Monitoring of vegetation response to elk population and habitat management in Rocky Mountain National Park, 2008–14

Zeigenfuss, Linda C.; Johnson, Therese L.

doi:10.3133/ofr20151216

Cited by 1 publication

(1 citation statement)

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“…Although very few elk were observed during the original sampling, the elk population in the winter range of the park was estimated to be between 500 and 700 individuals in 1972/1973 compared to 200 to 300 individuals in 2012/2013, with several spikes of more than 1,000 individuals between the 1980s and early 2000s (Ketz, Johnson, Monello, & Hobbs, ; Lubow, Singer, Johnson, & Bowden, ). Between 2002 and 2012, a shift in the winter range was observed with fewer elk wintering inside the park (Johnson, Zeigenfuss, Hobbs, & Mack, ), and successful management programs have been put in place to protect key vegetation communities (Zeigenfuss & Johnson, ). The impact of these dynamics on species distribution remains subject to research and future resampling of long‐term plots will be required.…”

Section: Discussionmentioning

confidence: 99%

Long‐term understory vegetation dynamics of mixed aspen forests in Rocky Mountain National Park, USA

Bretfeld

Franklin

Peet

2019

J Vegetation Science

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Aims Forests worldwide are subjected to increasing pressures from altered disturbance regimes, climate change, and their interactions. We resampled previously established vegetation plots to directly assess long‐term vegetation dynamics in the forest understory of mixed aspen forests, including species diversity, distribution, and composition. Study site Rocky Mountain National Park, Colorado, USA. Methods We resampled 89 vegetation plots that contained aspen (Populus tremuloides) in the original sampling in 1972/1973 in Rocky Mountain National Park to assess changes in understory diversity, non‐native species abundance, community composition, and elevation ranges. Analyses were performed at three spatial scales: landscape (all plots), ecotone (montane vs. subalpine), and seven forest “series” according to the classification presented in the original publication. Results Understory vegetation diversity did not significantly change at the landscape scale but increased in forests of the mesic montane series. Changes in diversity varied with elevation, with predominantly increases at lower elevations and decreases at higher elevations. Furthermore, species turnover and upward shifts were more pronounced at lower elevations. The proportion of plots containing non‐native species was similar between data sets, with 48% in 2012/2013 and 46% in 1972/1973. However, the number of non‐native species per plot increased considerably, especially in Pinus contorta forests. Significant shifts in understory community composition occurred in mesic montane forests and Pinus flexilis forests. Generally, higher floristic overlap was evident between forest types, indicating homogenization between 1972/1973 and 2012/2013 understory plant communities. Conclusions Although our results indicate overall little change in understory communities between 1972/1973 and 2012/2013 in Rocky Mountain National Park, they also suggest that observed changes differ by elevation, possibly due to the interactions between elevation and changes in local climate. Our study underscores the importance of analyzing long‐term vegetation dynamics at different spatial scales and provides data from direct observations to improve the predictive power of vegetation models.

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Section: Discussionmentioning

confidence: 99%