The effects of rock climbing on cliff‐face vegetation

Clark, Peter W.; Hessl, Amy

doi:10.1111/avsc.12172

Cited by 40 publications

(87 citation statements)

References 26 publications

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“…Despite a lack of knowledge on rock climbing impacts, recent studies have reported disturbances to cliff vegetation from this increasingly popular activity (Clark & Hessl, ; Lorite et al., ). However, such disturbances to cliff plant communities remain to be assessed with specific consideration of the different rock adaptation strategies of species, together with the effects of microtopographic conditions of the rock surface.…”

Section: Introductionmentioning

confidence: 99%

“…microtopography) when examining the effects of rock climbing on vegetation (e.g. Clark & Hessl, ; Kuntz & Larson, 2006a); however, most studies have neglected this key aspect. Furthermore, it is also likely that species with differing life forms will respond differently to cliff structure and disturbance from rock climbing activity, with different levels of vulnerability.…”

Section: Introductionmentioning

confidence: 99%

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An innovative vegetation survey design in Mediterranean cliffs shows evidence of higher tolerance of specialized rock plants to rock climbing activity

March‐Salas

Moreno-Moya

Palomar

et al. 2018

Applied Vegetation Science

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Questions: Is rock climbing pressure, together with microtopographic conditions, disturbing cliff plant cover and composition? What are the climbing impacts on rock specialist and non-specialist species? Can a case-control approach, not previously implemented in cliff environments, offer additional value for actual and long-term ecological research?Location: Chulilla, Levante coast, Spain. Methods:We surveyed in situ nine rock climbing routes in order to examine differences in plant species richness and vegetation cover between unclimbed and climbed transects. To evaluate the effect of rock climbing on vegetation, we implemented a case-control methodology using the two zones immediately adjacent to common climbing routes as control points (i.e. unclimbed transects). Three quadrats of 3 m × 3 m were established at different cliff heights. All identified species were categorized as either specialized rock species or non-specialized rock species based on their habitat preferences from literature. Non-specialized rock species were further differentiated as either moderately associated with rocky environments or strict generalists. The rock climbing impact on each group of species was analysed using LMM. Results:Our results provide evidence of the effects of rock climbing on a Mediterranean cliff, which has received little attention so far. Significantly fewer generalist species were present on climbed compared to unclimbed transects, while specialized and moderately specialized rock species were not significantly affected by rock climbing intensity. Furthermore, while rock-specific and moderately specialized species could cope with microsite heterogeneity, areas with fewer cracks had significantly negative effects on generalist species. Conclusions:Moderate rock climbing activity on cliff environments might not reduce the presence of specialized rock-dwelling species; however, this activity inherently impacts the biodiversity of cliff ecosystems due to its large effect on generalist species. We recommend that future conservation studies account for the degree of species dependence on rocky habitats to better understand rock-climbing impacts in these singular ecosystems. According to our experience, the implementation of an

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

An innovative vegetation survey design in Mediterranean cliffs shows evidence of higher tolerance of specialized rock plants to rock climbing activity

March‐Salas

Moreno-Moya

Palomar

et al. 2018

Applied Vegetation Science

View full text Add to dashboard Cite

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“…America (Nuzzo, 1995(Nuzzo, , 1996Kelly and Larson, 1997;Camp and Knight, 1998;Farris, 1998;81 McMillan and Larson, 2002; Clark and Hessl, 2015). Damage includes a reduction of 82 vegetation cover, alterations in the composition of the plant community and local extinction of 83 species sensitive to disturbance and of specialists adapted to these extreme habitats.…”

Section: Introduction 49mentioning

confidence: 99%

Intensity-dependent impact of sport climbing on vascular plants and land snails on limestone cliffs

Schmera

Rusterholz

Baur

et al. 2018

Biological Conservation

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“…The dominant species had strong colonization capabilities under the extreme conditions prevailing at the HCS. The biological assemblages in such cliff environments have limited ecological stability; they readily lose community organization when perturbed by external agents (Clark and Hessl 2015). Tree species that regenerate on rocky cliffs, such as Ficus spp.…”

Section: Environmental Factors Affecting Tree Regenerationmentioning

confidence: 99%

Environmental Factors Influencing Tree Species Regeneration in Different Forest Stands Growing on a Limestone Hill in Phrae Province, Northern Thailand

Asanok¹,

Marod²

2016

Journal of Forest and Environmental Science

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Improved knowledge of the environmental factors affecting the natural regeneration of tree species in limestone forest is urgently required for species conservation. We examined the environmental factors and tree species characteristics that are important for colonization in diverse forest stands growing on a limestone hill in northern Thailand. Our analysis estimated the relative influence of forest structure and environmental factors on the regeneration traits of tree species. We established sixty-four 100-m 2 plots in four forest stands on the limestone hill. We determined the species composition of canopy trees, regenerating seedlings, and saplings in relation to the physical environment. The relationships between environmental variables and tree species abundance were assessed by canonical correspondence analysis (CCA), and we used generalized linear mixed models to examine data on seedling/sapling abundances. The CCA ordination indicated that the abundance of tree species within the mixed deciduous forest was closely related to soil depth. The abundances of tree species growing within the sink-hole and hill-slope stands were positively related to the extent of rocky outcropping; light and soil moisture positively influenced the abundance of tree species in the hill-cliff stand. Physical factors had a greater effect on tree regeneration than did factors related to forest structure.Tree species, such as Ficus macleilandii, Dracaena cochinchinensis, and Phyllanthus mirabilis within the hill-cliff or sink-hole stand, colonized well on large rocky outcroppings that were well illuminated and had soft soils. These species regenerated well under conditions prevailing on the limestone hill. The colonization of several species in other stands was negatively influenced by environmental conditions at these sites. We found that natural regeneration of tree species on the limestone hill was difficult because of the prevailing combination of physical and biological factors. The influence of these factors was species dependent, and the magnitude of effects varied across forest stands.

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The effects of rock climbing on cliff‐face vegetation

Cited by 40 publications

References 26 publications

An innovative vegetation survey design in Mediterranean cliffs shows evidence of higher tolerance of specialized rock plants to rock climbing activity

An innovative vegetation survey design in Mediterranean cliffs shows evidence of higher tolerance of specialized rock plants to rock climbing activity

Intensity-dependent impact of sport climbing on vascular plants and land snails on limestone cliffs

Environmental Factors Influencing Tree Species Regeneration in Different Forest Stands Growing on a Limestone Hill in Phrae Province, Northern Thailand

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