An uncorrelated jet model, with randomly oriently jet axis and parameters as determined from high-energy hadronie interactions, is applied to e+e- annihilation. The resulting features (multiplicities, spectra, correlations, branching ratios) are calculated both at finite c.m.s. energies ((3/5)Ge V)and asymptotically, in order to study the approach to asymptotic behaviour expected for quark, parton and similar models. It is shown that such descriptions, were the jet structure is the same as in hadron-hadron interactions, lead for cinematic reasons to very late scaling of the inclusive hadron distribution. Our results are compared with cluster models for e+e-annihilation and with data.