Plant species identity and mycorrhizal type explain the root-associated fungal pathogen community assembly of seedlings based on functional traits in a subtropical forest

Li, Yongning; Xie, Yan; Liu, Zhengjiao; Shi, Liuqing; Liu, Xubing; Liang, Minxia; Yu, Shixiao

doi:10.3389/fpls.2023.1251934

Cited by 2 publications

(2 citation statements)

References 82 publications

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“…These compounds are the source of 15 % to 20 % of the C needs of the desert plants. Further, glomalin acts as a glue in stabilizing the soil by forming soil aggregates ( Li et al, 2023 , Wright and Upadhyaya, 1998 ). When the glomalin content in the soil increases, it improves water infiltration, root development, and enhancement of microbial activity hence improving soil resistance to erosion.…”

Section: Amf Ecological Significancementioning

confidence: 99%

Diversity, Distribution, and applications of arbuscular mycorrhizal fungi in the Arabian Peninsula

Alrajhi,

Bibi,

Abu-Dieyeh

2024

Saudi Journal of Biological Sciences

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Section: Amf Ecological Significancementioning

confidence: 99%

Diversity, Distribution, and applications of arbuscular mycorrhizal fungi in the Arabian Peninsula

Alrajhi,

Bibi,

Abu-Dieyeh

2024

Saudi Journal of Biological Sciences

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“…Arbors provided the best effects in improving the soil Ks, a conclusion consistent with the findings of the present study. Shi et al ( 2023) [56] focused on the Loess Plateau area and analyzed 12 types of vegetation cover, concluding that variations in factors such as the soil litter biomass, capillary porosity, and soil bulk density all significantly influence the Ks. [57] study on the hydrophysical properties of soils from five land-use types in the Luoyugou basin elaborated on the interrelationships of various factors, revealing significant differences in the Ks across different vegetation types.…”

Section: Factors Influencing the Ksmentioning

confidence: 99%

Study on the Effect and Enhancement of Near-Natural Integrated Plant Positioning Configuration in the Hilly Gully Region, China

Zhao,

Feng,

et al. 2024

Forests

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The establishment of protective forests plays a crucial role in mitigating soil erosion on slopes within hilly and gully regions. However, in practical applications, the configuration of protective forests on slopes is intricate and diverse, and the suitability and rationality of different configuration patterns for various slope sections have not been thoroughly investigated. This study focuses on a 40-year-old artificial protective forest, examining 16 different configuration patterns on the top, middle, and lower slopes. It compares the growth conditions, community structure stability, and characteristics of the saturated soil’s hydraulic conductivity. The findings indicate that the top slope should be identified as a critical area for slope protection. The optimal configuration for this area is the “tree + grass” pattern with a spacing of 5 m × 5 m, which promotes the optimal growth of tree species and effectively reduces the surface runoff of gravel particles ranging from 1 cm to 3 cm in diameter. On the middle slope, the “tree + shrub + grass” structure proves effective in slowing down the erosive force of slope runoff. The recommended spacing for trees is 5 m × 6 m, and for understory shrubs, it is 1 m × 6 m. This configuration pattern results in the most stable structure for the plant community and maximizes the water conservation potential of forest litter. By analyzing the characteristics of the saturated soil’s hydraulic conductivity, we find that the complexity of the plant configuration on the lower slopes is correlated with a greater coefficient of variation in the saturated soil’s hydraulic conductivity. Nevertheless, there is no significant difference in the average soil saturated hydraulic conductivity per unit area between the different configuration patterns. Consequently, the lower slope can rely on the natural recovery of herbaceous plants. The results of this research contribute valuable scientific and technical insights to the management of soil erosion in hilly and gully areas, both in China and around the world.

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Plant species identity and mycorrhizal type explain the root-associated fungal pathogen community assembly of seedlings based on functional traits in a subtropical forest

Cited by 2 publications

References 82 publications

Diversity, Distribution, and applications of arbuscular mycorrhizal fungi in the Arabian Peninsula

Diversity, Distribution, and applications of arbuscular mycorrhizal fungi in the Arabian Peninsula

Study on the Effect and Enhancement of Near-Natural Integrated Plant Positioning Configuration in the Hilly Gully Region, China

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