1. Isotopic evidence for changes in the zinc cycle during Oceanic Anoxic Event 2 (Late Cretaceous)
- Author
-
Sander H. J. M. van den Boorn, Gideon M. Henderson, Don Porcelli, Maya Elrick, Tim C. Sweere, Alex Dickson, and Hugh C. Jenkyns
- Subjects
Paleontology ,010504 meteorology & atmospheric sciences ,chemistry ,Event (relativity) ,chemistry.chemical_element ,Geology ,Zinc ,010502 geochemistry & geophysics ,01 natural sciences ,Anoxic waters ,Cretaceous ,0105 earth and related environmental sciences - Abstract
Widespread deposition of organic-rich shales during the Late Cretaceous Oceanic Anoxic Event 2 (OAE 2, ca. 94 Ma) occurred during a period of significant global paleo-environmental and geochemical change. It has been proposed that an increase in nutrient input to the ocean during OAE 2 was the key mechanism that generated and sustained high rates of organic-matter burial over time scales of 103–105 yr. Zinc is a bio-essential micronutrient and the proportion of Zn burial in oxic sediments relative to burial in organic-rich continental margin sediments is reflected in its seawater isotope composition. The first Zn-isotope records dating from the Cretaceous are presented here from three coeval carbonate successions: two from Europe (southern England and southern Italy) and one from southern Mexico. The new data show reproducible stratigraphic Zn-isotope patterns in spatially and lithologically diverse carbonate successions. Excursions to lower Zn-isotope values may be linked to the input of magmatic Zn, changes in the proportion of Zn burial into organic-rich sediments, and the liberation of previously buried Zn during an episode of widespread seafloor re-oxygenation during OAE 2 (the Plenus Cold Event).
- Published
- 2018