Using temperature-programmed desorption (TPD) method, we have investigated the performance of one-dimensional molecular sieves to trap hydrocarbons (HCs), e.g., toluene and ethylene, after co-adsorption with 6 vol.% water vapor or 8 vol.% CO2, as well as 14 vol.% combined water-CO2 mixture. The HC trapping capacity of the non-hydrothermally treated samples was reduced by the presence of water, and this effect was much more pronounced for metalloauminophosphate (MeAPO) molecular sieves than Si-Al zeolites. CO2 was found to be a lesser inhibiting species than water in the MeAPO samples. ZSM-12, SAPO-5 and FAPO-36 were found to be hydrothermally stable up to the examined temperature of 800 degrees C, though with reduction in their trapping efficiency, whereas MAPO-5 sample collapsed under the hydrothermal conditions. Crown Copyright (c) 2010 Published by Elsevier B.V. All rights reserved.