The Right-Skewed Distribution of Fine-Root Size in Three Temperate Forests in Northeastern China

Wang, Cunguo; Brunner, Ivano; Wang, Junni; Guo, Wei; Geng, Zhenzhen; Yang, Xuguang; Chen, Zhijie; Han, Shijie; Li, Mai‐He

doi:10.3389/fpls.2021.772463

Cited by 3 publications

(3 citation statements)

References 76 publications

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“…PloS One 12, e0187496. doi: 10.1371/journal.pone.0187496 Li, T., Ren, J., He, W., Wang, Y., Wen, X., Wang, X., et al (2022). Anatomical structure interpretation of the effect of soil environment on fine root function.…”

Section: Discussionmentioning

confidence: 99%

“…Although this standard had differences in structure, physiology, and morphology, it ignored the differences in fine root structure and internal function between different root orders ( Pregitzer et al., 2002 ). For example, nitrogen and phosphorus content and fine root structure might vary in the root D of different tree species ( Li et al., 2010 ; Wang et al., 2022 ). The division of fine roots based root order could weaken the internal heterogeneity of fine roots and more effectively descdribe the physiological processes of fine roots of different root orders ( Guo et al., 2008 ).…”

Section: Introductionmentioning

confidence: 99%

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Response strategies of fine root morphology of Cupressus funebris to the different soil environment

Wen

Wang

et al. 2022

Front. Plant Sci.

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Understanding fine root morphology is crucial to uncover water and nutrient acquisition and transposition of fine roots. However, there is still a lack of knowledge regarding how the soil environment affects the fine root morphology of various root orders in the stable forest ecosystem. Therefore, this experiment assessed the response strategies of fine root morphology (first- to fifth -order fine roots) in four different soil environments. The results showed that fine root morphology was related to soil environment, and there were significant differences in specific root length (SRL), specific surface area (SRA), diameter (D), and root tissue density (RTD) of first- and second -order fine roots. Soil total nitrogen (TN), alkaline nitrogen (AN) and available phosphorus (AP) were positively correlated with SRL and SRA and negatively correlated with D and RTD. Soil moisture (SW) was positively correlated with the D and RTD of first- and second-order fine roots and negatively correlated with the SRL and SRA. Soil temperature (ST), organic carbon (OC), soil bulk density (SBD) and soil porosity (SP) were not significantly correlated with the D, SRL, SRA, and RTD of the first- and second -order fine roots. AN was positively correlated with SRL and SRA and negatively correlated with both D and RTD in the first- and second -order fine roots, and the correlation coefficient was very significant. Therefore, we finally concluded that soil AN was the most critical factor affecting root D, SRL, SRA and RTD of fine roots, and mainly affected the morphology of first- and second -order fine roots. In conclusion, our research provides support for understanding the relationship between fine root morphology and soil environment, and indicates that soil nutrient gradient forms good root morphology at intraspecific scale.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Response strategies of fine root morphology of Cupressus funebris to the different soil environment

Wen

Wang

et al. 2022

Front. Plant Sci.

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“…The roots are composed of segments that differ in their degree of development and differentiation showing specific physiological and biochemical characteristics: root cap, root tip, elongation zone, root-hair zone, mature zone, and sites of lateral root emergence. This root functional heterogeneity controls the root spatial abilities to take up nutrients (Luster et al, 2009;Hinsinger et al, 2011;Helliwell et al, 2017;Wang et al, 2022a). However, its effects on the spatial distribution of e n z y m e a c t i v i t i e s i n t h e r h i z o s p h e r e h a v e b e e n rarely investigated.…”

Section: Introductionmentioning

confidence: 99%

Contrasting distribution of enzyme activities in the rhizosphere of European beech and Norway spruce

2022

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Recent policies and silvicultural management call for forest regeneration that involve the selection of tree species able to cope with low soil nutrient availability in forest ecosystems. Understanding the impact of different tree species on the rhizosphere processes (e.g., enzyme activities) involved in nutrient mobilisation is critical in selecting suitable species to adapt forests to environmental change. Here, we visualised and investigated the rhizosphere distribution of enzyme activities (cellobiohydrolase, leucine-aminopeptidase, and acid phosphomonoesterase) using zymography. We related the distribution of enzyme activities to the seedling root morphological traits of European beech (Fagus sylvatica) and Norway spruce (Picea abies), the two most cultivated temperate tree species that employ contrasting strategies in soil nutrient acquisition. We found that spruce showed a higher morphological heterogeneity along the roots than beech, resulting in a more robust relationship between rhizoplane-associated enzyme activities and the longitudinal distance from the root apex. The rhizoplane enzyme activities decreased in spruce and increased in beech with the distance from the root apex over a power-law equation. Spruce revealed broader rhizosphere extents of all three enzymes, but only acid phosphomonoesterase activity was higher compared with beech. This latter result was determined by a larger root system found in beech compared with spruce that enhanced cellobiohydrolase and leucine-aminopeptidase activities. The root hair zone and hair lengths were significant variables determining the distribution of enzyme activities in the rhizosphere. Our findings indicate that spruce has a more substantial influence on rhizosphere enzyme production and diffusion than beech, enabling spruce to better mobilise nutrients from organic sources in heterogeneous forest soils.

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Application of Extended Normal Distribution in Option Price Sensitivities

Nayak,

Tripathy,

Imoize

et al. 2024

Mathematics

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Empirical evidence indicates that asset returns adhere to an extended normal distribution characterized by excessive kurtosis and non-zero skewness. Consequently, option prices derived from this distribution diverge from those predicted by the Black–Scholes model. Despite the significance of option price sensitivities for risk management in investment portfolios, the existing literature lacks a thorough exploration of these sensitivities within the context of the extended normal distribution. This article addresses this research gap by deriving the Greeks for options based on the extended normal distribution. The Greeks under consideration include Vega, Delta, Theta, Gamma, Rho, Vanna, Charm, and Vera, all of which are crucial for informed financial decision-making. Furthermore, this study provides a detailed analysis of how these option price sensitivities vary with different levels of kurtosis, offering valuable insights for various market applications. This contribution not only enhances the theoretical understanding of option pricing under non-standard distributions but also presents practical implications for portfolio risk management.

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The Right-Skewed Distribution of Fine-Root Size in Three Temperate Forests in Northeastern China

Cited by 3 publications

References 76 publications

Response strategies of fine root morphology of Cupressus funebris to the different soil environment

Response strategies of fine root morphology of Cupressus funebris to the different soil environment

Contrasting distribution of enzyme activities in the rhizosphere of European beech and Norway spruce

Application of Extended Normal Distribution in Option Price Sensitivities

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