Convective Aggregation and Indices Examined from CERES Cloud Object Data

Abstract: Convective aggregation is a self‐aggregation phenomenon appearing in idealized radiative‐convective equilibrium simulations under constant, uniform sea surface temperature (SST). To gain an understanding of observed convective aggregation or organization, three metrics, i.e., simple convective aggregation index (SCAI), modified SCAI (MCAI), and convective organization potential (COP), are evaluated with cloud object data from CERES. MCAI is related to object sizes through a modified inter‐object distance (IOD)… Show more

“…Quantifying organization is not straightforward (see, e.g., Figure 1 in Brueck et al, 2020), as evidenced by the various organization indices that have been proposed recently (Brune et al, 2018; Kadoya & Masunaga, 2018; Retsch et al, 2020; Tobin et al, 2012; Tompkins & Semie, 2017; White et al, 2018). Different indices emphasize distinct aspects of organization and do not necessarily agree (Pscheidt et al, 2019; Xu et al, 2019). Most organization indices have been developed to quantify convective organization at the mesoscale and not at the scale of the ITCZ.…”

A Relationship Between ITCZ Organization and Subtropical Humidity

“…Quantifying organization is not straightforward (see, e.g., Figure 1 in Brueck et al, 2020), as evidenced by the various organization indices that have been proposed recently (Brune et al, 2018; Kadoya & Masunaga, 2018; Retsch et al, 2020; Tobin et al, 2012; Tompkins & Semie, 2017; White et al, 2018). Different indices emphasize distinct aspects of organization and do not necessarily agree (Pscheidt et al, 2019; Xu et al, 2019). Most organization indices have been developed to quantify convective organization at the mesoscale and not at the scale of the ITCZ.…”

A Relationship Between ITCZ Organization and Subtropical Humidity

“…𝐿 × 1000 (4) where N and N max are the number of aggregates and the maximum number of aggregates in the domain, respectively, L is the domain's characteristic length, and D 0 is the geometric mean of distances between all available pairs of aggregates (called "order-zero diameter"). Later, Xu et al (2019) proposed the modified SCAI (MCAI) whereby D 0 was replaced by D 1 ("order-one diameter", the arithmetic mean of distances), and the aggregate size was taken into account in the distance term (i.e., "inter-object distance"; defined as D 2 by combining them).…”

“…The basic idea of SCAI is that more organized scenes are composed of fewer convective systems that are closer to each other. Subsequently, White et al (2018) and Xu et al (2019) argued that the size of each convective system should be an important element in the definition of organization metrics, and suggested the presumably superior "convective organization potential" (COP), and "modified SCAI" (MCAI) metrics, respectively. Independently, Tompkins & Semie (2017) developed an organization metric that compares the horizontal distribution of convective clouds to a purely random distribution (I org ), while Kadoya & Masunaga (2018) introduced the Morphological Index of Convective Aggregation (MICA) metric based on the area fraction occupied by convective clouds.…”

A New Organization Metric for Synoptic Scale Tropical Convective Aggregation

“…In observations, CSA is often defined by appropriate geometric indices within a square region with sides measuring about 1,000 km, using satellite data (Stein et al., 2017; Tobin et al., 2012; Xu et al., 2019). These observational studies show that with an increase in the degree of CSA, there is an increase in aridity, a decrease in cloud cover, and an increase in radiative cooling.…”

Sensitivity of the Horizontal Scale of Convective Self‐Aggregation to Sea Surface Temperature in Radiative Convective Equilibrium Experiments Using a Global Nonhydrostatic Model