Effects of shrub encroachment on soil aggregates and organic carbon vary in different grasslands in Inner Mongolia, China

Zhu, Yanhui; Shen, Haihua; Feng, Yinping; Li, He; Akinyemi, Damilare Stephen; Fang, Jingyun

doi:10.1002/ecs2.3363

Cited by 9 publications

(4 citation statements)

References 52 publications

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“…Zhibo et al (2020) showed that the contribution of aggregates > 0.25 mm to the organic carbon pool was signi cantly greater than that of aggregates < 0.25 mm. We found that the content of organic carbon and active carbon components of surface soil aggregates was slightly higher than that in deep soil, which was consistent with the research results of Zhu et al (2021). The content of SOC was the highest in the aggregates with > 2 mm particle size, and the aggregates with > 2 mm particle size also contributed the most to soil SOC.…”

Section: Effects Of Betula Platyphylla Invasion On Soil Organic Carbo...supporting

confidence: 89%

“…The dynamic change in soil organic carbon is not only dependent on the input of organic matter, but also closely related to the structure of soil aggregates (Zhu et al, 2021). Considering the composition ratio of organic carbon and active carbon components in the same particle size aggregate and the content of this particle size aggregate in soil comprehensively, the contribution rate of organic carbon and active carbon components to soil carbon in the aggregate can be comprehensively re ected (Wang et al, 2014).…”

Section: Effects Of Betula Platyphylla Invasion On Soil Organic Carbo...mentioning

confidence: 99%

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Effects of Betula platyphylla invasion in North China on soil aggregate stability, soil organic carbon and active carbon composition of larch plantation

et al. 2023

Plant Soil

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In order to better understand the changes in the potential carbon sequestration capacity of forest soil after the invasion of broad-leaved trees into pure larch plantations, the effects of broadleaf tree invasion on soil aggregate stability and carbon sequestration by soil organic carbon and active carbon components were studied. MethodsIn northern China, the pure Larix principis-rupprechtii plantations and the Larix principis-rupprechtii plantations invaded by Betula platyphylla at various degrees with the same site conditions were selected (Betula platyphylla had a mixed degree of 0.2 and 0.4, respectively). ANOVA, correlation analysis, principal component analysis and structural equation were conducted to interpret the relations between Betula platyphylla invasion and soil properties. ResultsThe distribution of soil macroaggregates (> 0.25 mm) increased with the increase in the mixed degree of Betula platyphylla. The mixture of Betula platyphylla could effectively increase the organic carbon and active carbon components of the original soil and soil aggregates of different diameter classes. The forest growth in this study area was mainly limited by nitrogen. The invasion of Betula platyphylla had an indirect impact on soil carbon sequestration by affecting the soil physical and chemical properties and the aggregate stability. ConclusionsThe invasion of Betula platyphylla had signi cant positive effects on soil aggregate stability, erosion resistance and soil nutrient status in Larix principis-rupprechtii plantation. The coniferous and broad-leaved mixture was a good strategy to increase the soil quality and soil organic carbon sequestration of the Larix principis-rupprechtii plantation in this area.

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Section: Effects Of Betula Platyphylla Invasion On Soil Organic Carbo...supporting

confidence: 89%

Section: Effects Of Betula Platyphylla Invasion On Soil Organic Carbo...mentioning

confidence: 99%

Effects of Betula platyphylla invasion in North China on soil aggregate stability, soil organic carbon and active carbon composition of larch plantation

et al. 2023

Plant Soil

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“…The integrated rice-crayfish farming model affected the formation of soil aggregates compared to traditional paddy fields. Soil aggregates are a key factor affecting soil quality, and the content of aggregates at different grain sizes directly affects soil quality [24,25]. The present study showed that the integrated rice-crayfish farming model significantly increased the content of soil aggregates at >5 mm grain size.…”

Section: Distribution Of Soil Aggregatessupporting

confidence: 48%

Impact of Integrated Rice-Crayfish Farming on Soil Aggregates and Organic Matter Distribution

Lv,

Wang,

et al. 2023

Agronomy

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This study evaluates the effects of a combined rice-crayfish farming model and compares this model with traditional paddy fields. The focus is on soil aggregate characteristics, organic matter content, and also the distribution of soil aggregates. This research was conducted in Qianjiang, Hubei Province. The surface soil samples were collected from two types of arable land: paddy fields (WR) and rice-crayfish fields (CR). We performed an analysis of soil aggregate distribution and organic matter content. Results reveal that the majority of soil aggregates exceed 2 mm in size (≥74.94%). The integrated rice-crayfish farming model significantly enhances the presence of large soil aggregates. And these parameters such as the average weight diameter (MWD), average geometric diameter (GWD), and agglomerate stability (PAD) also increase. Moreover, it mitigates agglomerate fragmentation (WASR). However, the net increase in total soil organic matter due to the integrated farming model remains modest. Organic matter content within the agglomerates follows an initial increase followed by a decrease. The highest content occurs in the 0.25–0.5 mm grain size (D4). When examining the distribution of soil aggregates and organic matter, it becomes evident that organic matter primarily originates from grain sizes larger than 2 mm (≥71.92%). Notably, the rice-crayfish paddy field (CR) exhibits a substantially higher contribution compared to the traditional rice paddy field (WR). This study demonstrates several positive outcomes of the integrated rice-crayfish farming model compared to traditional paddy farming. It promotes the development of larger soil aggregates, enhances the structural integrity of soil aggregates, and improves their mechanical and hydrological stability. Additionally, it marginally increases the organic matter content within each component of soil aggregates. Furthermore, integrated modelling increases the impact of larger soil aggregates on soil organic matter. This improves the quality of the soil and as a result, crop yields are increased. The health of the soil is also improved and this contributes positively to food security.

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“…ST, SA, LT, and other shrubs are widely distributed on the Zoige Plateau and are typical of the alpine shrub vegetation in the region, and they are the most influential of the shrubland types (Yang et al, 2017) and soil sampling depths (Chen et al, 2022). The effect of shrub invasion on soil is again determined by soil depth and grassland type, with deep soil organic carbon content showing higher levels in scrub than in grassland (Zhu et al, 2021). Most published studies have focused on the effects of climate (Gao et al, 2016) and grazing (Komac et al, 2013) on shrub encroachment, while the role of vegetation type and soil profile has rarely been considered (Yang et al, 2022).…”

Section: Introductionmentioning

confidence: 99%

Effects of shrub encroachment on grassland community and soil nutrients among three typical shrubby grasslands in the alpine subhumid region of the Qinghai-Tibet Plateau, China

Liu

Chen

et al. 2022

Front. Ecol. Evol.

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IntroductionThe alpine meadows are distributed widely and play a vital role in ecosystem service functions on the Qinghai-Tibet Plateau (QTP). Under the combined effect of climate change and overgrazing, shrubs display an apparent expansion trend, leading to the shrinking of alpine meadows, and directly affecting the structure and function of grassland ecosystems. However, the effects of shrub encroachment on the plant community and soil nutrients of alpine grassland ecosystems still need to be clarified.MethodWe aimed to determine differences in vegetation characteristics and nutrient distribution along the soil profile between shrub patches and their adjacent grassland at three sites, which were three typical types of shrub-encroached grassland, including Spiraea alpina Pall. (SA), Lonicera tubuliflora Rehd. (LT), and Salix cupularis Rehd. (ST).ResultsThe results showed that shrub invasion changed the plant community structure of alpine grassland ecosystems, and shrub type was the critical factor driving this alteration. The expansion of the three shrubs reduced grassland species diversity. Shrub encroachment in SA positively impacted vegetation biomass but significantly decreased the soil organic content (SOC) and total nutrients. Shrub invasion in the ST had the most substantial impact on vegetation and soil, resulting in significantly lower nutrient content in shrubs than in grassland patches. The effect of LT was a significant reduction in vegetation biomass but no significant changes in biodiversity or soil nutrients. Grassland patches were more strongly correlated than shrub patches for SA and LT, while the opposite was true for ST. Vegetation characteristics were correlated least with soil nutrients for SA, while ST was most correlated, and LT was between them. Soil nutrients show more positive correlations with vegetation, enzyme activity, and microbial biomass in deeper soils (20–100 cm) than in shallow soils (0–20 cm). The deeper the soil layer is, the more significant the positive correlations in the shrub patches. Our findings indicated that shrubs play critical roles in the dynamics of vegetation patterns and soil environments for managing and sustainable utilization of shrubby alpine grasslands.

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Effects of shrub encroachment on soil aggregates and organic carbon vary in different grasslands in Inner Mongolia, China

Cited by 9 publications

References 52 publications

Effects of Betula platyphylla invasion in North China on soil aggregate stability, soil organic carbon and active carbon composition of larch plantation

Effects of Betula platyphylla invasion in North China on soil aggregate stability, soil organic carbon and active carbon composition of larch plantation

Impact of Integrated Rice-Crayfish Farming on Soil Aggregates and Organic Matter Distribution

Effects of shrub encroachment on grassland community and soil nutrients among three typical shrubby grasslands in the alpine subhumid region of the Qinghai-Tibet Plateau, China

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