Spatiotemporal Variation and Driving Factors Analysis of Net Primary Productivity in the Qinling Mountains

Net Primary Productivity (NPP) reflects the net growth of plant biomass via photosynthesis, essential for evaluating ecosystem functions, biodiversity, and carbon cycling. This study on the Qinling region’s NPP, using NASA’s MOD17A3HGF data on the GEE platform, applied statistical methods like Theil...

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Veröffentlicht in:	Contemporary problems of ecology 2024-12, Vol.17 (6), p.936-947
Hauptverfasser:	Yuke Liu, Huang, Chenlu, Chen, Chen, Yang, Chun, Huang, Weidong
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Sprache:	eng
Schlagworte:	Biodiversity Biomedical and Life Sciences carbon Carbon cycle Climate adaptation Climate change Ecological function Ecology ecosystems Environmental restoration Evapotranspiration humans issues and policy Land conservation land restoration Life Sciences Mountains Net Primary Productivity Photosynthesis phytomass Plant biomass Plant growth Solar radiation Statistical methods temperature Trend analysis
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container_title	Contemporary problems of ecology
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creator	Yuke Liu Huang, Chenlu Chen, Chen Yang, Chun Huang, Weidong
description	Net Primary Productivity (NPP) reflects the net growth of plant biomass via photosynthesis, essential for evaluating ecosystem functions, biodiversity, and carbon cycling. This study on the Qinling region’s NPP, using NASA’s MOD17A3HGF data on the GEE platform, applied statistical methods like Theil-Sen trend analysis and Mann-Kendall trend test. Results showed a steady annual NPP increase from 2001 to 2020, with a stable pattern (CV of 0.102) and a growth rate of 10.02 gC/(m –2 a –1 ). The Hurst index suggested a future positive NPP trend. NPP in Qinling was influenced by elevation and affected by climate change (23.16%) and human activities (76.84%). Solar radiation and precipitation positively correlated with NPP, while temperature and evapotranspiration had negative impacts. Human interventions, particularly land restoration, significantly enhanced NPP, especially in eastern Qinling. These findings underline the importance of ecological conservation and provide a basis for future policy and climate change adaptation strategies.
doi_str_mv	10.1134/S1995425524700689
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Probl. Ecol</addtitle><description>Net Primary Productivity (NPP) reflects the net growth of plant biomass via photosynthesis, essential for evaluating ecosystem functions, biodiversity, and carbon cycling. This study on the Qinling region’s NPP, using NASA’s MOD17A3HGF data on the GEE platform, applied statistical methods like Theil-Sen trend analysis and Mann-Kendall trend test. Results showed a steady annual NPP increase from 2001 to 2020, with a stable pattern (CV of 0.102) and a growth rate of 10.02 gC/(m –2 a –1 ). The Hurst index suggested a future positive NPP trend. NPP in Qinling was influenced by elevation and affected by climate change (23.16%) and human activities (76.84%). Solar radiation and precipitation positively correlated with NPP, while temperature and evapotranspiration had negative impacts. Human interventions, particularly land restoration, significantly enhanced NPP, especially in eastern Qinling. 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Solar radiation and precipitation positively correlated with NPP, while temperature and evapotranspiration had negative impacts. Human interventions, particularly land restoration, significantly enhanced NPP, especially in eastern Qinling. These findings underline the importance of ecological conservation and provide a basis for future policy and climate change adaptation strategies.</abstract><cop>Moscow</cop><pub>Pleiades Publishing</pub><doi>10.1134/S1995425524700689</doi><tpages>12</tpages></addata></record>
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subjects	Biodiversity Biomedical and Life Sciences carbon Carbon cycle Climate adaptation Climate change Ecological function Ecology ecosystems Environmental restoration Evapotranspiration humans issues and policy Land conservation land restoration Life Sciences Mountains Net Primary Productivity Photosynthesis phytomass Plant biomass Plant growth Solar radiation Statistical methods temperature Trend analysis
title	Spatiotemporal Variation and Driving Factors Analysis of Net Primary Productivity in the Qinling Mountains
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