Will climate change drive alien invasive plants into areas of high protection value? An improved model-based regional assessment to prioritise the management of invasions

“…The results of our study also indicate that, in order to be able to spread, IPS require appropriate temperatures with pronounced precipitation. Some other studies have also shown that climate change can lead to the creation of suitable habitats for the invasion of IPS in PAs (Pickering et al, 2011;Vicente et al, 2013;Thalmann et al, 2015). The connectivity of these suitable habitats can then provide important corridors for IPS movements (Vicente et al, 2013).…”

“…This implies that IPS expand and establish under the same environmental conditions in native and invasive ranges in the above-mentioned situations (Petitpierre et al, 2012;Early and Sax, 2014;Wan et al, 2016a, b;Wang et al, 2017). Hence, IPS can invade ecologically fragile protected areas (PAs) with environmental conditions similar to those of the native and invaded environments of these species Vicente et al, 2013;Hulme et al, 2014). Protected areas often contain diverse fauna and flora and unusual geological features; they therefore play a crucial role in biodiversity conservation .…”

“…The connectivity of PAs, e.g. through corridors, can even offer additional routes for the spread of IPS (Vicente et al, 2013;Donaldson et al, 2014). Therefore, it is essential to evaluate whether climate change affects the movement of IPS through PAs and whether PAs can act as barriers to the invasion of non-native species.…”

“…Species distribution modelling (SDM) is widely used to predict suitable habitats of plant species based on niche conservatism on the global scale; it can also be used to analyse the complex relationships between IPS and PAs (Václavík and Meentemeyer, 2009;Petitpierre et al, 2012;Vicente et al, 2013;Kolanowska, 2014;McConnachie et al, 2015). Species distribution modelling coupled with geographic information systems (GIS) can be applied to generate spatially explicit models of the potential of IPS to invade PAs and of the invasion pathways under climate change (Thuiller et al, 2005;Vicente et al, 2013;Donaldson et al, 2014).…”

“…Species distribution modelling coupled with geographic information systems (GIS) can be applied to generate spatially explicit models of the potential of IPS to invade PAs and of the invasion pathways under climate change (Thuiller et al, 2005;Vicente et al, 2013;Donaldson et al, 2014). Recent studies have shown that IPS can invade PAs under climate change at the regional scale (Vicente et al, 2013;Thalmann et al, 2015).…”

Modelling plant invasion pathways in protected areas under climate change: implication for invasion management

“…The results of our study also indicate that, in order to be able to spread, IPS require appropriate temperatures with pronounced precipitation. Some other studies have also shown that climate change can lead to the creation of suitable habitats for the invasion of IPS in PAs (Pickering et al, 2011;Vicente et al, 2013;Thalmann et al, 2015). The connectivity of these suitable habitats can then provide important corridors for IPS movements (Vicente et al, 2013).…”

“…This implies that IPS expand and establish under the same environmental conditions in native and invasive ranges in the above-mentioned situations (Petitpierre et al, 2012;Early and Sax, 2014;Wan et al, 2016a, b;Wang et al, 2017). Hence, IPS can invade ecologically fragile protected areas (PAs) with environmental conditions similar to those of the native and invaded environments of these species Vicente et al, 2013;Hulme et al, 2014). Protected areas often contain diverse fauna and flora and unusual geological features; they therefore play a crucial role in biodiversity conservation .…”

“…The connectivity of PAs, e.g. through corridors, can even offer additional routes for the spread of IPS (Vicente et al, 2013;Donaldson et al, 2014). Therefore, it is essential to evaluate whether climate change affects the movement of IPS through PAs and whether PAs can act as barriers to the invasion of non-native species.…”

“…Species distribution modelling (SDM) is widely used to predict suitable habitats of plant species based on niche conservatism on the global scale; it can also be used to analyse the complex relationships between IPS and PAs (Václavík and Meentemeyer, 2009;Petitpierre et al, 2012;Vicente et al, 2013;Kolanowska, 2014;McConnachie et al, 2015). Species distribution modelling coupled with geographic information systems (GIS) can be applied to generate spatially explicit models of the potential of IPS to invade PAs and of the invasion pathways under climate change (Thuiller et al, 2005;Vicente et al, 2013;Donaldson et al, 2014).…”

“…Species distribution modelling coupled with geographic information systems (GIS) can be applied to generate spatially explicit models of the potential of IPS to invade PAs and of the invasion pathways under climate change (Thuiller et al, 2005;Vicente et al, 2013;Donaldson et al, 2014). Recent studies have shown that IPS can invade PAs under climate change at the regional scale (Vicente et al, 2013;Thalmann et al, 2015).…”

Modelling plant invasion pathways in protected areas under climate change: implication for invasion management

Elevated CO₂ affects the rhizosphere microbial community and the growth of two invader plant species differently in semiarid Mediterranean soils

Plant Invasions in Mountains