Seawater that has been altered by reaction with basaltic basement has been sampled from Deep Sea Drilling Project
Hole 504B, located on 5.9-m.y.-old crust on the southern flank of the Costa Rica Rift. Fourteen water samples have
been collected on Legs 69, 70, and 83, both before and after renewed drilling on the latter two legs, at temperatures
from 69 to 133°C and pressures from 390 to 425 bars.
The water sampled prior to renewed drilling on Leg 83 had occupied the hole for nearly 2 yr. since it was last flushed
with surface seawater at the end of Leg 70. Despite some contamination by seawater during sampling, the composition
of two of these waters has been determined by using nitrate as a tag for the contaminant. Both the 80 and 115°C waters
have seawater chlorinity, but have lost considerable Mg, Na, K, sulfate, and 02
, and have gained Ca, alkalinity, Si, NH3
and H2S. The loss of sulfate is due to anhydrite precipitation, as indicated by the δ
34S value of the remaining dissolved
sulfate. The
87Sr/86Sr ratio has been lowered to 0.7086 for the 80°C water and 0.7078 for the 115°C water, whereas the
Sr concentration is nearly unchanged. The changes in major element composition relative to seawater are also larger for
the 115°C water, indicating that the basement formation water at this site probably varies in composition with depth.
Based on their direction relative to seawater, the compositional changes for the 80 and 115°C waters do not complement
the changes inferred for the altered rocks from Hole 504B, suggesting that the bulk composition of the altered rocks,
like their mineralogy, is largely unrelated to the present thermal and alteration regime in the hole.
The exact nature of the reacted seawaters cannot be determined yet, however. During its 2 yr. residence in the hole,
the surface seawater remaining at the end of Leg 70 would have reacted with the wall rocks and exchanged with their
interstitial formation waters by diffusion and possibly convection. How far these processes have proceeded is not yet
certain, although calculations suggest that diffusion alone could have largely exchanged the surface seawater for inter
stitial water. The δ
1 8
of the samples is indistinguishable from seawater, however, and the Δ
14C of the 80°C sample is
similar to that of ocean bottom water. Although the interpretation of these species is ambiguous, that of tritium should
not be. Tritium analyses, which are in progress, should clarify the nature of the reacted seawaters obtained from the
hole.