A 5‐year rotational grazing changes the botanical composition of sub‐alpine and alpine grasslands

Perotti, Elisa; Probo, Massimiliano; Pittarello, Marco; Lonati, Michele; Lombardi, Giampiero

doi:10.1111/avsc.12389

Cited by 31 publications

(19 citation statements)

References 58 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Livestock grazing is useful for the implementation of management strategies that address the restoration, improvement, or maintenance of grassland vegetation [1]. As a basic criterion, the effectiveness of such strategies depends on livestock stocking rate, which can strongly affect nutrient availability, plant species diversity, and vegetation dynamics [2,3]. Stocking rate can be quantified for the entire grazing area as the overall average number of animals per hectare and time unit.…”

Section: Introductionmentioning

confidence: 99%

Distance from Night Penning Areas as an Effective Proxy to Estimate Site Use Intensity by Grazing Sheep in the Alps

et al. 2019

Self Cite

View full text Add to dashboard Cite

Livestock site use intensity can vary widely across a grazing area due to several factors such as topography and distance from sheds and water sources. However, an accurate approximation of animal site use should be assessed for each part of the grazing area to apply effective management strategies. In the Alps, shepherds manage sheep through lenient supervision during the day and confining the animals in temporary night penning areas (TNPA) at night. In our case study, we assessed sheep site use over the grazing area with global positioning system (GPS) collars and calculated the sums of inverse distances from all TNPA (unweighted and weighted on the number of penning nights) and from all water sources, as well as the slope, on 118 sample points. We assessed the relative importance of these variables in affecting site use intensity by animals using different sets of models. Both the unweighted and weighted distances from TNPA were found to be the most important factors. The best fitting model accounted for the weighted distance from TNPA and the distance from water, but the latter showed a lower relative importance. Our study suggests that using the distance from TNPA, preferably weighted on the number of penning nights, is an effective proxy to estimate the spatial variability of sheep stocking rate during grazing in the Alps.

show abstract

Section: Introductionmentioning

confidence: 99%

Distance from Night Penning Areas as an Effective Proxy to Estimate Site Use Intensity by Grazing Sheep in the Alps

et al. 2019

Self Cite

View full text Add to dashboard Cite

show abstract

“…This study conducted an empirical study taking the potential productivity of science and technology into account. Gobi-land cultivation systems and rotational grazing systems could be sustainable management tools for IMAR [43,44]. Different farming methods produced different results, particularly in the carbon footprint, besides grain production and soil carbon storage [45].…”

Section: Methods Comparison and Policy Suggestionsmentioning

confidence: 99%

Assessing the Ecological Carrying Capacity Based on Revised Three-Dimensional Ecological Footprint Model in Inner Mongolia, China

et al. 2019

View full text Add to dashboard Cite

Under the concept of green development, accurately mapping ecological carrying capacity to effectively evaluate regional sustainability has already become an important issue in China. This study introduced ecological carrying capacity intensity (ECintensity) based on the revised three-dimensional ecological footprint (3DEF) model to describe the temporal–spatial patterns of three-dimensional ecological carrying capacity (EC3D) in Inner Mongolia in 2010–2016 and to explore factors affecting socioeconomic sustainable development. The results showed that ecological footprint size (EFsize) differed between cities/leagues but changed little during the study period. Ecological footprint depth (EFdepth) far exceeded the original value of 1.00. Ecological carrying capacity (EC) varied in cities/leagues, while ECintensity increased slowly with stronger potential for regional development. Three-dimensional ecological deficits (ED3D) of cities/leagues were divided into five categories: Hohhot, Hulunbuir and Banyannur were in larger ecological surplus; Hinggan was in slight surplus; Baotou, Chifeng, Tongliao, Ulanqab, Xilin Gol and Erdos were in slight deficit; Wuhai was in stronger deficit; and Alxa was in severely intense deficit. Woodland of cities/leagues was continuously in slight ecological surplus, while cropland and grassland had crucial impacts on deficit. There was a significant positive linear correlation between gross domestic product (GDP) and footprint, while a negative correlation was seen with deficit. These results would help coordinate resource utilization and industrial structure adjustment in Inner Mongolia.

show abstract

“…We identified two functional species pools, corresponding to different vegetation successional stages: 1) pioneer species (belonging to Thlaspietea rotundifolii class) and 2) alpine grassland species (belonging to Caricetea curvulae, Carici rupestris-kobresietea, Elyno-seslerietea, Molinio-arrhenatheretea, Nardetea strictae, and Salicetea herbaceae classes). Following this approach, adopted in many different alpine contexts (e.g., Pittarello et al, 2016;Moris et al, 2017;Perotti et al, 2018), we computed species number and cover for each functional species pool in the different plots. Additionally, we studied the population structure of two target species, Saxifraga and Silene, chosen according to the criteria of abundance and ubiquity along the chronosequence.…”

Section: Vegetation Surveysmentioning

confidence: 99%

Successional Herbaceous Species Affect Soil Processes in a High-Elevation Alpine Proglacial Chronosequence

Mainetti

D’Amico

Probo

et al. 2021

Front. Environ. Sci.

Self Cite

View full text Add to dashboard Cite

The study investigated plant-soil interactions along a proglacial chronosequence in the Italian Alps, with a specific focus on pioneer and grassland species structure and biogeochemical processes, with the aim to evaluate the biotic patterns in ecosystem development. We recorded vascular plant frequencies and the mean diameter of one pioneer and one grassland target species in 18 permanent plots distributed along six different stages encompassing a 170-years chronosequence in the Lauson Glacier forefield (NW Italy). We evaluated the main soil properties and measured the C:N:P stoichiometry in the biomass of pioneer and grassland target species and in the underlying soil. For comparative purposes, we analyzed also bare soils sampled near the sampled plant individuals. Pioneer species number and cover significantly increased 10 and 40 years after deglaciation respectively, while alpine grassland species cover and number peaked only after 65 and 140 years, respectively. Along the chronosequence, soils beneath vascular plants were enriched in nutrients, especially under individuals of alpine grassland species, with total organic C contents ranging between 1.3 and 8.9 g·kg−1 compared to 0.2 and 3.3 g·kg−1 in bare soils. Nitrogen content in bare soils was nearly undetectable, while it increased in the plant-affected soils, leading to a more balanced C:N:P stoichiometry in the oldest stages. The colonization of alpine grassland species started immediately, although species number and cover increased only when the soil acquired sufficient nutrient supply and functionality. Although the ecosystem remained C and N limited, the soil could provide adequate conditions for more competitive species establishment, as confirmed by the increasing number and cover of alpine grassland species. Thus, soil nutrient dynamics were strongly influenced by plants, with a major influence triggered by late-successional grassland species.

show abstract

A 5‐year rotational grazing changes the botanical composition of sub‐alpine and alpine grasslands

Cited by 31 publications

References 58 publications

Distance from Night Penning Areas as an Effective Proxy to Estimate Site Use Intensity by Grazing Sheep in the Alps

Distance from Night Penning Areas as an Effective Proxy to Estimate Site Use Intensity by Grazing Sheep in the Alps

Assessing the Ecological Carrying Capacity Based on Revised Three-Dimensional Ecological Footprint Model in Inner Mongolia, China

Successional Herbaceous Species Affect Soil Processes in a High-Elevation Alpine Proglacial Chronosequence

Contact Info

Product

Resources

About