Science Plan (ver.2) [pdf]
Implementation Plan (ver.1.0) [pdf]
The Maritime Continent (MC), a unique mixture of land and ocean straddling the equator between the Indian and Pacific Oceans, is the largest archipelago on Earth. It is known for its complex geophysical setting, its marine and land biodiversity, and its rich human history and cultures. Sitting in the middle of the warmest body of water known as the Indian and West Pacific warm pool, the MC plays a pivotal role in the global weather-climate continuum. The complex land-sea distribution and topography make prediction of high-impact events in this region extremely challenging.
The intricacy of land, sea and terrain of the MC cultivates intriguing multi-scale variability in rainfall and in the circulation, which breeds high-impact events such as flood and drought. Predicting extreme events associated with the diurnal cycle, synoptic weather systems, the Madden-Julian Oscillation (MJO), and the monsoons is of paramount socioeconomic benefit to the region.
The MC hosts one of the major equatorial atmospheric convection centers resides. The tremendous energy released by convective condensation over the MC fuels the global atmospheric circulation. Rossby wave trains excited by MC convection emanate toward higher latitudes. The atmospheric large-scale upward motion associated with the MC convection constitutes the ascending branch of the Walker Circulation, the interannual zonal migration of which is a key ingredient of the El Nino Southern Oscillation (ENSO) variability. Teleconnections related to the MJO are strongest when its convection is centered over the MC. But the MC is a known barrier for the eastward propagation of the MJO. Atmospheric deep convection penetrating the tropopause over the MC makes it a primary spot for vigorous stratosphere-troposphere interaction. The Indonesian Throughflow (ITF), the artery connecting the tropical Pacific and Indian Oceans, is a crucial link of the ocean general circulation that affects not only properties of these two oceans but also global climate. Coastal upwelling near Sumatra is a key ingredient of the Indian Ocean Dipole (IOD), an essential feature of the regional climate.
Unfortunately, current state-of-the-art global climate models (GCMs) and numerical weather prediction (NWP) models suffer from persistent systematic errors and limited prediction skills in the MC region. They cannot reproduce the observed diurnal cycle of precipitation over the MC. They exaggerate the MJO barrier effect of the MC. They suffer from systematic dry and wet biases in precipitation in the MC region. Even models with the highest resolutions cannot reproduce observed rainfall variability and associated dynamical features in the MC region. Prediction skill of rainfall, especially its extreme events, in the MC is very limited.
"Years of the Maritime Continent (YMC)" is a two-year (July 2017 - July 2019) project. Its overarching goal is to expedite the progress of improving understanding and prediction of local multi-scale variability of the MC weather-climate systems and its global impact through observations and modeling exercises.
Institute/Agency | Facilities | Observational Target | Location | Time | Status | Contact |
---|---|---|---|---|---|---|
DOE ARM | MF2/MAOS1 C-band radar | Atmospheric convection and aerosol | Pontianak, or Makassar or Pameungpeuk, Indonesia | August 2017 - July 2018 | Proposal due May 1, 2014 | hidong Zhang czhang[at]rsmas.maimi.edu |
NASA | P-3 | Aerosol-cloud interaction | ? | Aug - Sept 2017 | Proposal due summer 2014 | Jeff Reid jeffrey.reid[at]nrlmry.navy.mil |
NCAR | S-PolKa, ISS, DOW | Atmospheric convection | ? | ? | Proposal due January 2015 | Courtney Schumacher cschu[at]tamu.edu |
NOAA | Doppler lidar | Cloud microphysics | Paired with AMF2 | ? | ? | Chistopher Williams christopher.williams[at]colorado.edu |
KIT | KITcube2 | Atmospheric convectionand aerosol | ? | ? | ? | Fink andreas.fink[at]kit.edu |
CNR | WV Raman lidar | mospheric water vapor | ? | ? | ? | Gian Liberti gianluigi.liberti[at]artov.isac.cnr.it |
JAMSTEC | X-band radar lidar | Atmospheric convection | Aimeliik | ? | ? | Kunio Yoneyama yoneyamak[at]jamstec.go.jp |
CNES | superpressure balloons (Strateole-2) | Topospheric- stratospheric interaction | Equatorial IO, MC, WP | ? | ? | Philippe Cocquerez philippe.cocquerez[at]cnes. |
JAMSTEC | R/V Mirai | Equatorial upwelling, atmospheric convection | Eastern equatorial Indian Ocean | Nov 2017 - Feb 2018 | Proposal due late 2014 | Kunio Yoneyama yoneyamak[at]jamstec.go.jp |
CSIRO | R/V Investigator | Monsoon air- sea interaction | ? | ? | ? | Susan Wijffels Susan.Wijffels[at]marine.csiro.au |
FIO | R/V Dayang #1 | upwelling | Eastern Indian Ocean | ? | ? | Weidong Yu wdyu[at]fio.org.cn |
SCSIO | R/V Shiyan-3 | Monsoon air-sea interaction | South China Sea | ? | ? | Dongxiao Wang dxwang[at]scsio.ac.cn |
LEGOS | R/V Marion Dufresne | Mixing, ITF | ? | ? | ? | Ariane Koch-Larrouy Ariane.Koch-Larrouy[at]legos.obs-mip.fr |
1 http://www.arm.gov/sites/amf/amf22 http://www.imk-tro.kit.edu/english/4635.php3 http://www.lmd.ens.fr/STRATEOLE/index.html
Pada tanggal 8 Januari hingga 8 Maret 2021 telah dilaksanakan kegiatan penelitian internasional bersama berupa Intensive Observation Period (IOP) antara Badan Meteorologi Klimatologi dan Geofisika (BMKG) dan Japan Agency for Marine-Earth ...
YMC-CSO 2021 (Years of the Maritime Continent - Cold Surge Observation 2021) merupakan fase kedua dari rangkaian kegiatan YMC fase pertama yang telah selesai dilakukan pada tahun 2017-2020. Kegiatan ini dilaksanakan atas dasar kerjasama ...
The fourth international YMC workshop was held in February 26-28, 2019 at the Institute of Environmental Science and Meteorology (IESM) / University of the Philippines (UP) in Quezon, Philippines. It was hosted by the IESM (with support from UP ...