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Fosil berumur 550 juta tahun memberikan petunjuk baru
tentang pembentukan fosil
Sebuah studi baru menantang tentang bagaimana organisme kuno bertubuh lunak
menjadi bagian dari catatan fosil. Temuan menunjukkan bahwa bakteri yang
terlibat dalam pembusukan organisme yang berperan aktif dalam bagaimana fosil
terbentuk - ..... Memahami hubungan antara kerusakan dan fosilisasi akan
menginformasikan studi masa depan dan membantuan peneliti menafsirkan fosil dengan cara yang baru....read
more
......................
550-million-year-old
fossils provide new clues about fossil formation
Date:
December 18, 2014
Source:
University of
Missouri-Columbia
Summary:
A new study is
challenging accepted ideas about how ancient soft-bodied organisms become part
of the fossil record. Findings suggest that bacteria involved in the decay of
those organisms play an active role in how fossils are formed -- often in a
matter of just a few tens to hundreds of years. Understanding the relationship
between decay and fossilization will inform future study and help researchers
interpret fossils in a new way.
...........................
A new study from
University of Missouri and Virginia Tech researchers is challenging accepted
ideas about how ancient soft-bodied organisms become part of the fossil record.
Findings suggest that bacteria involved in the decay of those organisms play an
active role in how fossils are formed -- often in a matter of just a few tens
to hundreds of years. Understanding the relationship between decay and fossilization
will inform future study and help researchers interpret fossils in a new way.
"The vast majority of the fossil record is composed of bones and
shells," said James Schiffbauer, assistant professor of geological
sciences in the College of Arts and Science at MU. "Fossils of soft-bodied
animals like worms and jellyfish, however, provide our only views onto the
early evolution of animal life. Most hypotheses as to the preservation of these
soft tissues focus onpassive processes, where normal decay is halted
or impeded in some way, such as by sealing off the sediments where the animal
is buried. Our team is instead detailing a scenario where the actual decay
helped 'feed' the process turning the organisms into fossils -- in this case,
the decay of the organisms played an active role in creating
fossils."
Schiffbauer studied a type of fossil animal from the Ediacaran Period
calledConotubus, which lived more than 540 million years ago. He noted
that these fossils are either replicated by, or associated with, pyrite --
commonly called fool's gold. The tiny fossils are tube-shaped and believed to
have been composed of substances similar at least in hardness to human
fingernails. These fossilized tubes are all that remain of the soft-bodied
animals that inhabited them and most likely resembled worms or sea anemone-like
animals.
"Most of the animals that had once lived on the Earth -- with
estimates eclipsing 10 billion species -- were never preserved in the fossil
record, but in our study we have a spectacular view of a tinier fraction of
soft-bodied animals," said Shuhai Xiao, professor of geobiology at
Virginia Tech and a co-author on this study. "We asked the important
questions of how, and under what special conditions, these soft-tissued
organisms can escape the fate of complete degradation and be preserved in the
rock record."
Schiffbauer and his team performed a sophisticated suite of chemical
analyses of these fossils to determine what caused the pyrite to form. They
found that the fool's gold on the organisms' outer tube formed when bacteria
first began consuming the animal's soft tissues, with the decay actually
promoting the formation of pyrite.
"Normally, the Earth is good at cleaning up after itself,"
Schiffbauer said. "In this case, the bacteria that helped break down these
organisms also are responsible for preserving them as fossils. As the decay
occurred, pyrite began replacing and filling in space within the animal's
exoskeleton, preserving them. Additionally, we found that this process happened
in the space of a few years, perhaps even as low as 12 to 800. Ultimately,
these new findings will help scientists to gain a better grasp of why these
fossils are preserved, and what features represent the fossilization process
versus original biology, so we can better reconstruct the evolutionary tree of
life."
Story Source:
The above story is based on materials provided by University of Missouri-Columbia. The original article was written by
Fran Webber. Note: Materials may be edited for content and length.
Journal Reference:
1. James D. Schiffbauer, Shuhai Xiao, Yaoping
Cai, Adam F. Wallace, Hong Hua, Jerry Hunter, Huifang Xu, Yongbo Peng, Alan J.
Kaufman. A unifying model for Neoproterozoic–Palaeozoic exceptional
fossil preservation through pyritization and carbonaceous compression. Nature
Communications, 2014; 5: 5754 DOI: 10.1038/ncomms6754
