Vegetation type and grazing intensity jointly shape grazing effects on grassland biodiversity

Vegetation type and grazing intensity jointly shape grazing effects on grassland biodiversity

In the Palaearctic steppe zone, overgrazing was identified as one of the key drivers of declining grassland biodiversity, which underlines the necessity of the functional evaluation of increased grazing pressure on grassland vegetation. We tested the following hypotheses: (a) The effect of grazing i...

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Veröffentlicht in:Ecology and evolution 2018-10, Vol.8 (20), p.10326-10335
Hauptverfasser: Török, Péter, Penksza, Károly, Tóth, Edina, Kelemen, András, Sonkoly, Judit, Tóthmérész, Béla
Format: Artikel
Sprache:eng
Schlagworte:
Biodiversity
Communities
Divergence
Dry matter
functional diversity
Grasslands
Grazing
Grazing intensity
Herbivores
Leaf area
leaf traits
Loess
Original Research
overgrazing
plant traits
prairie
Selectivity
Shape effects
Species diversity
Species richness
steppe
Steppes
Vegetation
Vegetation patterns
Vegetation type
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container_issue 20
container_start_page 10326
container_title Ecology and evolution
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creator Török, Péter
Penksza, Károly
Tóth, Edina
Kelemen, András
Sonkoly, Judit
Tóthmérész, Béla
description In the Palaearctic steppe zone, overgrazing was identified as one of the key drivers of declining grassland biodiversity, which underlines the necessity of the functional evaluation of increased grazing pressure on grassland vegetation. We tested the following hypotheses: (a) The effect of grazing intensity on species and functional diversity is strongly dependent on grassland type. (b) The magnitude of diet selectivity of grazers decreases with increasing grazing intensity. (c) Increasing grazing intensity increases evenness and functional evenness of the subjected grasslands. We analyzed vegetation patterns in four types of grasslands (Dry alkali short‐grass steppes, Dry loess steppes, Non‐alkali wet and Alkali wet grasslands) along an intensity gradient of beef cattle grazing at 73 sites in Hungary. Species richness, Shannon diversity, evenness, and four leaf traits were analyzed. We calculated community‐weighted means for each single trait, and multi‐trait functional richness, functional evenness, and divergence for all leaf traits. All species and functional diversity metrics were significantly affected by the grassland type, except leaf dry matter content. The effect of interaction between grazing intensity and grassland type was also significant for functional richness, functional evenness, community‐weighted means of leaf area, and for species richness and evenness. An upward trend of specific leaf area was detected in all grasslands with the highest scores for the overgrazed sites, but the change was also grassland type dependent. The detected trend suggests that with increased intensity the overall selectivity of grazing decreased. We found that evenness was affected but functional evenness was not affected by grazing intensity. Functional evenness scores were more related to the grassland type than to changes in grazing intensity, and displayed a high variability. We stress that one‐size‐fits‐all strategies cannot be recommended and actions should be fine‐tuned at least at the level of grassland type. Our results clearly indicated that the effects of grazing intensity are strongly grassland type dependent. This implies that management strategies and decisions should be fine‐tuned at least at the level of grassland type.
doi_str_mv 10.1002/ece3.4508
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The effect of interaction between grazing intensity and grassland type was also significant for functional richness, functional evenness, community‐weighted means of leaf area, and for species richness and evenness. An upward trend of specific leaf area was detected in all grasslands with the highest scores for the overgrazed sites, but the change was also grassland type dependent. The detected trend suggests that with increased intensity the overall selectivity of grazing decreased. We found that evenness was affected but functional evenness was not affected by grazing intensity. Functional evenness scores were more related to the grassland type than to changes in grazing intensity, and displayed a high variability. We stress that one‐size‐fits‐all strategies cannot be recommended and actions should be fine‐tuned at least at the level of grassland type. Our results clearly indicated that the effects of grazing intensity are strongly grassland type dependent. 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subjects Biodiversity
Communities
Divergence
Dry matter
functional diversity
Grasslands
Grazing
Grazing intensity
Herbivores
Leaf area
leaf traits
Loess
Original Research
overgrazing
plant traits
prairie
Selectivity
Shape effects
Species diversity
Species richness
steppe
Steppes
Vegetation
Vegetation patterns
Vegetation type
title Vegetation type and grazing intensity jointly shape grazing effects on grassland biodiversity
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