Abstract
The Tibetan Plateau (TP), known as the third pole of the Earth, has snow cover with intraseasonal to decadal variability that affects weather and climate both inside and outside the TP. However, the factors that generate the TP snow cover (TPSC) anomalies at the intraseasonal time-scale are unclear. This report reveals the influence of the Madden‒Julian oscillation (MJO), which is the most dominant component of the tropical intraseasonal variability, on TPSC. We focus on wintertime snow cover over the central and eastern TP, where the intraseasonal variability is large. TPSC increases/decreases in the MJO phases 8‒1/4–5, when the eastward-propagating MJO suppressed/enhanced convection locates over the Maritime Continent. Such a change in TPSC leads to the most dominant positive/negative anomalies of TPSC in the following phases 2‒3/6‒7 due to the non-significant change of TPSC in these phases. There is anomalous moisture advection over the upstream of the TP caused by MJO-excited large-scale atmospheric circulation. The advection process generates the low-frequency eastward-propagating anomalous water vapour from upstream to the TP that influences precipitation and, eventually, TPSC.
Highlights
We further investigated the modulation of the MJO on precipitation over the TP, which contributes to the change of TPSC
The daily all-season real-time multivariate MJO (RMM) index proposed by Wheeler and Hendon[47] was used as a measure of the MJO states
The precipitation over the TP is subsequently influenced, and TPSC is eventually affected
Summary
1. The daily all-season real-time multivariate MJO (RMM) index proposed by Wheeler and Hendon[47] was used as a measure of the MJO states. The daily RMM data are available online at http://www.cawcr.gov.au/staff/ mwheeler/maproom/RMM/. The RMM index represents the propagating feature of the MJO from the tropical Indian Ocean to the western Pacific Ocean and divides the full cycle of the MJO into eight phases. The RMM index describes an MJO cycle that generally progresses eastwards, from phase 1 to 8 and back to pha
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