Guo Yue-wei scite author profile

Guo Yue-wei

4Publications

4Citation Statements Received

70Citation Statements Given

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Affiliations

University of Chinese Academy of Sciences, Institute of Soil and Water Conservation

Publications

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Effect of storage time on the physiological characteristics and vegetative regeneration of desiccation‐tolerant mosses on the Loess Plateau, China

Yue-wei

Zhao

Downing

2020

Restoration Ecology

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The artificial cultivation of moss biocrusts can accelerate the recovery of degraded arid lands and is closely related to moss productivity. Understanding the properties of inoculation materials on the regenerative capacity of mosses, in particular the effect of time limits on storage, has the potential to benefit the cultivation of artificial moss biocrusts. We investigated the vegetative regeneration and physiological characteristics of three desiccation‐tolerant mosses (Barbula unguiculata, Didymodon vinealis, and Didymodon tectorum) upon rehydration after periods of desiccation storage for 40, 89, 127, and 197 days. Regenerative capacity, represented by gametophyte vigor index, decreased with increased storage time. The greatest change in vegetative regeneration among storage times was observed in B. unguiculata, where the gametophyte vigor index decreased by 95.74% after 197 days of storage. Over the same period, there were smaller decreases in gametophyte vigor index of D. vinealis and D. tectorum of 42.17% and 13.30%, respectively. Malondialdehyde and soluble sugar increased with longer periods of storage time, while soluble protein content first increased, then decreased. Oxidation levels are important factors influencing the recovery of desiccation‐tolerant mosses. All three moss species regenerated after 197 days of storage, but regenerative capacity is dependent on species. For land managers, biocrust restoration can be facilitated by careful screening of suitable moss species, based on their capacity to regenerate new growth after extended periods of storage and selection of species based on variations in physiological characteristics.

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Effects of storage temperature on the physiological characteristics and vegetative propagation of desiccation-tolerant mosses

Yue-wei

Zhao

2018

Biogeosciences

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Abstract. Mosses, as major components of later successional biological soil crusts (biocrusts), play many critical roles in arid and semiarid ecosystems. Recently, some species of desiccation-tolerant mosses have been artificially cultured with the aim of accelerating the recovery of biocrusts. Revealing the factors that influence the vegetative propagation of mosses, which is an important reproductive mode of mosses in dry habitats, will benefit the restoration of moss crusts. In this study, three air-dried desiccationtolerant mosses (Barbula unguiculata, Didymodon vinealis, and Didymodon tectorum) were hermetically sealed and stored at five temperature levels (0, 4, 17, 25, and 30 • C) for 40 days. Then, the vegetative propagation and physiological characteristics of the three mosses were investigated to determine the influence of storage temperature on the vegetative propagation of desiccation-tolerant mosses and the mechanism. The results showed that the vegetative propagation of the three mosses varied with temperature. The most variation in vegetative propagation among storage temperatures was observed in D. tectorum, followed by the variation observed in B. unguiculata. In contrast, no significant difference in propagation among temperatures was found in D. vinealis. The regenerative capacity of the three mosses increased with increasing temperature from 0 to 17 • C, accompanied by a decrease in malondialdehyde (MDA) content, and decreased thereafter. As the temperature increased, the chlorophyll and soluble protein contents increased in B. unguiculata but decreased in D. vinealis and D. tectorum. As to storage, the MDA and soluble sugar contents increased after storage. The MDA content of the three mosses increased at each of the investigated temperatures by more than 50 % from the initial values, and the soluble sugar content became higher than before in the three mosses. The integrity of cells and cell membranes is likely the most important factor influencing the vegetative propagation of desiccation-tolerant mosses. A 40-day storage period caused cell injury. Our results suggest that storage temperature can enhance or suppress such injury and change the regenerative capacity of the three mosses. The data indicate that the suitable storage temperature is 4 • C for B. unguiculata and 17 • C for both D. vinealis and D. tectorum.

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Stereoselective Synthesis of Methyl Spongoate, a New Steroid with Potent Antitumor Activities

Gong¹,

Yao²,

Ding³

et al. 2009

Synlett

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Synthesis of Two Naturally Occurring 4-Hydroxylated Butenolides with PTP1B Inhibitory Activity

Yang

Sheng

Yue-wei³

et al. 2005

Chin. J. Chem.

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Guo Yue-wei

Effect of storage time on the physiological characteristics and vegetative regeneration of desiccation‐tolerant mosses on the Loess Plateau, China

Effects of storage temperature on the physiological characteristics and vegetative propagation of desiccation-tolerant mosses

Stereoselective Synthesis of Methyl Spongoate, a New Steroid with Potent Antitumor Activities

Synthesis of Two Naturally Occurring 4-Hydroxylated Butenolides with PTP1B Inhibitory Activity

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