Intensity of convective motions in marine atmospheric boundary layer retrieved from ocean surface radar imagery

被引:3
作者
Mityagina, M. I. [1 ]
机构
[1] Russian Acad Sci, Inst Space Res, Moscow, Russia
来源
NONLINEAR PROCESSES IN GEOPHYSICS | 2006年 / 13卷 / 03期
关键词
D O I
10.5194/npg-13-303-2006
中图分类号
P [天文学、地球科学];
学科分类号
07 ;
摘要
The paper focuses on the occurrence and development of coherent structures observed in the atmosphere above ocean under natural conditions. Microwave imaging radars are suggested as data take instruments. The phenomena of marine atmospheric cells and rolls onset, horizontal planform, aspect ratio and scaling phenomena are examined. Convective patterns manifested in radar images and information derived on the intensity of atmospheric motion are discussed.
引用
收藏
页码:303 / 308
页数:6
相关论文
共 50 条
[41]   Characterizing the Atmospheric Boundary Layer for Offshore Wind Energy Using Synthetic Aperture Radar Imagery [J].
Stopa, Justin E. ;
Vandemark, Doug ;
Foster, Ralph ;
Emond, Marc ;
Mouche, Alexis ;
Chapron, Bertrand .
WIND ENERGY, 2024, 27 (11) :1340-1352
[42]   The estimation of surface latent heat flux over the ocean and its relationship to Marine Atmospheric Boundary Layer (MABL) structure [J].
Palm, SP ;
Schwemmer, GK ;
Vandemark, D ;
Evans, K ;
Miller, DO .
APPLICATIONS OF LIDAR TO CURRENT ATMOSPHERIC TOPICS III, 1999, 3757 :178-189
[43]   Characteristics of the Marine Atmospheric Boundary Layer Over the Southern Ocean in Response to the Synoptic Forcing [J].
Lang, F. ;
Huang, Y. ;
Siems, S. T. ;
Manton, M. J. .
JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES, 2018, 123 (15) :7799-7820
[44]   CONVECTIVE ELEMENTS IN THE MARINE ATMOSPHERIC BOUNDARY-LAYER .2. ENTRAINMENT AT THE CAPPING INVERSION [J].
KHALSA, SJS ;
GREENHUT, GK .
JOURNAL OF CLIMATE AND APPLIED METEOROLOGY, 1987, 26 (07) :824-836
[45]   CONVECTIVE ELEMENTS IN THE MARINE ATMOSPHERIC BOUNDARY-LAYER .1. CONDITIONAL SAMPLING STATISTICS [J].
GREENHUT, GK ;
KHALSA, SJS .
JOURNAL OF CLIMATE AND APPLIED METEOROLOGY, 1987, 26 (07) :813-822
[46]   Diurnal Dynamics of the Kinetic Energy in the Atmospheric Boundary Layer Retrieved from Minisodar Measurements [J].
A. I. Potekaev ;
L. G. Shamanaeva ;
V. V. Kulagina .
Russian Physics Journal, 2021, 64 :1400-1407
[47]   Atmospheric boundary layer height retrieved from CALIPSO over the South China Sea [J].
Zhou, Nan ;
Cui, Shengcheng ;
Luo, Tao ;
Zhang, Wenzhong ;
Liu, Nana ;
Zhu, Wenyue .
SIXTH SYMPOSIUM ON NOVEL OPTOELECTRONIC DETECTION TECHNOLOGY AND APPLICATIONS, 2020, 11455
[48]   Dynamics of the kinetic energy in the atmospheric boundary layer retrieved from the data of minisodar measurements [J].
Potekaev, A., I ;
Shamanaeva, L. G. ;
Kulagina, V. V. .
27TH INTERNATIONAL SYMPOSIUM ON ATMOSPHERIC AND OCEAN OPTICS, ATMOSPHERIC PHYSICS, 2021, 11916
[49]   Diurnal Dynamics of the Kinetic Energy in the Atmospheric Boundary Layer Retrieved from Minisodar Measurements [J].
Potekaev, A. I. ;
Shamanaeva, L. G. ;
Kulagina, V. V. .
RUSSIAN PHYSICS JOURNAL, 2021, 64 (08) :1400-1407
[50]   Scaling properties of velocity and temperature spectra above the surface friction layer in a convective atmospheric boundary layer [J].
McNaughton, K. G. ;
Clement, R. J. ;
Moncrieff, J. B. .
NONLINEAR PROCESSES IN GEOPHYSICS, 2007, 14 (03) :257-271
12345