Australian fossil and convict history sites listed


Ediacara life forms

From the Australian Broadcasting Corporation:

Fossil sites in SA, Vic heritage listed

An ancient fossil site in the Flinders Ranges in South Australia has been added to the National Heritage List.

The Ediacara fossil site near Nilpena has been listed, along with the Yea flora fossil site in Victoria.

Terry Bailey from the Environment and Heritage Department says the Nilpena fossil site has examples of some of the oldest geology in the world.

He says protecting the site is vital to ensure a greater scientific understanding of evolution.

The Ediacara fossil site near Nilpena exposes a spectacular array of soft-bodied marine fossils,” he said.

“That’s some of the most intact evidence of the oldest multi-cellular animal life within Australia and within the world.”

Convict sites

Meanwhile 11 of Australia’s convict sites are to be nominated collectively for world heritage listing.

They include Tasmania‘s Port Arthur historic site, Fremantle Prison in Western Australia, the Hyde Park barracks in Sydney and areas of Norfolk Island.

The federal Environment and Heritage Minister, Ian Campbell, says the sites tell a unique story of the exile of convicts from one side of the world to another.

“Australia was settled with a lot of convict labour, it’s an essential part of the foundation of this young nation,” he said.

“A lot of anguish, a lot of horrible stories amongst them, but it is in fact an essential part of Australia’s history and therefore world history.”

USA: The Pacific Northwest is an amazing area for fossils: here.

5 thoughts on “Australian fossil and convict history sites listed

  1. Research shows Earth’s earliest animal ecosystem was complex and included sexual reproduction
    UC-Riverside paleontologist makes discovery using fossils excavated in South Australian outback
    Artist’s reconstruction of Funisia dorothea, showing how it may have looked.
    Click here for more information.

    RIVERSIDE, Calif. – Two paleontologists studying ancient fossils they excavated in the South Australian outback argue that Earth’s ecosystem has been complex for hundreds of millions of years – at least since around 565 million years ago, which is included in a period in Earth’s history called the Neoproterozoic era.

    Until now, the dominant paradigm in the field of paleobiology has been that the earliest multicellular animals were simple, and that strategies organisms use today to survive, reproduce and grow in numbers have arisen over time due to several factors. These factors include evolutionary and ecological pressures that both predators and competition for food and other resources have imposed on the ecosystem.

    But in describing the ecology and reproductive strategies of Funisia dorothea, a tubular organism preserved as a fossil, the researchers found that the organism had multiple means of growing and propagating – similar to strategies used by most invertebrate organisms for propagation today.

    Funisia dorothea grew in abundance, covering the seafloor, during the Neoproterozoic, a 100 million-year period ending around 540 million years ago in Earth’s history, during which no predators were around. Mary Droser, one of the paleontologists involved in the study and a professor of Earth sciences at UC Riverside, first discovered the rope-resembling organism in 2005 near Ediacara, South Australia (the site of the excavations), and gave it its name (Funisia after “rope” in Latin; dorothea after Dorothy, Droser’s mother).
    Fossil excavated in South Australia shows Funisia dorothea’s larval attachment structures.
    Click here for more information.

    “How Funisia appears in the fossils clearly shows that ecosystems were complex very early in the history of animals on Earth – that is, before organisms developed skeletons and before the advent of widespread predation,” said Droser, who was joined in the research by James G. Gehling of the South Australia Museum.

    Study results appear in the March 21 issue of Science.

    Droser and Gehling observed that Funisia appears as 30 cm-long tubes in the fossils. They also observed that the tubes commonly occur in closely-packed groups of five to fifteen individuals, displaying a pattern of propagation that often accompanies animal sexual reproduction.

    “In general, individuals of an organism grow close to each other, in part, to ensure reproductive success,” said Droser, the first author of the research paper and the chair of the Department of Earth Sciences. “In Funisia, we are very likely seeing sexual reproduction in Earth’s early ecosystem – possibly the very first instance of sexual reproduction in animals on our planet.”

    According to Droser and Gehling, the clusters of similarly sized individuals of Funisia are strongly suggestive of “spats,” huge numbers of offspring an organism gives birth to at once. Besides producing spats, the individual tubular organisms reproduced by budding, and grew by adding bits to their tips.

    “Among living organisms, spat production results almost always from sexual reproduction and only very rarely from asexual reproduction,” Droser said.
    Funisia dorothea seen branching in a fossil excavated in South Australia.
    Click here for more information.

    Rachel Wood, a paleontologist at the University of Edinburgh, United Kingdom, who was not involved in the research, said the finding shows that fundamental ecological strategies were already established in the earliest known animal communities, some 570 million years ago.

    “The fact that Funisia shows close-packed growth on the sea floor allows us to infer that this organism also reproduced sexually, producing a limited number of larval spatfalls,” she said. “This is how many primitive animals, such as sponges and corals, reproduce and grow today. So although we do not know the affinities of many of these oldest animals, we do know that their communities were structured in very similar ways to those that exist today.”

    Scientists believe that a clear picture of the early ecosystem on our planet can inform us how early life evolved, what it looked like, and how organisms respond to environmental and other changes.

    “The nature of the early ecosystem also clues us on what to look for on other planets in our search for extraterrestrial life,” Droser said.

    http://www.eurekalert.org/pub_releases/2008-03/uoc–rse031908.php

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