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A Hydroclimatological Analysis of Precipitation in the Ganges–Brahmaputra–Meghna River Basin

dc.contributor.authorCurtis, Scott
dc.contributor.authorCrawford, Thomas W.
dc.contributor.authorRahman, Munshi
dc.contributor.authorPaul, Bimal
dc.contributor.authorMiah, M. Giashuddin
dc.contributor.authorIslam, M. Rafiqul
dc.contributor.authorPatel, Mohin
dc.date.accessioned2020-04-24T17:01:25Z
dc.date.available2020-04-24T17:01:25Z
dc.date.issued2018-09-29
dc.description.abstractUnderstanding seasonal precipitation input into river basins is important for linking large-scale climate drivers with societal water resources and the occurrence of hydrologic hazards such as floods and riverbank erosion. Using satellite data at 0.25-degree resolution, spatial patterns of monsoon (June-July-August-September) precipitation variability between 1983 and 2015 within the Ganges–Brahmaputra–Meghna (GBM) river basin are analyzed with Principal Component (PC) analysis and the first three modes (PC1, PC2 and PC3) are related to global atmospheric-oceanic fields. PC1 explains 88.7% of the variance in monsoonal precipitation and resembles climatology with the center of action over Bangladesh. The eigenvector coefficients show a downward trend consistent with studies reporting a recent decline in monsoon rainfall, but little interannual variability. PC2 explains 2.9% of the variance and shows rainfall maxima to the far western and eastern portions of the basin. PC2 has an apparent decadal cycle and surface and upper-air atmospheric height fields suggest the pattern could be forced by tropical South Atlantic heating and a Rossby wave train stemming from the North Atlantic, consistent with previous studies. Finally, PC3 explains 1.5% of the variance and has high spatial variability. The distribution of precipitation is somewhat zonal, with highest values at the southern border and at the Himalayan ridge. There is strong interannual variability associated with PC3, related to the El Nino/Southern Oscillation (ENSO). Next, we perform a hydroclimatological downscaling, as precipitation attributed to the three PCs was averaged over the Pfafstetter level-04 sub-basins obtained from the World Wildlife Fund (Gland, Switzerland). While PC1 was the principal contributor of rainfall for all sub-basins, PC2 contributed the most to rainfall in the western Ganges sub-basin (4524) and PC3 contributed the most to the rainfall in the northern Brahmaputra (4529). Monsoon rainfall within these two sub-basins were the only ones to show a significant relationship (negative) with ENSO, whereas four of the eight sub-basins had a significant relationship (positive) with sea surface temperature (SST) anomalies in the tropical South Atlantic. This work demonstrates a geographic dependence on climate teleconnections in the GBM that deserves further study.en_US
dc.identifier.doi10.3390/w10101359
dc.identifier.urihttp://hdl.handle.net/10342/8391
dc.subjectmonsoon; precipitation; ENSO; hydroclimate; Ganges; Brahmaputra; Meghna; river basinen_US
dc.titleA Hydroclimatological Analysis of Precipitation in the Ganges–Brahmaputra–Meghna River Basinen_US
dc.typeArticleen_US
ecu.journal.issue10en_US
ecu.journal.nameWateren_US
ecu.journal.pages1359en_US
ecu.journal.volume10en_US

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