The fragmentation cross-section of the Fe(H2O)1, 2+, Co(H2O)1, 2+ and Au(H2O)1, 2+ ions were measured, as a function of the collision energy. Threshold energies of 1.4-0.2 eV, 1.4-0.2 eV and 1.7-0.1 eV were measured for the monohydrated Fe+, Co+ and Au+ ions respectively, in fair agreement with the existing literature. Small threshold energies of 0.7-0.2 eV, 0.7-0.2 eV and 0.5-0.1 eV were found for the Fe(H2O)2+, Co(H2O)2+ and Au(H2O)2+ clusters respectively. Secondary thresholds were observed on the cross-section, respectively at 1.7-0.3 eV and 2.0-0.2 eV for the Co(H2O)2+ and Au(H2O)2+ clusters. This double threshold behavior could be attributed to the presence of two kinds of isomers in the beam. The upper threshold is associated with clusters where both water molecules are linked to the metal ion (first solvation shell), whereas the lower threshold corresponds to clusters with one water molecule in the first solvation shell and the other in the second shell. Such an analysis documents the binding energy of either a first shell or a second shell water molecule in the M(H2O)2+ cluster ions.