Barrier Effect of the Indo-Pacific Maritime Continent on MJO Propagation in Observations and CMIP5 Models

Guiwan Chen; Jian Ling; Chongyin Li; Yuanwen Zhang; Chidong Zhang

doi:10.1175/jcli-d-19-0771.1

Barrier Effect of the Indo-Pacific Maritime Continent on MJO Propagation in Observations and CMIP5 Models

Journal of Climate ◽

10.1175/jcli-d-19-0771.1 ◽

2020 ◽

Vol 33 (12) ◽

pp. 5173-5193 ◽

Cited By ~ 1

Author(s):

Guiwan Chen ◽

Jian Ling ◽

Chongyin Li ◽

Yuanwen Zhang ◽

Chidong Zhang

Keyword(s):

Critical Role ◽

Cmip5 Models ◽

Barrier Effect ◽

Gridded Data ◽

Physical Processes ◽

Maritime Continent ◽

Surface Evaporation ◽

Spectral Signal ◽

High Resolution Models

AbstractThis study explores possible mechanisms for the barrier effect of the Indo-Pacific Maritime Continent (MC) on MJO propagation. In particular, this study examines whether similar mechanisms can be found in both observations and CMIP5 simulations. All models simulate individual MJO events but underestimate the percentage of MJO events propagating into the MC. The simulations are grouped into the top and bottom 50% based on their capability of reproducing the MJO spectral signal. When compared with the observations, the bottom 50% of the simulations significantly underestimate the MJO strength and exaggerate the barrier effect intensity, whereas these discrepancies are not significant in the top 50% of the simulations. From the top 50% of the simulations, the MJO strength, moisture processes, and surface evaporation in the MC all play important roles in constituting the barrier effect. No such evidence is found in observations. The discrepancies may come from small observed sample size and/or misrepresentations of key physical processes in the models. A consistent result is found in the observations and simulations: Whether MJO events can cross the MC depends on the degree to which dominant precipitation over land shifts to over water in the MC as MJO convection centers approach the MC and cross it. This result emphasizes the critical role of precipitation over water in carrying convective signals of the MJO through the MC. The results suggest that diagnosing the model alone on mechanisms for the barrier effect could be misleading; further investigations using a combination of observations, global gridded data, and high-resolution models are needed.

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Role of Maritime Continent Land Convection on the Mean State and MJO Propagation

Journal of Climate ◽

10.1175/jcli-d-19-0342.1 ◽

2020 ◽

Vol 33 (5) ◽

pp. 1659-1675 ◽

Cited By ~ 2

Author(s):

Min-Seop Ahn ◽

Daehyun Kim ◽

Yoo-Geun Ham ◽

Sungsu Park

Keyword(s):

Climate Model ◽

Global Climate ◽

Global Climate Model ◽

Critical Role ◽

Moisture Gradient ◽

Moisture Distribution ◽

Boreal Winter ◽

Maritime Continent ◽

The Mean

AbstractThe Maritime Continent (MC) region is known as a “barrier” in the life cycle of the Madden–Julian oscillation (MJO). During boreal winter, the MJO detours the equatorial MC land region southward and propagates through the oceanic region. Also, about half of the MJO events that initiate over the Indian Ocean cease around the MC. The mechanism through which the MC affects MJO propagation, however, has remained unanswered. The current study investigates the MJO–MC interaction with a particular focus on the role of MC land convection. Using a global climate model that simulates both mean climate and MJO realistically, we performed two sensitivity experiments in which updraft plume radius is set to its maximum and minimum value only in the MC land grid points, making convective top deeper and shallower, respectively. Our results show that MC land convection plays a key role in shaping the 3D climatological moisture distribution around the MC through its local and nonlocal effects. Shallower and weaker MC land convection results in a steepening of the vertical and meridional mean moisture gradient over the MC region. The opposite is the case when MC land convection becomes deeper and stronger. The MJO’s eastward propagation is enhanced (suppressed) with the steeper (lower) mean moisture gradient. The moist static energy (MSE) budget of the MJO reveals the vertical and meridional advection of the mean MSE by MJO wind anomalies as the key processes that are responsible for the changes in MJO propagation characteristics. Our results pinpoint the critical role of the background moisture gradient on MJO propagation.

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Role of Diurnal Cycle in the Maritime Continent Barrier Effect on MJO Propagation in an AGCM

Journal of the Atmospheric Sciences ◽

10.1175/jas-d-20-0112.1 ◽

2021 ◽

Vol 78 (5) ◽

pp. 1545-1565

Author(s):

R. S. Ajayamohan ◽

Boualem Khouider ◽

V. Praveen ◽

Andrew J. Majda

Keyword(s):

Diurnal Cycle ◽

General Circulation ◽

Dominant Role ◽

Circulation Model ◽

Striking Difference ◽

Barrier Effect ◽

Maritime Continent ◽

Stochastic Case ◽

The Impact

AbstractThe barrier effect of the Maritime Continent (MC) in stalling or modifying the propagation characteristics of the MJO is widely accepted. The strong diurnal cycle of convection over the MC is believed to play a dominant role in this regard. This hypothesis is studied here, with the help of a coarse-resolution atmospheric general circulation model (AGCM). The dry dynamical core of the AGCM is coupled to the multicloud parameterization piggybacked with a dynamical bulk boundary layer model. A set of sensitivity experiments is carried out by systematically varying the strength of the MC diurnal flux to assess the impact of the diurnal convective variability on the MJO propagation. The effects of deterministic and stochastic diurnal forcings on MJO characteristics are compared. It is found that the precipitation and zonal wind variance, on the intraseasonal time scales, over the western Pacific region decreases with the increase in diurnal forcing, indicating the blocking of MC precipitation. An increase in precipitation variance over the MC associated with the weakening of precipitation variance over the west Pacific is evident in all experiments. The striking difference between deterministic and stochastic diurnal forcing experiments is that the strength needed for the deterministic case to achieve the same degree of blocking is almost double that of stochastic case. The stochastic diurnal flux over the MC seems to be more detrimental in blocking the MJO propagation. This hints at the notion that the models with inadequate representation of organized convection tend to suffer from the MC-barrier effect.

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Possible Role of the Diurnal Cycle in Land Convection in the Barrier Effect on the MJO by the Maritime Continent

Geophysical Research Letters ◽

10.1029/2019gl081962 ◽

2019 ◽

Vol 46 (5) ◽

pp. 3001-3011 ◽

Cited By ~ 16

Author(s):

Jian Ling ◽

Chidong Zhang ◽

Robert Joyce ◽

Ping‐ping Xie ◽

Guiwan Chen

Keyword(s):

Diurnal Cycle ◽

Barrier Effect ◽

Maritime Continent

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From Nano-Gels to Marine Snow: A Synthesis of Gel Formation Processes and Modeling Efforts Involved with Particle Flux in the Ocean

Gels ◽

10.3390/gels7030114 ◽

2021 ◽

Vol 7 (3) ◽

pp. 114

Author(s):

Antonietta Quigg ◽

Peter H. Santschi ◽

Adrian Burd ◽

Wei-Chun Chin ◽

Manoj Kamalanathan ◽

...

Keyword(s):

Critical Role ◽

Formation Processes ◽

Marine Snow ◽

Physical Processes ◽

Exopolymeric Substances ◽

Basin Scale ◽

New Research ◽

The Relationship ◽

Micro Elements

Marine gels (nano-, micro-, macro-) and marine snow play important roles in regulating global and basin-scale ocean biogeochemical cycling. Exopolymeric substances (EPS) including transparent exopolymer particles (TEP) that form from nano-gel precursors are abundant materials in the ocean, accounting for an estimated 700 Gt of carbon in seawater. This supports local microbial communities that play a critical role in the cycling of carbon and other macro- and micro-elements in the ocean. Recent studies have furthered our understanding of the formation and properties of these materials, but the relationship between the microbial polymers released into the ocean and marine snow remains unclear. Recent studies suggest developing a (relatively) simple model that is tractable and related to the available data will enable us to step forward into new research by following marine snow formation under different conditions. In this review, we synthesize the chemical and physical processes. We emphasize where these connections may lead to a predictive, mechanistic understanding of the role of gels in marine snow formation and the biogeochemical functioning of the ocean.

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Barrier Effect on MJO Propagation by the Maritime Continent in the MJO Task Force/GEWEX Atmospheric System Study Models

Journal of Climate ◽

10.1175/jcli-d-18-0870.1 ◽

2019 ◽

Vol 32 (17) ◽

pp. 5529-5547 ◽

Cited By ~ 4

Author(s):

Jian Ling ◽

Yuqing Zhao ◽

Guiwan Chen

Keyword(s):

General Circulation ◽

Task Force ◽

General Circulation Models ◽

Boreal Winter ◽

Barrier Effect ◽

System Study ◽

Maritime Continent ◽

Walker Cell ◽

Blocking Effects

ABSTRACTThe simulated Madden–Julian oscillation (MJO) events in 27 general circulation models (GCMs) are identified using an MJO tracking method. The results suggest that the occurrence frequencies of simulated MJO events can represent a model’s ability to simulate several characteristics of the MJO to a certain extent during boreal winter, such as propagation range, strength, and termination longitude. All tracked MJO events are classified into those that propagate through the Maritime Continent (MC) (MJO-C) and those that do not (MJO-B), and the weakening and blocking effects on MJO propagation by the MC in GCMs were quantified. In general, if a GCM shows a stronger weakening effect on MJO strength over the MC, it tends to produce a stronger blocking effect on MJO propagation over the MC during boreal winter. The barrier effect of the MC on MJO propagation is exaggerated in most GCMs, while it can be underestimated in some GCMs, especially the coupled GCMs. Strong lower-tropospheric premoistening is identified ahead of the MJO convection center when it is over the central MC for MJO-C but not for MJO-B in most GCMs. Such strong premoistening is mainly attributed to the zonal gradient of lower-tropospheric easterly anomalies within the front Walker cell, which could be a precursor leading to the eastward propagation of MJO convection. In contrast to the observation, the role of the background sea surface temperature and land–sea precipitation contrast in the barrier effect on MJO propagation by the MC is not well captured by most GCMs.

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The Role of the SLP in Autism Spectrum Disorder Screening and Assessment

Perspectives on Language Learning and Education ◽

10.1044/lle15.2.50 ◽

2008 ◽

Vol 15 (2) ◽

pp. 50-59 ◽

Cited By ~ 1

Author(s):

Amy Philofsky

Keyword(s):

Language Development ◽

Critical Role ◽

Children With Autism ◽

Autism Spectrum ◽

Children With Asd ◽

Prevalence Estimates ◽

Notable Increase ◽

Screening Assessment ◽

Critical Components

AbstractRecent prevalence estimates for autism have been alarming as a function of the notable increase. Speech-language pathologists play a critical role in screening, assessment and intervention for children with autism. This article reviews signs that may be indicative of autism at different stages of language development, and discusses the importance of several psychometric properties—sensitivity and specificity—in utilizing screening measures for children with autism. Critical components of assessment for children with autism are reviewed. This article concludes with examples of intervention targets for children with ASD at various levels of language development.

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