Vertical Stability and the Brunt-Vaeisaela Frequency of Deep Natural Waters by the Example of Lake Baikal,Lake Tanganyika, and the World Ocean

摘要

Theoretical analysis, calculations, and comparison with the results of observations in Lake Baikal, Lake Tanganyika, and the World Ocean are performed for the vertical stability E and the Brunt-Vaeisaela frequency N in the form of N~2 with regard to all components (at the constant temperature T and the salinity S, the common adiabatic form at T, S Const). The adiabatic stability E_(ad) and the Vaeisaela frequency N in the formrnof N_(ad)~2 are always positive; at a change from the inverse to the direct temperature stratification, they have deeprnminimums reaching 10~(16) m~(-1) and 10~(-15) s~(-2) and less; the minimums have the form of a special point, a reversal point of the first kind called a "cusp." The reality of these reversal points is confirmed by the analysis of the investigation procedure, comparison with the results of previous theoretical (Sherstyankin, et al., 2007), and experimental (observations in Baikal, Shimaraev et al., 1994) works. The features of vertical profiles of E_(ad), E and N_(ad)~2, N~2, as well as the layers where the Brunt-Vaeisaela frequency is less than the inertial frequency, are studied. The analysis with regard to all components of the stability E_(ad) and the Brunt-Vaeisaela frequency N makes a great contribution to understanding of mixing processes in theoretical and experimental investigations; it is valid in all reservoirs of the Earth with inverse and direct temperature stratification, including Lake Baikal, Lake Tanganyika, and the World Ocean.