Assessing the Response of the Net Primary Productivity to Snow Phenology Changes in the Tibetan Plateau: Trends and Environmental Drivers

Understanding the relationship between climate, snow cover, and vegetation Net Primary Productivity (NPP) in the Tibetan Plateau (TP) is crucial. However, the role of snow cover in influencing the NPP remains unclear. This study investigates the connection between the NPP and snow phenology (SP) acr...

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Published in	Remote sensing (Basel, Switzerland) Vol. 16; no. 19; p. 3566
Main Authors	Liu, Jiming, Shen, Lu, Chen, Zhaoming, Ni, Jingwen, Huang, Yan
Format	Journal Article
Language	English
Published	Basel MDPI AG 01.10.2024
Subjects	Climate change Computer centers Correlation analysis Datasets Environmental aspects Environmental factors Environmental impact Forecasts and trends Forests Grasslands Influence Measurement Net Primary Productivity Net Primary Productivity (NPP) path analysis Phenology Plant growth Precipitation Primary productivity (Biology) Productivity Radiation Snow Snow cover snow phenology Soil temperature Structural equation modeling Temperature Tibetan Plateau Trends Vegetation China Tibetan Plateau
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Abstract	Understanding the relationship between climate, snow cover, and vegetation Net Primary Productivity (NPP) in the Tibetan Plateau (TP) is crucial. However, the role of snow cover in influencing the NPP remains unclear. This study investigates the connection between the NPP and snow phenology (SP) across the TP from 2011 to 2020. Interannual trends were assessed using the Theil–Sen non-parametric regression approach combined with the Mann–Kendall test. Additionally, the pathways through which snow cover affects the NPP, considering various environmental factors, were analyzed using Partial Least Squares Structural Equation Modeling (PLS-SEM). Approximately 10.72% of the TP showed a significant decrease in the NPP, accompanied by advancing trends in the Snow Onset Date (SOD) and Snow End Date (SED), as well as a gradual decrease in the Snow Cover Duration (SCD). The PLS-SEM results reveal that precipitation and soil temperature significantly influenced the NPP, with total effects of 0.309 and 0.206 in the SCD structural equation. Temperature had a relatively strong indirect effect on the NPP through its influence on the SOD and SCD, contributing 16% and 10% to the total effect, respectively. Neglecting the mediating effect of SP underestimates the environmental impact on the NPP. This study highlights how environmental factors influence the NPP through snow cover changes as the biomass increases, thereby enhancing our understanding of SP’s impact on the TP.
AbstractList	Understanding the relationship between climate, snow cover, and vegetation Net Primary Productivity (NPP) in the Tibetan Plateau (TP) is crucial. However, the role of snow cover in influencing the NPP remains unclear. This study investigates the connection between the NPP and snow phenology (SP) across the TP from 2011 to 2020. Interannual trends were assessed using the Theil–Sen non-parametric regression approach combined with the Mann–Kendall test. Additionally, the pathways through which snow cover affects the NPP, considering various environmental factors, were analyzed using Partial Least Squares Structural Equation Modeling (PLS-SEM). Approximately 10.72% of the TP showed a significant decrease in the NPP, accompanied by advancing trends in the Snow Onset Date (SOD) and Snow End Date (SED), as well as a gradual decrease in the Snow Cover Duration (SCD). The PLS-SEM results reveal that precipitation and soil temperature significantly influenced the NPP, with total effects of 0.309 and 0.206 in the SCD structural equation. Temperature had a relatively strong indirect effect on the NPP through its influence on the SOD and SCD, contributing 16% and 10% to the total effect, respectively. Neglecting the mediating effect of SP underestimates the environmental impact on the NPP. This study highlights how environmental factors influence the NPP through snow cover changes as the biomass increases, thereby enhancing our understanding of SP’s impact on the TP.
Audience	Academic
Author	Huang, Yan Chen, Zhaoming Ni, Jingwen Shen, Lu Liu, Jiming
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SubjectTerms	Climate change Computer centers Correlation analysis Datasets Environmental aspects Environmental factors Environmental impact Forecasts and trends Forests Grasslands Influence Measurement Net Primary Productivity Net Primary Productivity (NPP) path analysis Phenology Plant growth Precipitation Primary productivity (Biology) Productivity Radiation Snow Snow cover snow phenology Soil temperature Structural equation modeling Temperature Tibetan Plateau Trends Vegetation
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Title	Assessing the Response of the Net Primary Productivity to Snow Phenology Changes in the Tibetan Plateau: Trends and Environmental Drivers
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