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Record #177362:

The relationship between Tibetan snow depth, ENSO, river discharge and the monsoons of Bangladesh / Jeffery Shaman, Mark Cane, Alexey Kaplan.

Title: The relationship between Tibetan snow depth, ENSO, river discharge and the monsoons of Bangladesh / Jeffery Shaman, Mark Cane, Alexey Kaplan.
Author(s): Shaman, Jeffery.
Cane, Mark.
Kaplan, Alexey.
Date: 2005.
In: International Journal of Remote Sensing. (2005.), Vol. 26(17) (2005)
Abstract: Uses satellite-derived snow depth estimates to examine interannual variability of Bangladesh monsoon rainfall (BMR). Shows BMR uncorrelated with All-Indian Monsoon Index. Uses 9-year records of April snow-depth estimates for Himalayan region and ENSO conditions in equatorial Pacific to develop empirical model explaining high percentage of BMR interannual variability. This appears to be constrained by concurrent ENSO conditions, spring Himalayan snowpack size and land surface flooding. Similar results could not be obtained from satellite estimates of snow cover rather than snow depth.
Notes:

International Journal of Remote Sensing. Vol. 26(17) :3735-3748 (2005).

Keywords: 551.32 -- Glaciology.
556 -- Hydrology.
551.578.46 -- Snow cover and snow patches.
53.087.23 -- Remote sensing.
551.579.2 -- Water supply from snow.
551.578.42 -- Snow surveys.
551.513 -- Atmosphere, general circulation.
519.2 -- Statistical methods.
551.526 -- Water surface, temperature.
E10 -- Glaciology: snow and avalanches.
(235.24) -- Himalayas. Karakorum. Tibetan plateau.
(54) -- Indo-Pakistan sub-continent.
(265) -- Pacific Ocean.
SPRI record no.: 177362

MARCXML

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001 SPRI-177362
005 20221004211228.0
007 ta
008 221004s2005####xx#a##|##|s##|0||#0|eng#d
035 ## ‡aSPRI-177362
040 ## ‡aUkCU-P‡beng‡eaacr
100 1# ‡aShaman, Jeffery.
245 14 ‡aThe relationship between Tibetan snow depth, ENSO, river discharge and the monsoons of Bangladesh /‡cJeffery Shaman, Mark Cane, Alexey Kaplan.
260 ## ‡a[S.l.] :‡b[s.n.],‡c2005.
300 ## ‡ap. 3735-3748 :‡bdiags., tables.
500 ## ‡aInternational Journal of Remote Sensing. Vol. 26(17) :3735-3748 (2005).
520 3# ‡aUses satellite-derived snow depth estimates to examine interannual variability of Bangladesh monsoon rainfall (BMR). Shows BMR uncorrelated with All-Indian Monsoon Index. Uses 9-year records of April snow-depth estimates for Himalayan region and ENSO conditions in equatorial Pacific to develop empirical model explaining high percentage of BMR interannual variability. This appears to be constrained by concurrent ENSO conditions, spring Himalayan snowpack size and land surface flooding. Similar results could not be obtained from satellite estimates of snow cover rather than snow depth.
530 ## ‡aAlso issued online ‡uurn:doi:10.1080/01431160500185599‡uhttps://dx.doi.org/10.1080/01431160500185599
650 07 ‡a551.32 -- Glaciology.‡2udc
650 07 ‡a556 -- Hydrology.‡2udc
650 07 ‡a551.578.46 -- Snow cover and snow patches.‡2udc
650 07 ‡a53.087.23 -- Remote sensing.‡2udc
650 07 ‡a551.579.2 -- Water supply from snow.‡2udc
650 07 ‡a551.578.42 -- Snow surveys.‡2udc
650 07 ‡a551.513 -- Atmosphere, general circulation.‡2udc
650 07 ‡a519.2 -- Statistical methods.‡2udc
650 07 ‡a551.526 -- Water surface, temperature.‡2udc
650 07 ‡aE10 -- Glaciology: snow and avalanches.‡2local
651 #7 ‡a(235.24) -- Himalayas. Karakorum. Tibetan plateau.‡2udc
651 #7 ‡a(54) -- Indo-Pakistan sub-continent.‡2udc
651 #7 ‡a(265) -- Pacific Ocean.‡2udc
700 1# ‡aCane, Mark.
700 1# ‡aKaplan, Alexey.
773 0# ‡7nnas ‡tInternational Journal of Remote Sensing. ‡gVol. 26(17) (2005) ‡wSPRI-1038
916 ## ‡a2006/11/09 -- RF
917 ## ‡aUnenhanced record from Muscat, imported 2019
948 3# ‡a20221004 ‡bRF