SU(3) BREAKING IN NEUTRAL-CURRENT AXIAL MATRIX-ELEMENTS AND THE SPIN CONTENT OF THE NUCLEON

We examine the effects of SU(3) breaking in the matrix elements of the flavor-diagonal axial-vector currents between octet baryon states. Ou r calculations of K, eta, and pi loops indicate that the SU(3) breakin g may be substantial for some matrix elements and at thr very least in dicate large uncertainties. In particular, the strange axial matrix el ement in the proton determined from the measurements of g(1)(x) is fou nd to have large uncertainties and might yet be zero. We estimate the strange axial matrix element in the proton to be -0.35 less than or si milar to Delta s less than or similar to 0 and the matrix element of t he flavor-singlet current in the pluton to be -0.1 less than or simila r to Sigma less than or similar to +0.3 from the E143 measurement of i ntegral dxg(1)(x) = 0.127 +/- 0.004 +/- 0.010. The up-quark content of the Xi(-) is discussed and its implications for nonleptonic weak proc esses discussed. We also estimate the matrix element of the axial-vect or current coupling to the Z(0) between all octet baryon states. This may be important for neutrino interactions in dense nuclear environmen ts, where hyperons may play an important role.