Here we investigate the decay patterns of the low-lying hidden strangeness nucleon resonances (≡Ns¯s) via the strangeness channels by employing the chiral Lagrangian approach, where the Ns¯s states are treated as compact pentaquark states. The S-wave decays of these states to the PB (pseudoscalar meson and baryon) and VB (vector meson and baryon) channels are studied. According to the obtained masses and decay properties, we find four states, namely, Ns¯s(1874) with quantum numbers I(JP)=1/2(1/2-), Ns¯s(1885) with I(JP)=1/2(3/2-), Ns¯s(2327) with I(JP)=1/2(1/2-), and Ns¯s(2252) with I(JP)=1/2(3/2-), may be associated with the well-established nucleon resonances N*(1895) and N*(1875) and with the resonances N*(2355) and N*(2250) newly predicted by the CLAS Collaboration, respectively. In addition, several other obtained hidden strangeness nucleon resonances may be expected to be dominant components of the predicted missing resonances in the literature. [ABSTRACT FROM AUTHOR]