Impact of Grazing Intensity on Soil Properties in Teltele Rangeland, Ethiopia

Fenetahun, Yeneayehu; Yuan, You; Xinwen, Xu; Fentahun, Tihunie; Nzabarinda, Vincent; Wang, Yongdong

doi:10.3389/fenvs.2021.664104

Cited by 10 publications

(14 citation statements)

References 56 publications

(73 reference statements)

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“…Some studies found that grazing promoted nutrient cycling ( Zhang et al, 2021a ) and enhanced soil net nitrogen (N) mineralization and N nitrification ( Zhou et al, 2017 ; Dong et al, 2020b ), NH 4 + ( Lai and Kumar, 2020 ), NO 3 – ( Wang et al, 2016 ) and available phosphorus (P) ( Hao and He, 2019 ), potassium (K), and calcium (Ca) ( Arevalo et al, 1998 ) and have a positive impact on the availability of soil nutrients ( Faghihinia et al, 2020 ; Xu et al, 2022 ). Other studies showed that grazing diminished the net mineralization rate ( Shan et al, 2011 ) and decreased available soil N and P ( Hao and He, 2019 ; Liu et al, 2021 ; Yu et al, 2021 ), K ( Fenetahun et al, 2021 ), Ca, and magnesium ( Binkley et al, 2003 ). Because nutrient availability has a very important effect in soil microbiome ( Fierer, 2017 ; Wang Z. et al, 2019 ; Ding et al, 2020 ), we assumed that the grazing-triggered alterations in available elements may also shift the microbial NP limitations and the attributes of soil microbiome.…”

Section: Introductionmentioning

confidence: 98%

“…These could result in a decline in the air and water permeability ( Daniel et al, 2002 ; Zhang et al, 2018b ) and soil moisture ( Hou et al, 2014 ; Li et al, 2021 ; Liu et al, 2021 ). However, grazing also increased soil pH ( Binkley et al, 2003 ; Hao and He, 2019 ; Fenetahun et al, 2021 ; Li et al, 2021 ). Since soil pH, O 2 , and water were most crucial driving forces of soil microorganisms ( Fierer, 2017 ), and grazing compressed the living niche for soil microbiome ( Chai et al, 2019 ; Proesmans et al, 2022 ) and negatively affected the growth of microbes ( Zhan et al, 2020 ), we speculated that the changes caused by grazing may have a far-reaching impact on the attributes of soil microorganisms.…”

Section: Introductionmentioning

confidence: 98%

“…A large body of field experiments and meta-analyses have been carried out to measure the influences of grazing on the soil’s physical environment, available elements, and element limitations ( Zhang et al, 2018a ; Chai et al, 2019 ; Fenetahun et al, 2021 ; Liu et al, 2022 ; Van Syoc et al, 2022 ; Wang L. et al, 2022 ). Grazing could decrease soil porosity ( Tang et al, 2019 ) and increase soil bulk density ( Binkley et al, 2003 ; Davidson et al, 2017 ; Zhang et al, 2018b ; Sun et al, 2019 ; Lai and Kumar, 2020 ; Fenetahun et al, 2021 ). These could result in a decline in the air and water permeability ( Daniel et al, 2002 ; Zhang et al, 2018b ) and soil moisture ( Hou et al, 2014 ; Li et al, 2021 ; Liu et al, 2021 ).…”

Section: Introductionmentioning

confidence: 99%

“…Although increasing numbers of studies have reported the influences of grazing on soil’s physical environment, available elements ( Fenetahun et al, 2021 ; Wang L. et al, 2022 ), and element limitations ( Liu et al, 2022 ), studies about the effects of grazing on the microbial community compositions and the microbial networks are relatively scant ( Magalí et al, 2019 ). Although evidence is mounting that dissecting the relative importance of plants and soils for the impact of the microbiome ( Ding et al, 2020 ; Chen et al, 2021 ), the linkages of soil physical environment, available elements, and element limitations with the niche width, structure, function, and network of soil microorganism remain relatively scarce, which hinders our understanding of the mechanisms by which grazing changes the soil microorganisms.…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Grazing lowers soil multifunctionality but boosts soil microbial network complexity and stability in a subtropical grassland of China

Ding

Tian

et al. 2023

Front. Microbiol.

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IntroductionLong-term grazing profoundly affects grassland ecosystems, whereas how the soil microbiome and multiple soil ecosystem functions alter in response to two-decades of grazing, especially how soil microbiome (diversity, composition, network complexity, and stability) forms soil multifunctionality is rarely addressed.MethodsWe used a long-term buffalo grazing grassland to measure the responses of soil physicochemical attributes, stoichiometry, enzyme activities, soil microbial niche width, structure, functions, and networks to grazing in a subtropical grassland of Guizhou Plateau, China.ResultsThe evidence from this work suggested that grazing elevated the soil hardness, available calcium content, and available magnesium content by 6.5, 1.9, and 1.9 times (p = 0.00015–0.0160) and acid phosphatase activity, bulk density, pH by 59, 8, and 0.5 unit (p = 0.0014–0.0370), but decreased the soil water content, available phosphorus content, and multifunctionality by 47, 73, and 9–21% (p = 0.0250–0.0460), respectively. Grazing intensified the soil microbial carbon limitation (+78%, p = 0.0260) as indicated by the increased investment in the soil β-glucosidase activity (+90%, p = 0.0120). Grazing enhanced the complexity and stability of the bacterial and fungal networks but reduced the bacterial Simpson diversity (p < 0.05). The bacterial diversity, network complexity, and stability had positive effects, while bacterial and fungal compositions had negative effects on multifunctionality.DiscussionsThis work is an original attempt to show that grazing lowered multifunctionality via the reduced bacterial diversity and shifted soil bacterial and fungal compositions rather than the enhanced bacterial and fungal network complexities and stability by grazing. Protecting the bacterial diversity from decreasing, optimizing the composition of bacteria and fungi, and enhancing the complexity and stability of bacterial network may be conducive to improving the soil multifunction of grazing grassland, on a subtropical grassland.

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Section: Introductionmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Grazing lowers soil multifunctionality but boosts soil microbial network complexity and stability in a subtropical grassland of China

Ding

Tian

et al. 2023

Front. Microbiol.

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“…In open-access grazing systems, where mobile and sedentary forms of livestock husbandry coexist, rangelands are exploited by multispecies herds, and grazing can cause defoliation of plants [45,46]. In this context, livestock grazing intensity is thought to have a major impact on soil carbon storage in rangeland ecosystems [10,11,47,48]. Moreover, trampling, as one component of grazing, has negative effects as it accelerates the deterioration of vegetation, transforming standing materials into litter and incorporating litter into the soil [45].…”

Section: Effect Of Grazing Management On Soc Carbon Storagementioning

confidence: 99%

Carbon Stock and Change Rate under Different Grazing Management Practices in Semiarid Pastoral Ecosystem of Eastern Ethiopia

Gebremedhn

Kelkay

Tesfay

et al. 2022

Land

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Grazing management strategies tend to have different effects on rangeland plant production. Changes in grazing management can, therefore, affect the carbon stock potential of rangelands. Despite rangeland ecosystems being important global sinks for carbon, we know relatively little about the effect of traditional grazing management practices on their potential to store carbon. In this study, we evaluated the carbon stock and change rate of rangelands using three traditional grazing management practices in the semiarid pastoral ecosystem of eastern Ethiopia. By comparing data on vegetation and soil carbon stocks, we found that there was a strong significant difference (p < 0.001) between these different management practices. In particular, the establishment of enclosures was associated with an annual increase in carbon stocks of soil (3%) and woody (11.9%) and herbaceous (57.6%) biomass, when compared to communal open lands. Both enclosure and browsing management practices were found to have the highest levels of soil organic carbon stocks, differing only in terms of the amount of woody and herbaceous biomass. Thus, modest changes in traditional grazing management practices can play an important role in carbon storage and sequestration. Further research is required on a wider range of traditional pastoral management practices across space and time, as understanding these processes is key to combating global climate change.

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Impacts of soil and water conservation measures on soil physicochemical properties in the Jibgedel Watershed, Ethiopia

Leykun

Teklay

Gurebiyaw

et al. 2023

Environ Monit Assess

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Impact of Grazing Intensity on Soil Properties in Teltele Rangeland, Ethiopia

Cited by 10 publications

References 56 publications

Grazing lowers soil multifunctionality but boosts soil microbial network complexity and stability in a subtropical grassland of China

Grazing lowers soil multifunctionality but boosts soil microbial network complexity and stability in a subtropical grassland of China

Carbon Stock and Change Rate under Different Grazing Management Practices in Semiarid Pastoral Ecosystem of Eastern Ethiopia

Impacts of soil and water conservation measures on soil physicochemical properties in the Jibgedel Watershed, Ethiopia

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