TY - JOUR
T1 - Extreme zircon O isotopic compositions from 3.8 to 2.5Ga magmatic rocks from the Anshan area, North China Craton
AU - Wan, Yusheng
AU - Zhang, Yuhai
AU - Williams, Ian S.
AU - Liu, Dunyi
AU - Dong, Chunyan
AU - Fan, Runlong
AU - Shi, Yuruo
AU - Ma, Mingzhu
PY - 2013/8/16
Y1 - 2013/8/16
N2 - Most zircon from Archean (3.8-2.5Ga) trondhjemitic rocks, meta-gabbro, meta-diorite and monzogranite from the Anshan area, North China Craton, has δ18O values in the range of 4.6-7.5‰, but some has extreme compositions (0.02-11.0‰, with one value as low as -11.3‰) as a result of pre-, syn- and post-magmatic processes. Nearly all zircon grains with very low δ18O (<4.0‰) are U-rich and show evidence of radiogenic Pb loss, irrespective of their origin (magmatic, metamorphic, recrystallized, inherited or trapped). The low δ18O is not a primary feature of the zircon or the magma from which it crystallized, but is a consequence of high-temperature hydrothermal alteration, probably involving meteoric water. Radiogenic Pb loss is an indicator that the zircon O isotopic composition is likely to have been modified, even if the measured δ18O falls within, or is above, the "normal" igneous range (4.6-7.5‰). Excluding those showing strong Pb loss, most magmatic zircon grains have δ18O values in the "normal" range or only slightly above the previously reported highest δ18O value for Archean igneous zircon (7.5‰), with many, including some analyzed from Eoarchean rocks, being higher than 6.5‰, evidence for crustal reworking in the Anshan area 3.8Ga ago. The 2.5Ga Qidashan syenogranite has the highest zircon δ18O (5.8-11.0‰), consistent with its derivation by melting of sedimentary materials as a result of long-term crustal evolution in the region, as indicated by its chemical and Nd isotopic compositions.
AB - Most zircon from Archean (3.8-2.5Ga) trondhjemitic rocks, meta-gabbro, meta-diorite and monzogranite from the Anshan area, North China Craton, has δ18O values in the range of 4.6-7.5‰, but some has extreme compositions (0.02-11.0‰, with one value as low as -11.3‰) as a result of pre-, syn- and post-magmatic processes. Nearly all zircon grains with very low δ18O (<4.0‰) are U-rich and show evidence of radiogenic Pb loss, irrespective of their origin (magmatic, metamorphic, recrystallized, inherited or trapped). The low δ18O is not a primary feature of the zircon or the magma from which it crystallized, but is a consequence of high-temperature hydrothermal alteration, probably involving meteoric water. Radiogenic Pb loss is an indicator that the zircon O isotopic composition is likely to have been modified, even if the measured δ18O falls within, or is above, the "normal" igneous range (4.6-7.5‰). Excluding those showing strong Pb loss, most magmatic zircon grains have δ18O values in the "normal" range or only slightly above the previously reported highest δ18O value for Archean igneous zircon (7.5‰), with many, including some analyzed from Eoarchean rocks, being higher than 6.5‰, evidence for crustal reworking in the Anshan area 3.8Ga ago. The 2.5Ga Qidashan syenogranite has the highest zircon δ18O (5.8-11.0‰), consistent with its derivation by melting of sedimentary materials as a result of long-term crustal evolution in the region, as indicated by its chemical and Nd isotopic compositions.
KW - Anshan
KW - Archean
KW - North China Craton
KW - Oxygen isotope
KW - SHRIMP
KW - Zircon
UR - http://www.scopus.com/inward/record.url?scp=84880022605&partnerID=8YFLogxK
U2 - 10.1016/j.chemgeo.2013.06.009
DO - 10.1016/j.chemgeo.2013.06.009
M3 - Article
SN - 0009-2541
VL - 352
SP - 108
EP - 124
JO - Chemical Geology
JF - Chemical Geology
ER -