function ADTG = sw_adtg(S,T,P) % SW_ADTG Adiabatic temperature gradient %=========================================================================== % SW_ADTG $Id: sw_adtg.m,v 1.1 2003/12/12 04:23:22 pen078 Exp $ % Copyright (C) CSIRO, Phil Morgan 1992. % % adtg = sw_adtg(S,T,P) % % DESCRIPTION: % Calculates adiabatic temperature gradient as per UNESCO 1983 routines. % % INPUT: (all must have same dimensions) % S = salinity [psu (PSS-78) ] % T = temperature [degree C (ITS-90)] % P = pressure [db] % (P may have dims 1x1, mx1, 1xn or mxn for S(mxn) ) % % OUTPUT: % ADTG = adiabatic temperature gradient [degree_C/db] % % AUTHOR: Phil Morgan, Lindsay Pender (Lindsay.Pender@csiro.au) % % DISCLAIMER: % This software is provided "as is" without warranty of any kind. % See the file sw_copy.m for conditions of use and licence. % % REFERENCES: % Fofonoff, P. and Millard, R.C. Jr % Unesco 1983. Algorithms for computation of fundamental properties of % seawater. Unesco Tech. Pap. in Mar. Sci., No. 44, 53 pp. Eqn.(31) p.39 % % Bryden, H. 1973. % "New Polynomials for thermal expansion, adiabatic temperature gradient % and potential temperature of sea water." % DEEP-SEA RES., 1973, Vol20,401-408. %========================================================================= % Modifications % 99-06-25. Lindsay Pender, Fixed transpose of row vectors. % 03-12-12. Lindsay Pender, Converted to ITS-90. %------------- % CHECK INPUTS %------------- if nargin ~= 3 error('sw_adtg.m: Must pass 3 parameters ') end %if % CHECK S,T,P dimensions and verify consistent [ms,ns] = size(S); [mt,nt] = size(T); [mp,np] = size(P); % CHECK THAT S & T HAVE SAME SHAPE if (ms~=mt) | (ns~=nt) error('check_stp: S & T must have same dimensions') end %if % CHECK OPTIONAL SHAPES FOR P if mp==1 & np==1 % P is a scalar. Fill to size of S P = P(1)*ones(ms,ns); elseif np==ns & mp==1 % P is row vector with same cols as S P = P( ones(1,ms), : ); % Copy down each column. elseif mp==ms & np==1 % P is column vector P = P( :, ones(1,ns) ); % Copy across each row elseif mp==ms & np==ns % PR is a matrix size(S) % shape ok else error('check_stp: P has wrong dimensions') end %if %***check_stp %------------- % BEGIN %------------- T68 = 1.00024 * T; a0 = 3.5803E-5; a1 = +8.5258E-6; a2 = -6.836E-8; a3 = 6.6228E-10; b0 = +1.8932E-6; b1 = -4.2393E-8; c0 = +1.8741E-8; c1 = -6.7795E-10; c2 = +8.733E-12; c3 = -5.4481E-14; d0 = -1.1351E-10; d1 = 2.7759E-12; e0 = -4.6206E-13; e1 = +1.8676E-14; e2 = -2.1687E-16; ADTG = a0 + (a1 + (a2 + a3.*T68).*T68).*T68 ... + (b0 + b1.*T68).*(S-35) ... + ( (c0 + (c1 + (c2 + c3.*T68).*T68).*T68) ... + (d0 + d1.*T68).*(S-35) ).*P ... + ( e0 + (e1 + e2.*T68).*T68 ).*P.*P; return %==========================================================================