Encroachment by alien species is the second greatest threat to biodiversity worldwide. As South Africa's Cape Floristic Region has a botanical endemism of nearly 70%, conservation efforts are a high priority. Estimates suggest that alien species cost the country over R6.5 billion per year. Despite significant research on alien species dispersal, the role of tourists as seed dispersers requires further exploration. To investigate the potential role tourists play in introducing alien seeds into protected areas, long-bristle brushes were used to scrape seeds off the shoes of hikers, dog walkers and cyclists, as well as the wheels of mountain bikes and dogs themselves, upon entering the Silvermine Nature Reserve section of the Table Mountain National Park in the Western Cape province, South Africa. In addition, a vegetation survey was conducted. This comprised 18 transects at various distances from the recreational paths in the park, and used a prioritisation ranking system that identified the alien species of greatest concern. It was concluded that the greatest number of alien plant species could be found along dog paths, in comparison to the hiking trails and cycling trails. This corresponded to the findings that dog walkers had the highest incidence of seeds on their shoes, suggesting that tourists were possibly dispersing seeds from their gardens. Alien species significantly covered more of the vegetation transects closer to the trails than they did in transects further into the matrix. Because more alien species were present in areas susceptible to human disturbance, the data suggest that tourists can act as vectors for alien seed dispersal. These findings emphasise the need for active tourism management in line with the South African National Parks Biodiversity Monitoring Programme in order to prevent the introduction and spread of alien species into South Africa's protected areas.
South Africa's Cape Floristic Region is a world-renowned hotspot for botanical biodiversity, home to some 9000 plant species, 70% of which are endemic (Forest
An alien species can be defined as a non-native species, the introduction of which has the potential to cause health-related, economic or environmental damage (Swearingen
Given that South Africa is home to 3 of the world's 25 biodiversity hotspots, managing alien species presents a particularly daunting task due to the already established vulnerability of these areas (Myers
One of the challenges of containment and eradication is that, while managers may successfully clear above-ground individuals from a plot, the alien seed bank can persist in the soil for many decades, encouraging reinvasion (Wilson
The introduction of any new alien species into a protected area is against the mandate of South African National Parks (SANParks), even when the potential for a particular species to become invasive is unknown (Foxcroft
Tourists are often cited as playing a role in the dispersal of seeds through activities such as hiking and mountain biking. However, there is only a small body of evidence to support these claims. To date, only a single study on seed dispersal by tourists has been conducted in the entire continent of Africa (Pickering & Mount
Circumstantial evidence suggests that alien species are found most commonly near paths in protected areas, and a correlation exists that links an increased visitor presence to a greater number of alien species in protected areas in Southern Africa (Usher
Despite the dearth in research on the subject, it is likely that tourists do have a profound impact on the dispersal of alien seeds. Hikers, for instance, have been shown to carry seeds on their clothing for an average of 13 km, and much further if their travels include a car, aeroplane, train or boat (Ansong & Pickering
Tourism and tourism-related activities comprise upwards of 80% of SANParks’ annual revenue, distinguishing it as one of the most successful protected area networks in the world (Biggs
One of the goals of SANParks’ strategic adaptive management process is to find a balance between the goals of increased ecotourism and the needs of conservation (Biggs
The aim of this study is to investigate the role that three categories of tourists – hikers, dog walkers and cyclists – play in alien seed dispersal in a fynbos protected area. By sampling the shoes of visitors, dogs and bicycles for seeds, the role that visitors play in introducing seeds into a protected area is assessed, as well as the types of tourists that act as vectors for seed dispersal. At the same time, vegetation transects at different distances from trails used by these tourists illustrate the distribution of established alien species within the protected area. Since roads have been shown to act as propagules for alien species in protected areas globally (Pauchard & Alaback
The Cape Peninsula has a Mediterranean climate, with an average winter rainfall of approximately 2000 mm per year (Trinder-Smith
The Table Mountain National Park covers 57 km2 and offers over 650 km of hiking trails (Clarke, Mackensie & Merry
Location study area within the Silvermine section of the Table Mountain National Park, Western Cape province, South Africa. The yellow, blue and red rings represent the vegetation transects conducted along the dog-walking, hiking and cycling trails respectively.
The stretches of the dog-walking and cycling paths investigated in this study were wider than the hiking path. Furthermore, the hiking path utilised in this study was one of the most commonly trafficked trails in the park, which also serves as the start to many other hiking routes.
Data were collected for 3 days in early February 2015 – the end of the dry season – during peak visiting hours (between 08:00 and 11:00). Whilst it was partly cloudy during the first 2 days of data collection, it rained heavily on the third day, resulting in a decrease in the number of participants and overall park traffic on that day. Survey stations were set up at the trailhead of three different paths in Silvermine: a hiking path (18°40's, 34°08’E), a cycling path (18°41's, 34°08’E) and a dog-walking path (18°40’ S, 34°08’ E).
Tourists entering the park were classified into three categories: hikers, dog walkers and cyclists. Each participant was asked a series of questions about their activities (see Appendix 1). The data were further assessed to determine tourists’ role in seed dispersal, and the introduction and potential source of alien vegetation into protected areas.
At the three survey stations, prior to entering the park, each participant stepped into a 40 cm × 30 cm plastic container. Here, the soles of shoes were swept, using a long-bristle brush to collect any seeds the individual may have been carrying. The debris was collected into individual plastic bags for later classification. This same procedure was followed to brush off the entirety of the front tyre of each bicycle that was surveyed. The front legs and flank of each dog surveyed was brushed using a dog brush and all the debris collected.
Each debris sample was then examined under an Olympus CH light microscope (Model LSK [20W], Olympus Corporation of America, New Hyde Park, NY, USA). All of the seeds in these debris samples were counted and categorised by morph. An attempt was made to germinate the seeds in order to identify the species from which each morph had come. However, this was unsuccessful, preventing seed identification beyond the original morph categorisation.
In order to examine the occurrence of alien plants in protected areas, eighteen 10-m transects were set up along recreational trails in Silvermine. Alien species were defined as those that are non-native to South Africa. To compare the potential for different human activities at dispersing alien seeds, three paths were selected: a dog-walking path, a hiking path and a cycling path.
Six transects were set up in two groups on each trail. Using a measuring tape, the first set of 10-m transects was set up 5 m from the trailhead; the second group of transects, 100 m from the trailhead (
Experimental design of vegetation transect survey conducted in the Silvermine section of the Table Mountain National Park in order to investigate the distribution of invasive plants. Three 1-m2 quadrats, each represented by a grey square, were sampled along a 10-m line transect. This technique was repeated at 5 m (a, b and c) and 100 m (A, B and C) from the trailhead. At both of these locations, transects were established at the edge of the trail (1), 1 m into the matrix (2) and 10 m into the matrix (3).
At each vegetation transect point, a 1 m2 quadrat was used to examine the vegetation cover every 5 m along each line transect, for a total of three plots. The percentage of cover for all plant species within the quadrats was estimated by identifying the known species to at least genus level and collecting samples that were later identified at a laboratory. To approximate the relative abundances of each plant, the estimated proportion of the plot covered by each particular species was done visually.
To assess the immediacy and severity of the risks posed by the identified alien species, the prioritisation system was used to score each species and to rank them accordingly (Robertson
Each category score was first standardised by dividing it by the potential maximum (Robertson
To determine the proportion of seeds found per vector, and to account for sampling effort, the number of seeds collected per vector was divided by the sample size of each vector. A PERMANOVA analysis was conducted to analyse the difference between percentage of cover of alien plant species between trail types, distance from the trailhead, and distance into the matrix (PRIMER software version 6.1.5, Clarke & Gorley
In order to examine their potential as vectors for seed dispersal, a survey and debris collection was conducted among 68 participants entering Silvermine Nature Reserve. Of these 68 participants, 10 were cyclists, 12 were dog walkers (with 19 dogs in total) and 46 were hikers. All of the cyclists and dog walkers lived in the Cape Town area. Of the 46 hikers, 16 were either non-local South Africans, living in Johannesburg or Port Elizabeth, or international visitors from Scotland, England or Germany.
Fifty of the sampled visitors were not carrying any seeds that could be detected. From the remaining 18 participants, a total of 41 seeds and 17 unique seed morphs were isolated (
The total number and morph of seeds collected from tourists (cyclists, dog walkers and hikers) entering the Silvermine section of the Table Mountain National Park, and their potential source of origin.
Last place where shoes were worn/dogs walked | Total number of seeds per site | Mode of dispersal | Seed morph and number of seeds (in parenthesis) | Total number of seeds per vector |
---|---|---|---|---|
Silvermine | 10 | MTB shoes | 1(1), 2(1) | 2 |
Dog | 3(1), 4(1) | 2 | ||
Dog walker | 6(1), 8(1) | 2 | ||
Hiker | 12(2), 13(1), 3(1) | 4 | ||
Tokai | 3 | Dog | 5(1) | 1 |
Dog walker | 9(1), 10(1) | 2 | ||
Kirstenbosch | 2 | Hiker | 14(1), 15(1) | 2 |
Lion's Head | 1 | Hiker | 17(1) | 1 |
Noordhoek | 1 | Dog walker | 7(1) | 1 |
Cape Point | 1 | Hiker | 3(1) | 1 |
Masiphumelele | 9 | Hiker | 4(9) | 9 |
Constantia Nek | 4 | Dog walker | 6(4) | 4 |
London | 9 | Hiker | 11(9) | 9 |
Lady Slipper, Port Elizabeth | 1 | Hiker | 16(1) | 1 |
MTB, mountain bike.
Of the participants who were carrying seeds, 16 were from the Cape Town area, one was visiting from England (9 seeds) and one from Germany (1 seed). The English hiker carrying 9 seeds had last worn his shoes in London, and the German hiker had last worn his shoes at Lion's Head, a different part of the Table Mountain National Park. No seeds were found on bicycle tyres, but seeds of two distinct morphs were found on a single cyclist's shoes (
When sampling effort and population sample size were taken into account, it was discovered that a larger proportion (75%) (9 out of 12 that were sampled) of dog walkers carried seeds than any other vector, comprising 42% of seed morphs (
The proportion of seeds collected from each vector, calculated from the number of seeds divided by vector sample size, to account for sampling effort and population sample size. The black line represents the number of different seed morphs found per vector as a proportion of total seed morphs found.
A total of 54 plots in 18 line transects along the three selected trails in Silvermine were surveyed, and a total of seven invasive plant species were documented (
The percentage of cover of plant species identified to family or genus level, averaged from three 1-metre2 quadrats used in the vegetation transects along the various trails in the Silvermine section of the Table Mountain National Park.
Metres from trailhead | Metres away from trail edge | Trail type | ||
---|---|---|---|---|
Hiking | Dog-walking | Cycling | ||
5 m from trailhead | At trail edge (0 m) | 13% Dryopteridaceae |
77% |
77% Aizoaceae A |
1 m away from trail edge | 97% Dryopteridaceae |
8% |
63% Aizoaceae B |
|
10 m away from trail edge | 7% |
0.3% Asteraceae A† | 3% Aizoaceae A |
|
100 m from trailhead | At trail edge (0 m) | 10% Aizoaceae A |
2% Aizoaceae A |
2% |
1 m away from trail edge | 10% Ericaceae A |
3% Aizoaceae A |
15% Ericaceae A |
|
10 m away from trail edge | 28% Ericaeae A |
37% Dryopteridaceae |
25% Ericaceae A |
A, B, C, D, E, different species belonging to the family group.
†, alien species identified to species level.
The PERMANOVA analysis demonstrated a significant increase in the percentage of cover of alien plant species in the plots located at the trail edge compared to further into the vegetation matrix (pseudo-
The average proportional cover of alien plant species along three different paths in the Silvermine section of the Table Mountain National Park, taken at 0 m, 1 m and 10 m into the matrix and measured at 5 m and 100 m from the trailhead.
The highest ranking species with regards to the threatening status of alien species identified in this study obtained a score of 2.74 (giant cane,
The prioritisation scores of alien plants species surveyed on the trails in the Silvermine section of the Table Mountain National Park. The scores were calculated using the alien species prioritisation system.
Rank | Alien plant species | Prioritisation score | Confidence score | Prioritisation x confidence |
---|---|---|---|---|
1 | 2.744 | 4.067 | 11.161 | |
2 | 2.222 | 3.933 | 9.527 | |
3 | 2.539 | 3.733 | 9.479 | |
4 | 1.567 | 2.500 | 3.917 |
This study demonstrates that park visitors, in the form of dog walkers, hikers and cyclists, act as seed dispersers in protected areas, corroborating existing research. One study found that humans working in a series of meadows carried seeds from this location on their clothing for an average distance of 13 km (Auffret & Cousins
The finding that the areas closest to human activity (i.e. near the edge of the trails) are also the areas that are most susceptible to invasion from non-native plants suggests a path-user-mediated mechanism for alien seed dispersal. This evidence is strengthened by a correlation between the relative importance of different potential vectors of seed dispersal and the percentage of cover of alien species on different paths. For instance, dog walkers had the highest incidence of seeds on their shoes; correspondingly, the dog-walking path had the highest percentage of cover of alien plants. Likewise, cyclists carried virtually no seeds, and the cycling trail had the lowest percentage of cover of alien species.
The difference in tendency for different categories of tourists for carrying seeds into the park, therefore, suggests a possible explanation for the differences in the percentage of cover between paths. Whilst the sample sizes used in this study were too small to establish an unambiguous relationship between seed incidence on trail users and the percentage of cover of alien plants along these trails, it is an observation worthy of further investigation. To confirm such a relationship, future studies need to identify the species of collected seeds, particularly since the attempts in this study to propagate and identify seeds were unsuccessful.
Even though the non-native species identified along the sides of the trails are all classified as ‘alien’, they all play different roles in invading or threatening the environment. In this study, the alien cane species
Significantly, a number of the invasive species that were found along the paths’ edge are used in Southern Africa for decorative purposes, including
Together, these findings suggest that tourists are possibly dispersing seeds from their gardens, a source of alien species now recognised as one of the most challenging to combat (Mack 2003; Mack & Lonsdale
Priorities for future studies should include more comprehensive seed collection techniques. Through the course of this study, it was observed that more seeds appeared to become caught on the socks of researchers rather than on the shoes. This observation suggests that clothing other than shoes could be important mechanisms for dispersal.
The socks of participants were not a priority in this study because socks are typically washed between each use. It was therefore less likely that more seeds could be brought into Silvermine on socks than on shoes, which was the primary focus of this study. Socks may play a more important role in dispersing seeds within protected areas than in introducing seeds into those protected areas. In addition, car tyres represent a potential vector for invasive seeds that remains unexamined in the context of South African protected areas. Future studies should take this into account when considering the method of seed collection – it is suggested that the clothes and vehicles of participants are sampled in addition to shoes.
To limit the spread of non-native plant species into pristine ecosystems, protected area managers must take an active role in monitoring tourists in accordance with the SANParks Biodiversity Management Programme for Invasive Alien Species (McGeoch
Tourism is the main source of revenue for South African protected areas, and a major goal for SANParks is to encourage ecotourism that does not compromise the agency's commitment to conservation (Biggs
Some research on the means of minimising tourist-mediated seed dispersal has already been conducted in other countries. A study by Ansong and Pickering (2
Over half of the individuals surveyed by Ansong and Pickering (2
Information posters at trail heads about the dangers of alien species and the correct method for the removal of seeds could be one easy method of raising awareness and decreasing the incidence of unintentional dispersal. Shoe-sweeping stations in trailhead parking lots could similarly provide a cost-effective and convenient method for tourists to remove seeds from their shoes. The implementation of such measures could help to prevent the further spread of non-native plants species into Silvermine Nature Reserve, and elsewhere in South Africa's national parks.
This research adds to the small body of existing evidence concerning the spread of invasive seeds by tourists. Tourist surveys and vegetation transects conducted in the Silvermine Nature Reserve section of the Table Mountain National Park demonstrate a clear link between tourist disturbance – measured as distance from the path into the matrix – and percentage of cover of invasive plants. At the same time, the path used by dog walkers, who were found to have the highest load of seeds, have the highest overall percentage of cover of invasive species. These results demonstrate that tourists can act as vectors for invasive alien species dispersal, highlighting the need for active tourism management in line with SANParks’ Biodiversity Monitoring Programme.
The authors would like to thank Dr Laurence Kruger for his assistance in plant identification. They would also like to thank the Organisation for Tropical Studies and SANParks for their roles in facilitating this project.
The authors declare that they have no financial or personal relationships, which may have inappropriately influenced them in writing this article.
K.M. (Organisation for Tropical Studies) was the project leader and responsible for project design. E.H.B. (Wheaton College), L.E.L. (Washington University), C.M.L.M. (Grinnell College), S.M.R. (Yale University) and E.M.V. (Bowdoin College) were responsible or conducting the fieldwork and the analyses of data.
1. Where are you from?
2. What are you doing?
Cycling
Walking/hiking/dog-walking
3. Where did you last:
Wear your shoes?
Ride your bike?
Walk your dog?