Plant invasion at landscape and local scales along roadways in the mountainous region of the Greater Yellowstone Ecosystem

Pollnac, Fredric W.; Seipel, Tim; Repath, Charles; Rew, Lisa J.

doi:10.1007/s10530-012-0188-y

Cited by 73 publications

(78 citation statements)

References 50 publications

(52 reference statements)

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Instead, the high variation in exotic species composition between years indicates that not all introductions are successful, while the increase in exotic richness over time shows that colonization events outnumber extinction events. Although traffic density did not increase during the sampling period, propagules are still easily moved across large distances by vehicles, road maintenance vehicles, or even cattle (Richardson et al 2000;Von der Lippe and Kowarik 2007;Pollnac et al 2012). Since the study area is a major tourist attraction as well as an important international trade route, vehicle movement is a likely propagule dispersal vector for introducing new species from distant source populations.…”

Section: Propagule Pressurementioning

confidence: 94%

Annual monitoring reveals rapid upward movement of exotic plants in a montane ecosystem

2015

View full text Add to dashboard Cite

There is increasing evidence that invasive species are threating montane ecosystems globally.However, trends in species distribution are difficult to observe directly due to a lack of data with suitable spatio-temporal resolution. Here, we aimed to detect spatio-temporal trends in exotic 1 Kalwij, J.M. et al.plants in a montane ecosystem, and to determine which drivers had a role affecting these trends.Each year, for a period of seven years, we recorded the upper elevational range limit of exotic plant species in road verges along an elevational gradient of 1,500-2,874 m a.s.l. in southern Africa. We fitted repeated-measures ANOVA models to test if upper elevational range limits changed over time. Generalized least squares models showed that exotic richness of annuals increased by 3.9 species per year. Also, the upper elevational range limits of established exotics ascended by 24.5 m/y for annuals (N = 17 species), and by 9.7 m/y for perennials (N = 26).These upward trends were too rapid to be explained by slow-acting drivers such as climatic

show abstract

Section: Propagule Pressurementioning

confidence: 94%

Annual monitoring reveals rapid upward movement of exotic plants in a montane ecosystem

2015

View full text Add to dashboard Cite

show abstract

“…These factors, reported in the literature, could be, e.g. higher levels of disturbance (Hansen & Clevenger, 2005;Pollnac et al, 2012), seed traits and certain life-history traits like seed production (Westermann et al, 2011), similarity of abiotic conditions such as type of soil and slope aspect (Gelbard & Harrison, 2003), better light (Trombulak & Frissell, 2000;Seiler, 2001;Flory & Clay, 2006) and wind conditions (Seiler, 2001;.…”

Section: Introductionmentioning

confidence: 99%

The role of railway lines in the distribution of alien plant species in the territory of Daugavpils City (Latvia)

Rutkovska¹,

Pučka²,

Evarts-Bunders³

et al. 2013

Estonian J. Ecol.

View full text Add to dashboard Cite

The study was performed based on an inventory of alien flora in Daugavpils City. During the field studies all the alien species were recorded applying a regular grid consisting of 344 quadrats of 500 m × 500 m. Data of the 84 quadrats that cover all railway lines in the city were analysed to identify relationships between the distribution of alien plants and the location of railway lines. First the obtained data were compared with the first flora inventory in the city, which was conducted from 1975 to 1983. Comparison of data of the previous inventory and those obtained by us showed that the number of the recorded alien taxa along railways differed: 95 and 38 taxa, respectively. Secondly, some factors affecting the distribution of alien species along railway lines were analysed. Obtained results indicate that the highest concentrations of alien plants occurred in areas where railways are crossing or are located close to the adjacent cultivated and abandoned allotments, areas of private houses or cemeteries. Railway management measures such as topsoil disturbance and application of herbicides were found to be important human-induced factors affecting the distribution of annual alien taxa. The results of geospatial and statistical analyses demonstrated that the geographical distribution of alien species in general did not coincide with railway lines. However, the distribution of three species, i.e. Dracocephalum thymiflorum, Erysimum durum, and Lappula squarrosa, was associated only with railway lines, demonstrating the importance of railway infrastructure elements for the expansion of these species.

show abstract

“…Patterns of invasion result from a combination of species' traits, propagule pressure and variation in the local environment and surrounding landscape (Eschtruth and Battles 2011;Kumar et al 2006;Lonsdale 1999). A common research finding is that invasive plant species abundance increases with human-related disturbance and movement of propagules along roads, trails and water ways (Hodkinson and Thompson 1997;Pollnac et al 2012;Von der Lippe and Kowarik 2007). Establishment rates are lower in intact natural areas (Lonsdale 1999) where disturbance and invasive propagule pressure are generally low (Eschtruth and Battles 2009b), but shade-tolerant invasives can threaten protected natural areas and have detrimental long-term impacts on intact forests (Martin et al 2009).…”

Section: Introductionmentioning

confidence: 99%

Predicting Microstegium vimineum invasion in natural plant communities of the southern Blue Ridge Mountains, USA

et al. 2012

View full text Add to dashboard Cite

Shade-tolerant non-native invasive plant species may make deep incursions into natural plant communities, but detecting such species is challenging because occurrences are often sparse. We developed Bayesian models of the distribution of Microstegium vimineum in natural plant communities of the southern Blue Ridge Mountains, USA to address three objectives: (1) to assess local and landscape factors that influence the probability of presence of M. vimineum; (2) to quantify the spatial covariance error structure in occurrence that was not accounted for by the environmental variables; and (3) to synthesize our results with previous findings to make inference on the spatial attributes of the invasion process. Natural plant communities surrounded by areas with high human activity and low forest cover were at highest risk of M. vimineum invasion. The probability of M. vimineum presence also increased with increasing native species richness and soil pH, and decreasing basal area of ericaceous shrubs. After accounting for environmental covariates, evaluation of the spatial covariance error structure revealed that M. vimineum is invading the landscape by a hierarchical process. Infrequent longdistance dispersal events result in new nascent subpopulations that then spread via intermediate-and short-distance dispersal, resulting in 3-km spatial aggregation pattern of sub-populations. Containment or minimisation of its impact on native plant communities will be contingent on understanding how M. vimineum can be prevented from colonizing new suitable habitats. The hierarchical invasion process proposed here provides a framework to organise and focus research and management efforts.

show abstract

Plant invasion at landscape and local scales along roadways in the mountainous region of the Greater Yellowstone Ecosystem

Cited by 73 publications

References 50 publications

Annual monitoring reveals rapid upward movement of exotic plants in a montane ecosystem

Annual monitoring reveals rapid upward movement of exotic plants in a montane ecosystem

The role of railway lines in the distribution of alien plant species in the territory of Daugavpils City (Latvia)

Predicting Microstegium vimineum invasion in natural plant communities of the southern Blue Ridge Mountains, USA

Contact Info

Product

Resources

About