Add to ORKGContrary to the general notion that extratropical cyclones reduce baroclinicity, the baroclinicity is found to be enhanced in the wake of the extreme winter storm Dagmar. Thus, individual storms can increase baroclinicity, yielding a pathway to secondary cyclogenesis and cyclone clustering. We use a recently introduced diagnostic for baroclinicity—the tendency equation for the isentropic slope—and found that strong diabatic heating due to moisture supply from the subtropical Atlantic led to the enhanced baroclinicity in the rear of Dagmar. Storms ensuing Dagmar benefited from this increased baroclinicity. In contrast to previous studies on the mechanisms of cyclone clustering, we only find weak evidence for Rossby wave breaking and thus pro...
On 24–25 February 2005, a significant East Coast cyclone deposited from 4 to nearly 12 in. (!10–30 c...
We introduce a novel technique in which linear regression analysis is applied to clusters of tracked...
Extratropical cyclones develop because of baroclinic instability, but their intensification is often...
Contrary to the general notion that extratropical cyclones reduce baroclinicity, the baroclinicity i...
Potential vorticity (PV) succinctly describes the evolution of large-scale atmospheric flow because ...
Midlatitude cyclones play an important role in midlatitude weather and global climate. While barocli...
Diabatic processes significantly affect the development and structure of extratropical cyclones. Pre...
The role of diabatic heating in the development and maintenance of persistent, upper-tropospheric, l...
The dynamical and microphysical properties of a well-observed cyclone from the North Atlantic Wavegu...
For the North Atlantic storm track to collocate with the ocean front, there has to be efficient rest...
Previous studies have discovered various changes that extratropical cyclones undergo due to climate ...
A novel version of the classical surface pressure tendency equation (PTE) is applied to ERA-Interim ...
Subtropical cyclones (STCs) derive a considerable portion of their energy from baroclinic and diabat...
148 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1998.The dynamical effects of diab...
Little is known about how the structure of extra-tropical cyclones will change in the future. In thi...
On 24–25 February 2005, a significant East Coast cyclone deposited from 4 to nearly 12 in. (!10–30 c...
We introduce a novel technique in which linear regression analysis is applied to clusters of tracked...
Extratropical cyclones develop because of baroclinic instability, but their intensification is often...
Contrary to the general notion that extratropical cyclones reduce baroclinicity, the baroclinicity i...
Potential vorticity (PV) succinctly describes the evolution of large-scale atmospheric flow because ...
Midlatitude cyclones play an important role in midlatitude weather and global climate. While barocli...
Diabatic processes significantly affect the development and structure of extratropical cyclones. Pre...
The role of diabatic heating in the development and maintenance of persistent, upper-tropospheric, l...
The dynamical and microphysical properties of a well-observed cyclone from the North Atlantic Wavegu...
For the North Atlantic storm track to collocate with the ocean front, there has to be efficient rest...
Previous studies have discovered various changes that extratropical cyclones undergo due to climate ...
A novel version of the classical surface pressure tendency equation (PTE) is applied to ERA-Interim ...
Subtropical cyclones (STCs) derive a considerable portion of their energy from baroclinic and diabat...
148 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1998.The dynamical effects of diab...
Little is known about how the structure of extra-tropical cyclones will change in the future. In thi...
On 24–25 February 2005, a significant East Coast cyclone deposited from 4 to nearly 12 in. (!10–30 c...
We introduce a novel technique in which linear regression analysis is applied to clusters of tracked...
Extratropical cyclones develop because of baroclinic instability, but their intensification is often...