Since commissioning in late 1997, heat-depleted wastewaters from Rotokawa power station have been reinjected into a shallow two-phase aquifer, which is separated by a low-permeability zone from the deeper exploited reservoir. Gravity changes for 1997-2003 show a large positive (341 mu gal), near-circular anomaly, centred near the reinjection wells. Modelling shows that the anomaly is associated mainly with the introduction of the cooler reinjected waters into the reinjection aquifer, resaturating the pores by displacing steam. The region of liquid resaturation had the shape of a cone of impression, which reached from the bottom of the reinjection aquifer up to shallow (100-200m) depths. The gravity changes represent a net mass gain of 8.6 million tonnes and the near-circular shape indicates that the horizontal permeability of the resaturated region was isotropic. Gravity changes for 2003-2004 occurred at most of the points that previously had large gravity increases, however, the region of the gravity increases is not radially symmetrical, suggesting that resaturation had become anisotropic in the horizontal plane. Modelling also suggests that the cone of impression had not increased in height during 2003-2004 but had expanded laterally by up to 30m, except in a southerly direction, where it may have extended up to 2 km. The repeat gravity measurements were the key to understanding the directions taken by the injectate as it flowed through the system, and explained the increased pressure in the reinjection aquifer. Shallow reinjection is unsustainable in the long-term because the two-phase zone would eventually become liquid-saturated. Deep reinjection was therefore initiated in two wells on the westem margin of the reservoir in 2005. (C) 2007 CNR. Published by Elsevier Ltd. All rights reserved.