Effect of different grazing intensities on bacterial community composition and diversity in rhizosphere and non-rhizosphere soils in desert steppe of China

Zhang, Guogang; Huang, Jing; Jia, Meiqing; Huang, Wei; Sui, Xin; Wang, Zhongwu; Han, Guodong

doi:10.4067/s0718-58392019000400531

Cited by 8 publications

(7 citation statements)

References 30 publications

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“…However, the bacterial populations showed the same concentration in the 0-5 and 5-15 cm strata, while fungal populations were significantly equal between 5-15, and 15-30 cm. This pattern coincides with studies in which microbial biomass often decreases with soil depth (Hartmann et al, 2009;Zhang et al, 2019). Eilers et al (2012), when analyzing soil microbial communities at different depths, found significant differences between profiles separated by 10 cm, and the same was observed in the present study.…”

Section: Resultssupporting

confidence: 93%

Time-course of soil microbial communities in different tillage and crop rotation systems

González-Figueroa

Covarrubias-Prieto

Aguirre-Mancilla

et al. 2020

Chil. j. agric. res.

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The soil microbial communities involved in the biogeochemical cycles of plant nutrients are negatively affected by unfavorable agricultural practices. In three tillage systems (traditional tillage, TT; traditional tillage with residue incorporation, TTI; and conservation tillage, CT) with three crop rotations (cereal-cereal, CC ; legume-cereal, L-C; and cereal-legume, C-L) at three soil depths (0-5, 5-15, and 15-30 cm), the effects on the populations of bacteria, actinomycetes, and fungi over a period of six crop cycles (3 yr) were evaluated. The tillage system, crop rotation, and depth affected the concentration of microbes in the soil. Under TT/C-C (regional control), they decreased by 7.5%; in contrast, under CT/L-C and TTI/L-C, they increased by 144% and 76%, respectively. Regardless of the tillage system, rotation with legumes, especially when the legume was cultivated in the spring-summer cycle (C-L), caused significant increases in microbial populations. At the end of 3 yr, under CT and TTI the populations of actinomycetes increased, while the fungal population remained stable and the bacterial populations fluctuated in the different crop cycles. In all treatments, the concentration of microorganisms decreased with soil depth. Local practices represent a risk to the diversity of soil microbiota, and it is imperative that farmers adopt conservation practices to achieve sustainability.

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Section: Resultssupporting

confidence: 93%

Time-course of soil microbial communities in different tillage and crop rotation systems

González-Figueroa

Covarrubias-Prieto

Aguirre-Mancilla

et al. 2020

Chil. j. agric. res.

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“…These results are consistent with previous findings that grazing has a significant impact on the rhizosphere bacterial community structure, but has no effect on bulk soil bacterial community structure in S . breviflora desert steppe (Zhang et al., 2019). Evidence suggests that effects of grazing on soil microbes have been attributed to increased release of root exudates that are rapidly used by rhizosphere microbes and increase available N in plant shoots; this process may result in a positive feedback to the plant of improved nutrient recycling and uptake (Bardgett et al., 1998).…”

Section: Discussionmentioning

confidence: 99%

Characterization of soil microbes associated with a grazing‐tolerant grass species, Stipa breviflora, in the Inner Mongolian desert steppe

Chen

Saixi

et al. 2020

Ecology and Evolution

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The soil microbial community plays an important role in grassland ecosystem dynamics and has a crucial influence upon plant ecophysiological traits (Andres et al., 2017; Ford, Rousk, Garbutt, Jones, & Jones, 2013). A major challenge in applied ecology is to understand response mechanisms of those complex microbial communities to grazing, especially for those associated with grass species tolerant of grazing. Many studies have demonstrated that herbivores largely determine aboveground biomass, and also directly and indirectly affect the belowground soil microbial community through their impact on plants and soil properties (Dawson, Grayston, & Paterson, 2000; Yang et al., 2013). In this interaction, a common response of grazed grass plants to browsing is the stimulation of microbial processes and nitrogen availability within their rhizospheres, and the reallocation of belowground resources to aboveground structures (Bardgett,

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“…An intriguing result from our experiment was that the rhizosphere bacterial diversity was more sensitive to grazing intensity than that in non‐rhizosphere (Zhang et al, 2019 ). As indicated in Figure 2a , the rhizosphere bacterial richness declined dramatically under heavy grazing intensity, while that in non‐rhizosphere remained unchanged (Zhang et al, 2019 ). Such differing responses also held for other diversity indices, including Shannon diversity, ACE, Chao1, and phylogenetic diversity (Figure A2 ).…”

Section: Discussionmentioning

confidence: 78%

“…These inconsistent results suggest that the impacts of grazing on microbial communities are likely to be mediated by grazing intensity and grazing history. Moreover, a previous study indicated that grazing could alter the composition of microbial communities in rhizosphere soil rather than in non‐rhizosphere soil (Zhang et al, 2019 ), highlighting the contrasting responses of microbial communities between rhizosphere and non‐rhizosphere soils. In fact, soil microbial communities can differ greatly in diversity and composition between the two zones because host plants usually exert a select effect on microbial taxa in their rhizosphere soil (Hartmann et al, 2009 ; Nan et al, 2020 ).…”

Section: Introductionmentioning

confidence: 97%

“…Overgrazing not only reduces vegetation cover, decreases plant production, and alters vegetation composition (Wei et al, 2013 ) but also has profound impacts on the diversity and composition of soil microbial communities (Hu et al, 2017 ; Lamb et al, 2011 ; Wang, Ding, et al, 2021 ; Zhang et al, 2020 ). Some studies in desert steppe ecosystems showed that grazing could significantly reduce the diversity of microbial communities in bulk soil and in rhizosphere soil (Wang, Ding, et al, 2021 ; Zhang et al, 2019 ). In contrast, another study in the same ecosystem showed that grazing had little effect on bacterial diversity and fungal diversity in rhizosphere soil, nor in bulk soil (Chen et al, 2020 ).…”

Section: Introductionmentioning

confidence: 99%

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Effects of grazing intensity on diversity and composition of rhizosphere and non‐rhizosphere microbial communities in a desert grassland

Yang,

Zhang,

Liu

et al. 2023

Ecology and Evolution

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Effect of different grazing intensities on bacterial community composition and diversity in rhizosphere and non-rhizosphere soils in desert steppe of China

Cited by 8 publications

References 30 publications

Time-course of soil microbial communities in different tillage and crop rotation systems

Time-course of soil microbial communities in different tillage and crop rotation systems

Characterization of soil microbes associated with a grazing‐tolerant grass species, Stipa breviflora, in the Inner Mongolian desert steppe

Effects of grazing intensity on diversity and composition of rhizosphere and non‐rhizosphere microbial communities in a desert grassland

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