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Record #214164:

Future changes in precipitation intensity over the Arctic projected by a global atmospheric model with a 60-km grid size / Shoji Kusunoki, Ryo Mizuta, Masahiro Hosaka.

Title: Future changes in precipitation intensity over the Arctic projected by a global atmospheric model with a 60-km grid size / Shoji Kusunoki, Ryo Mizuta, Masahiro Hosaka.
Author(s): Kusunoki, Shoji.
Mizuta, Ryo.
Hosaka, Masahiro.
Date: 2015.
In: Polar Science. (2015.), Vol. 9(3) (2015)
Abstract: Presents prediction of future changes in precipitation intensity over Arctic, based on three-member ensemble simulations using global atmospheric model with high horizontal resolution (60-km grid) for period 1872-2099. Finds that model shows good correspondence with observed current annual precipitation intensity, and horizontal transport of water vapour. Model predicts that annual precipitation and precipitation intensity averaged over Arctic will increase monotonically towards end of 21st century.
Notes:

Polar Science. Vol. 9(3) :277-292 (2015).

Keywords: 519.673 -- Modelling.
551.51 -- Atmosphere. Structure, mechanics and thermodynamics.
551.577 -- Precipitation.
D -- Atmospheric sciences.
(*3) -- Arctic regions.
SPRI record no.: 214164

MARCXML

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100 1# ‡aKusunoki, Shoji.
245 10 ‡aFuture changes in precipitation intensity over the Arctic projected by a global atmospheric model with a 60-km grid size /‡cShoji Kusunoki, Ryo Mizuta, Masahiro Hosaka.
260 ## ‡a[S.l.] :‡b[s.n.],‡c2015.
300 ## ‡ap. 277-292 :‡bcol. ill., diags., maps.
500 ## ‡aPolar Science. Vol. 9(3) :277-292 (2015).
520 3# ‡aPresents prediction of future changes in precipitation intensity over Arctic, based on three-member ensemble simulations using global atmospheric model with high horizontal resolution (60-km grid) for period 1872-2099. Finds that model shows good correspondence with observed current annual precipitation intensity, and horizontal transport of water vapour. Model predicts that annual precipitation and precipitation intensity averaged over Arctic will increase monotonically towards end of 21st century.
530 ## ‡aAlso issued online ‡uurn:doi:10.1016/j.polar.2015.08.001‡uhttps://dx.doi.org/10.1016/j.polar.2015.08.001
650 07 ‡a519.673 -- Modelling.‡2udc
650 07 ‡a551.51 -- Atmosphere. Structure, mechanics and thermodynamics.‡2udc
650 07 ‡a551.577 -- Precipitation.‡2udc
650 07 ‡aD -- Atmospheric sciences.‡2local
651 #7 ‡a(*3) -- Arctic regions.‡2udc
700 1# ‡aMizuta, Ryo.
700 1# ‡aHosaka, Masahiro.
773 0# ‡7nnas ‡tPolar Science. ‡gVol. 9(3) (2015) ‡wSPRI-178968
916 ## ‡a2015/09/28 -- JW
917 ## ‡aUnenhanced record from Muscat, imported 2019
948 3# ‡a20220926 ‡bJW