands on alpine ecosys- (Alexander et al. 2011; Seipel et al. 2012) and regional tems, combined with climate and other environmental studies from cold arctic systems (Lembrechts et al. 2014), changes, might increasingly expose alpine areas to temperate mountains in North America (Andersen et al. invasion. To foresee and forestall these changes, it is 2015; Pollnac et al. 2012), Europe (Becker et al. 2005; important to understand current patterns of non-native Marini et al. 2013; Medvecka´ et al. 2014;Pysˇek et al. 2011), plants in alpine areas. New Zealand (Tomasetto et al. 2013), South America Our aim in this article is to provide an overview of the (Pauchard and Alaback 2004) and China (Zhang et al. 2015), current status of plant invasions in mountain—and espe- Mediterranean mountains (Barros and Pickering 2014; cially alpine—ecosystems worldwide. We first review the Haider et al. 2010) and subtropical and tropical mountains patterns and processes of plant invasions along elevation (Jakobs et al. 2010; Khuroo et al. 2011; Paiaro et al. 2011). gradients in mountains that have emerged from the recent Patterns of non-native plant invasion along elevation literature. We then compile a checklist of non-native species gradients are driven by a combination of climatic constraints recorded specifically from alpine environments, including and human influences. Declining non-native species rich- published records and previously unpublished data, and ness with elevation has been explained by the introduction of analyse patterns in this global alpine non-native flora. We non-native species predominantly to low elevations, coupled review evidence for impacts that these species have in alpine with environmental filtering as species spread towards ecosystems, and consider hypotheses for why alpine areas higher elevation (Alexander et al. 2011). Consistent with have until now received few non-native species relative to this explanation, most non-native species found at high lowland ecosystems. Finally, we discuss possible future elevation have broad ecological ranges and are also present challenges that alpine ecosystems will face from plant at low elevation (Alexander et al. 2011; Haider et al. 2010; invasions, and suggest priority areas for future and on-going McDougall et al. 2011a). However, other studies suggest research. that richness of non-native species along elevation gradients 123 Alp Botany Fig. 1 Processes known to influence

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