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  1. Home
  3. Uv Irradiation Behavior Of Salix Psammophila Sand Barriers In The Process Of Desertification Control.
  1. Home
  3. Uv Irradiation Behavior Of Salix Psammophila Sand Barriers In The Process Of Desertification Control.

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UV irradiation behavior of Salix psammophila sand barriers in the process of desertification control.

Ruidong Wang1, Shichao Chen1, Yong Gao1

  • 1College of Desert Control Science and Engineering, Inner Mongolia Agricultural University, Hohhot, China.

Frontiers in Plant Science
|September 30, 2024

View abstract on PubMed

Summary
This summary is machine-generated.

Ultraviolet (UV) radiation damages Salix psammophila sand barriers, primarily by altering lignin content, reducing their effectiveness in desertification control. Inhibiting lignin reactions is key to extending barrier lifespan.

Keywords:
Salix psammophila sand barriersbiological resources utilizationdesertification controlperformance degradationultraviolet irradiation

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Area of Science:

  • Environmental Science
  • Material Science
  • Botany

Background:

  • Salix psammophila sand barriers are crucial for desertification control.
  • These barriers degrade under sunlight, reducing their protective performance and lifespan.
  • Photoinduced damage from UV radiation is a significant factor in this degradation.

Purpose of the Study:

  • To investigate the mechanism of UV irradiation damage in S. psammophila sand barriers.
  • To analyze the structural and material property changes caused by UV exposure.
  • To identify strategies for prolonging the service life of these barriers.

Main Methods:

  • Simulations were used to assess accelerated UV damage effects.
  • Structural and material properties were examined after UV exposure.
  • Chemical composition changes (lignin, cellulose, hemicellulose, carbon binding) were analyzed.

    • Main Results:

    • UV irradiation causes discoloration primarily due to lignin modification.
    • Significant changes in morphology and protective performance were observed after 192 days of UV exposure.
    • Lignin, hemicellulose, and cellulose content decreased, with lignin showing the most significant reduction (23.12%).
    • UV exposure altered carbon binding forms, increasing oxidation state and binding energy.

    Conclusions:

    • UV-induced lignin modification is the main cause of S. psammophila sand barrier degradation.
    • The service life of these barriers can be extended by inhibiting UV-induced lignin reactions.
    • Understanding UV degradation mechanisms is essential for improving desertification control strategies.