FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4308442046> ?p ?o ?g. }

• W4308442046 endingPage "5580" @default.
• W4308442046 startingPage "5580" @default.
• W4308442046 abstract "Climate change is known to significantly affect vegetation development in the terrestrial system. Because Southwest China (SW) is affected by westerly winds and the South and East Asian monsoon, its climates are complex and changeable, and the time lag effect of the vegetation’s response to the climate has been rarely considered, making it difficult to establish a link between the SW region’s climate variables and changes in vegetation growth rate. This study revealed the characteristics of the time lag reaction and the phased changes in the response of vegetation to climate change across the entire SW and the typical climate type core area (CA) using the moving average method and multiple linear model based on the climatic information of CRU TS v. 4.02 from 1982 to 2017 together with the annual maximum (P100), upper quarter quantile (P75), median (P50), lower quarter quantile (P25), minimum (P5), and mean (Mean) from GIMMS NDVI. Generally, under the single and combined effects of temperature and precipitation, taking the time lag effect (annual and interannual delay effect) into account significantly improved the average prediction rates of temperature and precipitation, which increased by 18.48% and 25.32%, respectively. The optimal time delay was 0–4 months when the annual delay was taken into consideration, but it differed when considering the interannual delay, and the delaying effect of precipitation was more significant than that of temperature. Additionally, the response intensity of vegetation to temperature, precipitation, and their interaction was significantly more robust when the annual delay was taken into account than when it was not (p < 0.05), with corresponding multiple correlation coefficients of 0.87 and 0.91, respectively. However, the degree of response to the combined effect of individual effects and climate factors tended to decrease regardless of whether time delay effects were taken into account. A more comprehensive analysis of the effects of climate change on vegetation development dynamics suggested that the best period for synthesizing NDVI annual values might be the P25 period. Our study could provide a new theoretical framework for analyzing, predicting, and evaluating the dynamic response of vegetation growth to climate change." @default.
• W4308442046 created "2022-11-11" @default.
• W4308442046 creator A5020199060 @default.
• W4308442046 creator A5025802135 @default.
• W4308442046 creator A5077545594 @default.
• W4308442046 date "2022-11-04" @default.
• W4308442046 modified "2023-10-01" @default.
• W4308442046 title "The Time Lag Effect Improves Prediction of the Effects of Climate Change on Vegetation Growth in Southwest China" @default.
• W4308442046 cites W1901442568 @default.
• W4308442046 cites W1918040380 @default.
• W4308442046 cites W1982518595 @default.
• W4308442046 cites W2003407464 @default.
• W4308442046 cites W2005471402 @default.
• W4308442046 cites W2011315907 @default.
• W4308442046 cites W2013812000 @default.
• W4308442046 cites W2034672914 @default.
• W4308442046 cites W2037419481 @default.
• W4308442046 cites W2038215949 @default.
• W4308442046 cites W2039361154 @default.
• W4308442046 cites W2053765265 @default.
• W4308442046 cites W2056946036 @default.
• W4308442046 cites W2114848721 @default.
• W4308442046 cites W2115290239 @default.
• W4308442046 cites W2130876756 @default.
• W4308442046 cites W2146291203 @default.
• W4308442046 cites W2169995519 @default.
• W4308442046 cites W2211764928 @default.
• W4308442046 cites W2280527887 @default.
• W4308442046 cites W2283727311 @default.
• W4308442046 cites W2320370918 @default.
• W4308442046 cites W2581586597 @default.
• W4308442046 cites W2607277383 @default.
• W4308442046 cites W2768541539 @default.
• W4308442046 cites W2791266865 @default.
• W4308442046 cites W2792704478 @default.
• W4308442046 cites W2801514443 @default.
• W4308442046 cites W2803946596 @default.
• W4308442046 cites W2892606152 @default.
• W4308442046 cites W2898795138 @default.
• W4308442046 cites W2916721576 @default.
• W4308442046 cites W2924734040 @default.
• W4308442046 cites W2950533160 @default.
• W4308442046 cites W2969675905 @default.
• W4308442046 cites W2974104986 @default.
• W4308442046 cites W2990323597 @default.
• W4308442046 cites W3000945211 @default.
• W4308442046 cites W3005984909 @default.
• W4308442046 cites W3017304892 @default.
• W4308442046 cites W3019189315 @default.
• W4308442046 cites W3047749037 @default.
• W4308442046 cites W3082507824 @default.
• W4308442046 cites W3088780508 @default.
• W4308442046 cites W3114983630 @default.
• W4308442046 cites W3186697545 @default.
• W4308442046 cites W4288429875 @default.
• W4308442046 doi "https://doi.org/10.3390/rs14215580" @default.
• W4308442046 hasPublicationYear "2022" @default.
• W4308442046 type Work @default.
• W4308442046 citedByCount "4" @default.
• W4308442046 countsByYear W43084420462023 @default.
• W4308442046 crossrefType "journal-article" @default.
• W4308442046 hasAuthorship W4308442046A5020199060 @default.
• W4308442046 hasAuthorship W4308442046A5025802135 @default.
• W4308442046 hasAuthorship W4308442046A5077545594 @default.
• W4308442046 hasBestOaLocation W43084420461 @default.
• W4308442046 hasConcept C107054158 @default.
• W4308442046 hasConcept C111368507 @default.
• W4308442046 hasConcept C127313418 @default.
• W4308442046 hasConcept C132651083 @default.
• W4308442046 hasConcept C134306372 @default.
• W4308442046 hasConcept C136996986 @default.
• W4308442046 hasConcept C142724271 @default.
• W4308442046 hasConcept C153294291 @default.
• W4308442046 hasConcept C1549246 @default.
• W4308442046 hasConcept C160467669 @default.
• W4308442046 hasConcept C205649164 @default.
• W4308442046 hasConcept C2776133958 @default.
• W4308442046 hasConcept C2780030769 @default.
• W4308442046 hasConcept C2987767877 @default.
• W4308442046 hasConcept C31258907 @default.
• W4308442046 hasConcept C33923547 @default.
• W4308442046 hasConcept C39432304 @default.
• W4308442046 hasConcept C41008148 @default.
• W4308442046 hasConcept C42683663 @default.
• W4308442046 hasConcept C49204034 @default.
• W4308442046 hasConcept C71924100 @default.
• W4308442046 hasConcept C75778745 @default.
• W4308442046 hasConcept C91586092 @default.
• W4308442046 hasConceptScore W4308442046C107054158 @default.
• W4308442046 hasConceptScore W4308442046C111368507 @default.
• W4308442046 hasConceptScore W4308442046C127313418 @default.
• W4308442046 hasConceptScore W4308442046C132651083 @default.
• W4308442046 hasConceptScore W4308442046C134306372 @default.
• W4308442046 hasConceptScore W4308442046C136996986 @default.
• W4308442046 hasConceptScore W4308442046C142724271 @default.
• W4308442046 hasConceptScore W4308442046C153294291 @default.
• W4308442046 hasConceptScore W4308442046C1549246 @default.
• W4308442046 hasConceptScore W4308442046C160467669 @default.

• next