Direct and productivity‐mediated indirect effects of fertilization, mowing and grazing on grassland species richness

Socher, Stephanie A.; Prati, Daniel; Boch, Steffen; Müller, Jörg; Klaus, Valentin H.; Hölzel, Norbert; Fischer, Markus

doi:10.1111/j.1365-2745.2012.02020.x

Cited by 225 publications

(248 citation statements)

References 49 publications

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“…Mowing found to decrease the abundance of disturbance sensitive species, while increased the disturbance-tolerant ruderal species by frequent destruction of above-ground plant organs (Socher et al, 2012). Enrichment of species or recovery after mowing might be due to enhanced seedling germination by the removal of litter and above-ground biomass, which creates gaps that act as suitable micro-sites for the establishment of small-seeded species (Socher et al, 2012). The species richness could change even during a short period of three years of mowing (once per year), however with unfavourable effects on the original dry grassland community (Jantunen, 2003).…”

Section: Discussionmentioning

confidence: 99%

“…In contrast, grazing was found to increase (due to light grazing of cattle, Fritch et al, 2011) or decrease (due to overgrazing by horses, Penksza, 2005) the species richness compared to the mowing treatment (Fritch et al, 2011, Penksza, 2005. Mowing found to decrease the abundance of disturbance sensitive species, while increased the disturbance-tolerant ruderal species by frequent destruction of above-ground plant organs (Socher et al, 2012). Enrichment of species or recovery after mowing might be due to enhanced seedling germination by the removal of litter and above-ground biomass, which creates gaps that act as suitable micro-sites for the establishment of small-seeded species (Socher et al, 2012).…”

Section: Discussionmentioning

confidence: 99%

“…Therefore, it is hard to separate the direct effects of species composition change from other related effects (changes of leaf area index, soil bulk density, and soil water holding capacity) on carbon sequestration (Klumpp et al, 2011). Management regime shifts from grazing to mowing could have a significant, but varying (negative vs. positive) effect on species composition (Fritch et al, 2011, Jacquemyn et al, 2011, Socher et al, 2012. In general grasslands mostly benefit from light grazing and mowing and degrade in terms of species composition from frequent mowing and intense grazing but the direction of change also depends on the initial status of the grassland (Jantunen, 2003, Socher et al, 2012.…”

Section: Introductionmentioning

confidence: 99%

“…In general grasslands mostly benefit from light grazing and mowing and degrade in terms of species composition from frequent mowing and intense grazing but the direction of change also depends on the initial status of the grassland (Jantunen, 2003, Socher et al, 2012. However, comparative studies on the effects of mowing and grazing in the same areas are rare (Jantunen, 2003) and studies are mostly focusing on the changes in species richness (Jantunen, 2003, Pykälä, 2005, Socher et al, 2012, rather on fine scale structural changes in the grassland, which could early indicate the direction of changes (Virágh et al, 2000.…”

Section: Introductionmentioning

confidence: 99%

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Effect of Grazing and Mowing on the Micro Coenological Composition of a Semi - Arid Grassland in Hungary

et al. 2014

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Abstract. Grasslands play an important role in carbon sequestration. Different management regimes may change the species composition of plants in grasslands, thus may affect the carbon sequestration potential. Therefore, we investigated if short-term changes in species composition occurred in response to shift in grazing to mowing in a semi-arid grassland in Hungary (Bugac). Species abundances were recorded as frequencies of species in contiguous 5 cm × 5 cm quadrates along six (5 meters long) permanent transects at adjacent grazed and mowed sites in the spring and fall of 2012. High variation of vegetation characteristics was found within the management units at patch scale (at few m scale). The species richness, relative abundance of species, species density, Shannon diversity index, and forage quality differed among transects; however, no differences were observed between the two managements regimes at site scale (at hectar scale) (ANOVA, p>0.05). The average species abundance of the grazed and mowed sites were very similar (Poa spp.: 13.48±5.34%, 14.67±6,9%; Carex spp.:12.46±8.75%, 14.24±10.16%; Cynodon dactylon: 10±8.52%, 16.01±3.49%., respectively). Our results suggest that species composition differences can not be the main factors explaining short-term differences in carbon sequestration in natural semiarid grasslands.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Effect of Grazing and Mowing on the Micro Coenological Composition of a Semi - Arid Grassland in Hungary

et al. 2014

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“…Previous studies have already demonstrated the negative effects of fertilization on species richness Stewart and Pullin, 2008;Zechmeister et al, 2003). Recently, a study by Socher et al (2012) conducted in the same study regions has shown a loss of 19 % of the total number of vascular plant species on a grassland site with an annual fertilization input of 35 kg of N per hectare. Given the limited amount of grazed and mowed sites in our dataset, we did not find any significant effect of these management practices on root C age.…”

Section: Root 14 C Age In Grassland Ecosystemsmentioning

confidence: 98%

Mean age of carbon in fine roots from temperate forests and grasslands with different management

et al. 2013

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Fine roots are the most dynamic portion of a plant’s root system and a major source of soil organic matter. By altering plant species diversity and composition, soil conditions and nutrient availability, and consequently belowground allocation and dynamics of root carbon (C) inputs, land-use and management changes may influence organic C storage in terrestrial ecosystems. In three German regions, we measured fine root radiocarbon (14C) content to estimate the mean time since C in root tissues was fixed from the atmosphere in 54 grassland and forest plots with different management and soil conditions. Although root biomass was on average greater in grasslands 5.1±0.8 g (mean±SE, n=27) than in forests 3.1±0.5 g (n=27) (p <0.05), the mean age of C in fine roots in forests averaged 11.3±1.8 yr and was older and more variable compared to grasslands 1.7±0.4 yr (p <0.001). We further found that management affects the mean age of fine root C in temperate grasslands mediated by changes in plant species diversity and composition. Fine root mean C age is positively correlated with plant diversity (r =0.65) and with the number of perennial species (r =0.77). Fine root mean C age in grasslands was also affected by study region with averages of 0.7±0.1 yr (n=9) on mostly organic soils in northern Germany and of 1.8±0.3 yr (n=9) and 2.6±0.3 (n=9) in central and southern Germany (p <0.05). This was probably due to differences in soil nutrient contents and soil moisture conditions between study regions, which affected plant species diversity and the presence of perennial species. Our results indicate more long-lived roots or internal redistribution of C in perennial species and suggest linkages between fine root C age and management in grasslands. These findings improve our ability to predict and model belowground C fluxes across broader spatial scales

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Long‐term subtropical grassland plots take a long time to change: Replacement is more important than richness differences for beta diversity

Ward

Kirkman

Morris

2023

Ecology and Evolution

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Direct and productivity‐mediated indirect effects of fertilization, mowing and grazing on grassland species richness

Cited by 225 publications

References 49 publications

Effect of Grazing and Mowing on the Micro Coenological Composition of a Semi - Arid Grassland in Hungary

Effect of Grazing and Mowing on the Micro Coenological Composition of a Semi - Arid Grassland in Hungary

Mean age of carbon in fine roots from temperate forests and grasslands with different management

Long‐term subtropical grassland plots take a long time to change: Replacement is more important than richness differences for beta diversity

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