spectral slopes and peaks: moored observations of internal waves in the ocean hans van haren
DESCRIPTION
Spectral slopes and peaks: moored observations of internal waves in the ocean Hans van Haren. Internal Wave Band –GM--continuum. Garrett and Munk ( 1972 ) model internal waves: Simplified density model Smooth, horizontal, reflecting sea floor - PowerPoint PPT PresentationTRANSCRIPT
NIOZ is part of the Netherlands Organisation for Scientific Research (NWO)
Koninklijk Nederlands Instituut voor ZeeonderzoekRoyal Netherlands Institute for Sea Research
Spectral slopes and peaks: moored observations of internal waves in the ocean
Hans van Haren
Internal Wave Band –GM--continuum
Garrett and Munk (1972) model internal waves:
Simplified density model
Smooth, horizontal, reflecting sea floor
No tides, nonlinear effects, current shear, horizontal Coriolis, etc.
Kinematics: N-scaling spectrum?
Internal wave ‘continuum’:
Depends on smoothing: no deep gaps? Above noise floor?
Internal ‘inertio-gravity’ wave frequency () band:
f < < N f vert. Cor. Par.; N buoy. freq.
min < f, N < max incl. fh hor. Cor. Par.
0 < < 2 for N = 0
Bay of Biscay ~45N
Yearlong data : Ek- and polarization spectra Special band f-S2 (Levine 2002)=2:
a change in baseline slope higher harmonics dominate
-1 slope: intermittency?
CR: 1 = circular; 0 =rectilinearGonella (1972)
Algerian Basin ~38N
change in baseline slope: caused by ‘background’, ‘buoyancy
subrange’?
IWB-boundaries: inertial shear (e.g. Pinkel JPO2008)
Canary Basin: ~30N
Ek
S
Inertial shear due to short scales?
sub-inertial shear
Latitude dependence inertial shear (Hibiya et al. 2002)
North-Atlantic Ocean: Inertial shear dominance ~30NPSI/SR but additional process?
Sub-and super-f distribution
Irminger Sea: ~59N Sub-f down; Super-f upSmearing due to small-scale N-steps?
down
up
Non-traditional IGW-bounds min < f; max > N N ~ f
Small-scale stratification layers z = O(1 m)
U(f)
U(D2)
N/f
Large-scale stratification layers z = O(100 m)
Algerian Basin: ~38N
Newly formed water mass 2006
1997
Change in inertial polarization/NGyroscopic gravity waves?
Nonzero w(f) Discrete stratification?S vs N
g
1
2
1<2
fhf
Slantwise stability
Directly observed w-spectra: the importance of N
(Pinkel 1981)
wADCP
N-distribution z=1m
Great Meteor Seamnt: 30N Coupling of w(N) and S(f)?
eADCP
Plankton motions: diurnal + hh
w
S
Yearlong open ocean w-spectra: the importance of N
130 m coherent wT
w=-T/t/(dT/dz)
N-distribution
Madeira Basin: ~32N Relation w(N) and steps: filling continuum?
QuestionsQuestions??
Layer dynamics: Internal waves in the Canary Basin (50 days out of 530)
(Louis Gostiaux/Martin Laan)
Open ocean coherence: importance of 2N
Madeira Basin: ~32N Coherence: IGW 0-phase diff.2N: 180-phase diff shear driven?
z(m)
Yearlong open ocean NIOZ3 T-spectra:
Madeira Basin: ~32N -1 slope Temperature spectra