Publications by authors named "Weishan Lin"
Article Synopsis
- The study highlights the significant role of plant species diversity in alpine meadows on the Qinghai-Tibet Plateau, particularly in response to various levels of nitrogen addition.
- The research found that moderate nitrogen addition (30 g N/m²) improved species diversity, while excess nitrogen (60 g N/m²) led to a decline in diversity and increased competition among plant species.
- The results indicate that while grasses benefit from higher nitrogen levels, leading to increased niche width and reduced overlap with other species, this also intensifies interspecific competition and alters community dynamics.
Despite extensive research on the impact of warming and nitrogen deposition on soil organic carbon components, the response mechanisms of microbial community composition and enzyme activity to soil organic carbon remain poorly understood. This study investigated the effects of warming and nitrogen deposition on soil organic carbon components in the Tibetan Plateau alpine meadow and elucidated the regulatory mechanisms of microbial characteristics, including soil microbial community, enzyme activity, and stoichiometry, on organic carbon components. Results indicated that both warming and nitrogen deposition significantly increased soil organic carbon, readily oxidizable carbon, dissolved organic carbon, and microbial biomass carbon.
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- Hyperselective neurectomy is a surgical treatment for shoulder spasticity that targets the thoracodorsal nerve, with a study aimed at understanding its anatomical features and evaluating patient outcomes.
- An anatomical study on cadavers found that the thoracodorsal nerve often branches in a variable pattern, with one medial branch being the most common, and the entry points of these branches differing significantly.
- Results from five patients who had the procedure showed substantial improvements in shoulder mobility, with increases in active and passive range of motion and reduced spasticity levels according to the modified Ashworth scale.
Restoring limb movements after central nervous system injury remains a substantial challenge. Recent studies proved that crossing nerve transfer surgery could rebuild physiological connectivity between the contralesional cortex and the paralyzed arm to compensate for the lost function after brain injury. However, the neural mechanism by which this surgery mediates motor recovery remains still unclear.
View Article and Find Full Text PDFSince 2016, frequent outbreaks of egg-reducing syndromes caused by an unknown virus in duck farms have resulted in huge economic losses in China. The causative virus was isolated and identified as a novel species in Avihepatovirus of the picornavirus family according to the current guidelines of the International Committee on Taxonomy of Viruses (ICVT), and was named the duck egg-reducing syndrome virus (DERSV). The DERSV was most closely related to wild duck avihepatovirus-like virus (WDALV) with 64.
View Article and Find Full Text PDFCrossing nerve transfer surgery has been a powerful approach for repairing injured upper extremities in patients with brachial plexus avulsion injuries. Recently, this surgery was creatively applied in the clinical treatment of brain injury and achieved substantial rehabilitation of the paralyzed arm. This functional recovery after the surgery suggests that peripheral sensorimotor intervention induces profound neuroplasticity to compensate for the loss of function after brain damage; however, the underlying neural mechanism is poorly understood.
View Article and Find Full Text PDFH6 subtype avian influenza viruses spread widely in birds and pose potential threats to poultry and mammals, even to human beings. In this study, the evolution and pathogenicity of H6 AIVs isolated in live poultry markets from 2011 to 2017 were investigated. These H6 isolates were reassortant with other subtypes of influenza virus with increasing genomic diversity.
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