SciCombinator

Discover the most talked about and latest scientific content & concepts.

Manganese-oxidizing photosynthesis before the rise of cyanobacteria

OPEN Proceedings of the National Academy of Sciences of the United States of America | 27 Jun 2013

JE Johnson, SM Webb, K Thomas, S Ono, JL Kirschvink and WW Fischer
Abstract
The emergence of oxygen-producing (oxygenic) photosynthesis fundamentally transformed our planet; however, the processes that led to the evolution of biological water splitting have remained largely unknown. To illuminate this history, we examined the behavior of the ancient Mn cycle using newly obtained scientific drill cores through an early Paleoproterozoic succession (2.415 Ga) preserved in South Africa. These strata contain substantial Mn enrichments (up to ∼17 wt %) well before those associated with the rise of oxygen such as the ∼2.2 Ga Kalahari Mn deposit. Using microscale X-ray spectroscopic techniques coupled to optical and electron microscopy and carbon isotope ratios, we demonstrate that the Mn is hosted exclusively in carbonate mineral phases derived from reduction of Mn oxides during diagenesis of primary sediments. Additional observations of independent proxies for O2-multiple S isotopes (measured by isotope-ratio mass spectrometry and secondary ion mass spectrometry) and redox-sensitive detrital grains-reveal that the original Mn-oxide phases were not produced by reactions with O2, which points to a different high-potential oxidant. These results show that the oxidative branch of the Mn cycle predates the rise of oxygen, and provide strong support for the hypothesis that the water-oxidizing complex of photosystem II evolved from a former transitional photosystem capable of single-electron oxidation reactions of Mn.
Tweets*
12
Facebook likes*
8
Reddit*
0
News coverage*
4
Blogs*
1
SC clicks
1
Concepts
Evolution, Oxidizing agent, Carbon, Hydrogen, Oxygen, Redox, Carbon dioxide, Photosynthesis
MeSH headings
-
comments powered by Disqus

* Data courtesy of Altmetric.com