Plant species composition shifts in the Tatra Mts as a response to environmental change: a resurvey study after 90 years

Patryk Czortek; Jutta Kapfer; Anna Delimat; Amy Elizabeth Eycott; John-Arvid Grytnes; Anna Orczewska; Halina Ratyńska; Antoni Zięba; Bogdan Jaroszewicz

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Plant species composition shifts in the Tatra Mts as a response to environmental change: a resurvey study after 90 years

Patryk Czortek ^[1] ; Jutta Kapfer ^[2] ; Anna Delimat ^[3] ; Amy Elizabeth Eycott ^[4] ; John-Arvid Grytnes ^[4] ; Anna Orczewska ^[5] ; Halina Ratyńska ^[6] ; Antoni Zięba ^[7] ; Bogdan Jaroszewicz ^[1]
1. [1] University of Warsaw
  
  University of Warsaw
  
  Warszawa, Polonia
2. [2] Norwegian Institute of Bioeconomy Research
  
  Norwegian Institute of Bioeconomy Research
  
  Noruega
3. [3] Władysław Szafer Institute of Botany
  
  Władysław Szafer Institute of Botany
  
  Kraków, Polonia
4. [4] University of Bergen
  
  University of Bergen
  
  Noruega
5. [5] University of Silesia
  
  University of Silesia
  
  Katowice, Polonia
6. [6] Kazimierz Wielki University in Bydgoszcz
  
  Kazimierz Wielki University in Bydgoszcz
  
  Bydgoszcz, Polonia
7. [7] Tatra National Park, Zakopane, Poland
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Localización: Folia geobotánica: A journal of plant ecology and systematics, ISSN-e 1874-9348, ISSN 1211-9520, Vol. 53, Nº 3, 2018 (Ejemplar dedicado a: The Ecology and evolution of the Carpathian flora), págs. 333-348
Idioma: inglés
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Resumen
- Mountain vegetation is often considered highly sensitive to climate and land-use changes due to steep environmental gradients determining local plant species composition. In this study we present plant species compositional shifts in the Tatra Mts over the past 90 years and discuss the potential drivers of the changes observed. Using historical vegetation studies of the region from 1927, we resurveyed 76 vegetation plots, recording the vascular flora of each plot using the same methodology as in the original survey. We used an indirect method to quantify plant species compositional shifts and to indicate which environmental gradients could be responsible for these shifts: by calculating shifts in estimated species optima as reflected in shifts in the ecological indicator values of co-occurring species. To find shifts in species composition, focusing on each vegetation type separately, we used ordination (DCA). The species optimum changed significantly for at least one of the tested environmental gradients for 26 of the 95 plant species tested; most of these species changed in terms of the moisture indicator value. We found that the strongest shifts in species composition were in mylonite grassland, snowbed and hygrophilous tall herb communities. Changes in precipitation and increase in temperature were found to most likely drive compositional shifts in vegetation resurveyed. It is likely that the combined effect of climate change and cessation of sheep grazing has driven a species composition shift in granite grasslands communities.