TY - CONF A1 - Major, R.P. UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-84933530778&partnerID=40&md5=c083b46e88fae62fa51ed91b10f9b95a EP - 1918 VL - 3 Y1 - 2014/// PB - Society of Petroleum Engineers SN - 9781634398350 N2 - It is well established that aragonite sediment can be rapidly cemented in near-surface diagenetic environments when exposed to meteoric (fresh) water. Indeed, there are published examples of calcite cementation of aragonite sediments that resulted in rocks hard enough to require a hammer for sampling, and some of these examples formed in time periods shorter than a human lifetime. Complete mineralogie stabilization requires longer time periods, although within meteoric phreatic lenses in humid environments alteration to 100 percent low-magnesium calcite can occur as quickly as 5, 000 years. Early lithification, especially lithification and complete mineralogie stabilization in paleophreatic lenses, has been demonstrated to produce zones within carbonate rocks that are more resistant to compaction and porosity destruction during burial than superjacent and subjacent rocks. Thus, early exposure to meteoric phreatic diagenesis is one mechanism for producing stratigraphie traps; that is, hydrocarbon reservoirs in which the trapping mechanism is not controlled by structural deformation. Copyright 2014, International Petroleum Technology Conference N1 - cited By 3; Conference of International Petroleum Technology Conference 2014 - Innovation and Collaboration: Keys to Affordable Energy, IPTC 2014 ; Conference Date: 10 December 2014 Through 12 December 2014; Conference Code:112331 ID - scholars4557 TI - Early meteoric diagenesis and porosity preservation: Stratigraphie traps in carbonate grainstones SP - 1912 KW - Calcite; Carbonate minerals; Petroleum engineering; Porosity; Stabilization KW - Carbonate rock; Humid environment; Hydrocarbon reservoir; Magnesium calcite; Near surfaces; Structural deformation; Time-periods; Trapping mechanisms KW - Sedimentology AV - none ER -