FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4328119685> ?p ?o ?g. }

• W4328119685 endingPage "1680" @default.
• W4328119685 startingPage "1680" @default.
• W4328119685 abstract "Over the last five decades, Pakistan experienced its worst drought from 1998 to 2002 and its worst flood in 2010. This study determined the record-breaking impacts of the droughts (1998–2002) and the flood (2010) and analyzed the given 12-year period, especially the follow-on period when the winter wheat crop was grown. We identified the drought, flood, and warm and cold edges over the plain of Punjab Pakistan based on a 12-year time series (2003–2014), using the vegetation temperature condition index (VTCI) approach based on Aqua Moderate Resolution Imaging Spectroradiometer (MODIS) data products. During the year 2010, the Global Flood Monitoring System (GFMS) model applied to the real-time Tropical Rainfall Measuring Mission (TRMM) rainfall incorporated data products into the TRMM Multi-Satellite Precipitation Analysis (TMPA) for the flood detection/intensity, stream flow, and daily accumulative precipitation, and presented the plain provisions to wetlands. This study exhibits drought severity, warm and cold edges, and flood levels using the VTCI drought-monitoring approach, which utilizes a combination of the normalized difference vegetation index (NDVI) with land surface temperature (LST) data products. It was found that during the years 2003–2014, the VTCI had a positive correlation coefficient (r) with the cumulative precipitation (r = 0.60) on the day of the year (D-073) in the winter. In the year 2010, at D-201, there was no proportionality (nonlinear), and at D-217, a negative correlation was established. This revealed the time, duration, and intensity of the flood at D-201 and D-217, and described the heavy rainfall, stream flow, and flood events. At D-233 and D-281 during 2010, a significant positive correlation was noticed in normal conditions (r = 0.95 in D-233 and r = 0.97 in D-281 during the fall of 2010), which showed the flood events and normality. Notably, our results suggest that VTCI can be used for drought and wet conditions in both rain-fed and irrigated regions. The results are consistent with anomalies in the GFMS model using the spatial and temporal observations of the MODIS, TRMM, and TMPA satellites, which describe the dry and wet conditions, as well as flood runoff stream flow and flood detection/intensity, in the region of Punjab during 2010. It should be noted that the flood (2010) affected the area, and the production of the winter wheat crop has consistently declined from 19.041 to 17.7389 million tons." @default.
• W4328119685 created "2023-03-22" @default.
• W4328119685 creator A5042142508 @default.
• W4328119685 creator A5066604326 @default.
• W4328119685 creator A5071662846 @default.
• W4328119685 creator A5072240269 @default.
• W4328119685 creator A5075918317 @default.
• W4328119685 date "2023-03-20" @default.
• W4328119685 modified "2023-09-26" @default.
• W4328119685 title "Investigating Drought and Flood Evolution Based on Remote Sensing Data Products over the Punjab Region in Pakistan" @default.
• W4328119685 cites W1982017292 @default.
• W4328119685 cites W1987223597 @default.
• W4328119685 cites W2032013744 @default.
• W4328119685 cites W2032071354 @default.
• W4328119685 cites W2035961696 @default.
• W4328119685 cites W2080756645 @default.
• W4328119685 cites W2092803337 @default.
• W4328119685 cites W2110149554 @default.
• W4328119685 cites W2166884697 @default.
• W4328119685 cites W2169245074 @default.
• W4328119685 cites W2179472678 @default.
• W4328119685 cites W2276106573 @default.
• W4328119685 cites W2462646881 @default.
• W4328119685 cites W2512103537 @default.
• W4328119685 cites W2617169092 @default.
• W4328119685 cites W2653910225 @default.
• W4328119685 cites W2768026308 @default.
• W4328119685 cites W2897113298 @default.
• W4328119685 cites W2909974283 @default.
• W4328119685 cites W2911760140 @default.
• W4328119685 cites W2966328824 @default.
• W4328119685 cites W2970579680 @default.
• W4328119685 cites W2977093199 @default.
• W4328119685 cites W2995073613 @default.
• W4328119685 cites W3000310269 @default.
• W4328119685 cites W3014125413 @default.
• W4328119685 cites W3037999656 @default.
• W4328119685 cites W3038277988 @default.
• W4328119685 cites W3095401749 @default.
• W4328119685 cites W3129458891 @default.
• W4328119685 cites W3131360170 @default.
• W4328119685 cites W3132624777 @default.
• W4328119685 cites W3133837814 @default.
• W4328119685 cites W3134218058 @default.
• W4328119685 cites W3165424474 @default.
• W4328119685 cites W3169925973 @default.
• W4328119685 cites W3175857075 @default.
• W4328119685 cites W3189520406 @default.
• W4328119685 cites W3193418638 @default.
• W4328119685 cites W3193551670 @default.
• W4328119685 cites W3206657873 @default.
• W4328119685 cites W3208447857 @default.
• W4328119685 cites W3215831733 @default.
• W4328119685 cites W4200130918 @default.
• W4328119685 cites W4200208173 @default.
• W4328119685 cites W4210293988 @default.
• W4328119685 cites W4220714727 @default.
• W4328119685 cites W4224279530 @default.
• W4328119685 cites W4226128649 @default.
• W4328119685 cites W4283814164 @default.
• W4328119685 cites W4285395246 @default.
• W4328119685 cites W4293298379 @default.
• W4328119685 cites W4300863529 @default.
• W4328119685 cites W4323566618 @default.
• W4328119685 doi "https://doi.org/10.3390/rs15061680" @default.
• W4328119685 hasPublicationYear "2023" @default.
• W4328119685 type Work @default.
• W4328119685 citedByCount "1" @default.
• W4328119685 countsByYear W43281196852023 @default.
• W4328119685 crossrefType "journal-article" @default.
• W4328119685 hasAuthorship W4328119685A5042142508 @default.
• W4328119685 hasAuthorship W4328119685A5066604326 @default.
• W4328119685 hasAuthorship W4328119685A5071662846 @default.
• W4328119685 hasAuthorship W4328119685A5072240269 @default.
• W4328119685 hasAuthorship W4328119685A5075918317 @default.
• W4328119685 hasBestOaLocation W43281196851 @default.
• W4328119685 hasConcept C107054158 @default.
• W4328119685 hasConcept C111368507 @default.
• W4328119685 hasConcept C127313418 @default.
• W4328119685 hasConcept C127413603 @default.
• W4328119685 hasConcept C132651083 @default.
• W4328119685 hasConcept C146978453 @default.
• W4328119685 hasConcept C153294291 @default.
• W4328119685 hasConcept C1549246 @default.
• W4328119685 hasConcept C166957645 @default.
• W4328119685 hasConcept C187320778 @default.
• W4328119685 hasConcept C19269812 @default.
• W4328119685 hasConcept C205649164 @default.
• W4328119685 hasConcept C2777007095 @default.
• W4328119685 hasConcept C39432304 @default.
• W4328119685 hasConcept C49204034 @default.
• W4328119685 hasConcept C74256435 @default.
• W4328119685 hasConcept C76886044 @default.
• W4328119685 hasConceptScore W4328119685C107054158 @default.
• W4328119685 hasConceptScore W4328119685C111368507 @default.
• W4328119685 hasConceptScore W4328119685C127313418 @default.
• W4328119685 hasConceptScore W4328119685C127413603 @default.
• W4328119685 hasConceptScore W4328119685C132651083 @default.

• next