Scientists share multidisciplinary discoveries at 'Earth System Processes'

Contents

I. Introduction
II. Session Highlights
III. Support for Journalists

(I)

Focusing on integrative approaches, scientists will explore new findings on the rise of oxygen, biotic recovery from extinctions, human impact on the Earth, hydrothermal systems, and other topics at Earth Systems Processes, June 24-28, 2001, in Edinburgh, Scotland. The Geological Society of America (GSA) and the Geological Society of London (GSL), will co-convene the meeting at the Edinburgh International Conference Centre.

Overviews and highlights of "Archean Earth and Contemporary Life: The Transition from an Anaerobic to an Aerobic Marine Ecosystem," "Controls on Phanerozoic Diversifications and Extinctions: Long-Term Interactions Between the Physical and Biotic Realms," "Anthropogenic Modifications to the Earth System," and "Role of Hydrothermal Systems in Biospheric Evolution" are provided in Section II. Links to the abstracts and scientist contact information for these sessions are included. To access the technical program in its entirety, click on the link at the bottom of any session page. PLEASE NOTE THAT ALL PRESENTATIONS ARE EMBARGOED UNTIL THE DATE OF THEIR DELIVERY AT THE MEETING.

We welcome qualified media to attend, for a single day or for the entire meeting. American journalists should contact Ann Cairns, Director of Communications at the Geological Society of America. European journalists should contact Dr. Ted Nield, Science and Communications Officer at the Geological Society of London. GSA and GSL will provide an onsite newsroom beginning Monday, June 25. See Section III for complete contact information and other details.

(II)

SESSION 23: ARCHEAN EARTH AND CONTEMPORARY LIFE: THE TRANSITION FROM AN ANAEROBIC TO AN AEROBIC MARINE ECOSYSTEM.
Tuesday, June 26

Abstracts: http://gsa.confex.com/gsa/2001ESP/finalprogram/session_182.htm. Poster Session 30 Abstracts: http://gsa.confex.com/gsa/2001ESP/finalprogram/session_996.htm.

Can you imagine our world being devoid of oxygen for almost half of its history? And suddenly there's an abrupt rise at ~2 ga? This amazing picture of our Earth is finding increasing support from rock record geologic data.

"But what intrigues physical and biological scientists alike is �why the rise and why at ~2 ga�?" remarked Janet Siefert, co-chair for this session. Siefert is a molecular evolutionist at Rice University in Houston, Texas.

"We know with increasing certainty from geologic biomarkers, fossils, and molecular phylogenies that the organisms most likely responsible for this rise, the ubiquitous cyanobacteria or their ancestors, were surely present at least half a million years prior to the rise. So why the lag?"

The rise of oxygen is a great science question. It is unique because there are as many theories that postulate the event as dominated by physical processes as there are ones that predict it was a biologically mediated phenomenon. This session will bring oceanographers, genome analysts, and geoscientists with their competing theories, together in one venue with the hopes that a more substantive and accurate picture of what may have actually occurred can be brought to the fore.

The newest discoveries are coming from papers that are multidisciplinary in nature:

• David Catling, from the Space Science Division of the NASA Ames Research Center and the SETI Institute, will build on the idea that the Archean atmosphere was dominated by methane as the primary greenhouse gas, but expands it to include an explanation for the oxidation of Earth. He postulates that the kinetic effects of oxygen and methane are reversed from today; in effect hydrogen escape to space was inescapable and oxygenation of the atmosphere was irreversible.
• Christian J. Bjerrum, Danish Center for Earth System Science at the University of Copenhagen, will postulate that due to the limited availability of phosphorous, a principle nutrient in limiting carbon production, photosynthesis was depressed in cyanobacteria during the Archean and early Proterozoic.
• Christopher House, a microbial geobiologist from Pennsylvania State University, will provide further evidence for a newly discovered archaeal bacterial lineage that consumes methane anaerobically. He gathered this evidence using FISH and iron microbe techniques to measure carbon isotope depletion.
• Martin Brasier, Earth Sciences at the University of Oxford, will provide a new look at whether or not morphological remains of fossils thought to be photosynthetic are as old as previous estimates have stipulated. This is important as it is some of the most quoted evidence for the antiquity of oxygenic photosynthesis.
• Janet Siefert will present data that uses some of the most basic molecules for biochemistry, iron-sulfur clusters, to determine the sequence of metabolic events that may have occurred in the Archean timeframe.
• George Fox, Department of Biology and Biochemistry at the University of Houston, will give a genomic perspective of what the Archean contemporary cyanobacteria must have contained as its genomic component. This is an important piece of molecular evidence that can be compared to the morphological fossil record and the proposed atmospheric conditions prior to the rise of oxygen.

SESSION 24: CONTROLS ON PHANEROZOIC DIVERSIFICATIONS AND EXTINCTIONS: LONG-TERM INTERACTIONS BETWEEN THE PHYSICAL AND BIOTIC REALMS.
Tuesday, June 26

Abstracts: http://gsa.confex.com/gsa/2001ESP/finalprogram/session_187.htm

In this session, scientists from the USA and the UK will explore what controls the long-term patterns of origination and extinction that give shape to the history of life and how life itself has participated in that process. This connects directly to contemporary concerns with biodiversity issues and questions about the effects of climate change. For example: What natural processes have caused past climate shifts and mass extinction episodes?

By examining the records of climate changes over the past 600 million years, what caused the changes, and what effects they had on ancient organisms, these scientists are discovering what implications this information has for understanding Earth's history.

The most important general themes of the papers in this session are: (1) the adoption of a systems approach to the understanding of Earth's history (major events being caused by multiple, independent factors) and (2) the significance of 'feedback mechanisms.'

Some of the highlights are as follows:

Session co-chair Norman MacLeod will begin by taking a look at the identifying controls on Phanerozoic extinction and diversification patterns. (MacLeod is the Associate Keeper in the Department of Palaeontology at The Natural History Museum in London.) Patterns of biodiversification and extinction over the last 250 million years show evidence of having been controlled by multiple factors, especially the interplay between tectonic processes (e.g., volcanism, sea-level change), and the evolutionary history of primary producer lineages (e.g., phytoplankton and land plants).

Doug Erwin, from the Department of Paleobiology at the Smithsonian Institution, will explain how the biodiversity increase that characterizes the biotic recovery from a mass extinction event is structured by ecological factors to a larger extent than previously thought.

Paul Wignall, Earth Sciences Department at the University of Leeds, has discovered that the relationship between mass extinction events and large volcanic eruptions is complex and likely involves climate forcing factors other than the eruption itself, including the presence of life forms (e.g., phytoplankton) that collectively possess the ability to buffer the global climate from short-term perturbations.

Geerat Vermeij, from the Department of Geology at the University of California, Davis, will consider how patterns of ecological feedback between herbivores and carnivores that result in a progressive intensification of nutrient recycling in the oceans have been a dominant theme in the history of life and have exerted an important �top-down� (as opposed to bottom-up) evolutionary and ecological control mechanism.

SESSION 28: ANTHROPOGENIC MODIFICATIONS TO THE EARTH SYSTEM.
Tuesday, June 26

Abstracts: http://gsa.confex.com/gsa/2001ESP/finalprogram/session_152.htm
Poster Session 27 abstracts: http://gsa.confex.com/gsa/2001ESP/finalprogram/session_988.htm.

The human presence on Earth has greatly impacted the environment for better or worse. Geoscientists in this session will consider a wide variety of evidence for the nature, magnitude, and implications of human impact on our planet for the past, present, and future.

Fred T. Mackenzie, Professor of Sedimentary and Global Geochemistry from the Department of Oceanography at the University of Hawaii, will begin the session by looking at how human activities influenced the biogeochemical cycles of carbon, phosphorus, and nitrogen in the surface of the Earth since 1840. This will be quite interesting for those who would like to know what the unperturbed Earth system was like, and who also want to understand the fate of these elements through projections to the year 2040.

Timothy M. Lenton, Centre for Ecology and Hydrology at the Edinburgh Research Station, will speak about positive feedbacks in the global carbon cycle that may make it more difficult for the oceans and atmosphere to absorb anthropogenic CO2 in the future.

Gary Hughes, from Raytheon Santa Barbara Remote Sensing in California, will talk about a direct, empirical correlation between atmospheric CO2 and land temperature measurements that indicates a strong greenhouse warming effect: 5 degrees Celsius for CO2 doubling.

Berry Lyons, Department of Geological Sciences and Byrd Polar Research Center at the Ohio State University, will take a look at how urbanization--specifically in Atlanta, Georgia and Columbus, Ohio--affects water quality in local rivers. He will note the similarity of increased concentrations of elements in the Chattahoochie River downstream from Atlanta, Georgia, with those observed for the Seine River as it passes through metro Paris. (Yet the Scioto River in the Columbus, Ohio, metro area, shows little urban influence.) The urban "footprint" in various areas in the United States and Europe has made quite an impact on the water quality of rivers downstream from major urban centers.

SESSION 36: ROLE OF HYDROTHERMAL SYSTEMS IN BIOSPHERIC EVOLUTION.
Wednesday, June 27

Abstracts: http://gsa.confex.com/gsa/2001ESP/finalprogram/session_183.htm
Poster Session 40 Abstracts: http://gsa.confex.com/gsa/2001ESP/finalprogram/session_997.htm.

Hydrothermal environments are unique because they offer a potentially widespread habitat for life both on the early Earth, and elsewhere in the Solar System. The study of hydrothermal systems provides a doorway into the early history of life and allows us to better understand the origins of our biosphere, its history, and place in the universe. This session will provide an updated overview of the field and will serve as a forum to report its cutting-edge science.

"I think one of the most intriguing things about hydrothermal systems is that they teem with life at temperatures far exceeding what humans would consider viable," said session co-chair Jack Farmer. Farmer is an astrobiologist and geologist at Arizona State University.

"They also harbor many unusual organisms and unique metabolic strategies. Some of the organisms found living at the highest temperatures appear to be very primitive forms, close to a last common ancestor of life. These forms are able to exist on inorganic by-products derived from the aqueous weathering of rocks." Not requiring sunlight for their metabolism, nor organic inputs from other organisms, these "chemoautotrophic" (chemically-based) forms provide models for the kinds of organisms that could exist in subsurface environments of Mars, Europa, and other planets.

Hydrothermal systems are also very interesting places to explore for novel organisms and their metabolic processes of interest to biotechnology. "The famous example of PCR (polymerase chain reaction), a genetic process whereby even tiny sequences of a genome can be cloned and amplified, was discovered in a Yellowstone hot spring," Farmer explained. "This discovery revolutionized molecular biology and spawned a multi-billion dollar industry."

Franco Piranjo (Geological Survey of Western Australia) will present an overview on the nature of hydrothermal environments and Anna Louise Reysenbach (Portland State University) will provide an overview of their microbiology.

Mike Russell, from the Isotope Geoscience Unit at the Scottish Universities Environmental Research Centre, also co-chairs the session and will present a talk on hydrothermal systems as a potential cradle for early prebiotic chemistry and life.

Sherry Cady, Geology Department at Portland State University, will review what we have learned about life near its upper temperature limit. Tullis Onstott, from the Department of Geosciences at Princeton, will discuss the exploration for a deep, hot microbial biosphere in deep gold mines in South Africa.

Malcolm Walter, Australian Centre for Astrobiology at Macquariue University, will talk about a variety of fossil biosignatures in billion-year-old-plus deep-sea vent deposits in Australia.

Beda Hofmann, from the Natural History Museum in Bern, Switzerland, will review a newly-discovered fossil record of deep subsurface life found in volcanic rocks. These subsurface talks hold special importance in opening up new opportunities to explore for life on the early Earth and elsewhere in the Solar System.

Finally, Martin Van Kranendonk, Geological Survey of Western Australia, will describe hydrothermal environments associated with the oldest previously-reported cellular fossils (~3.5 billion years) from Australia.

In the poster session, Meredith Payne (Arizona State) will present a review of the prospects for hydrothermal life on Mars, focusing special attention on polar regions where volcanoes appear to have recently interacted with and melted polar ice, sustaining recent liquid water habitats near the surface. The Mars sites she will review are considered important potential candidates for future landed missions to Mars.

Other noteworthy sessions include:

• Session 8: FRAGILE AND HAZARDOUS ENVIRONMENTS.
  Monday, June 25
  

  Abstracts: http://gsa.confex.com/gsa/2001ESP/finalprogram/session_180.htm. Poster Session 7 Abstracts: http://gsa.confex.com/gsa/2001ESP/finalprogram/session_994.htm.

• Session 10: THE ROLE OF NATURAL GAS HYDRATES IN THE EVOLUTION OF PLANETARY BODIES AND LIFE.
  Monday, June 25
  

  Abstracts: http://gsa.confex.com/gsa/2001ESP/finalprogram/session_190.htm. Poster Session 11 Abstracts: http://gsa.confex.com/gsa/2001ESP/finalprogram/session_1003.htm.

• Session 42: FLUID SEEPS AND SHALLOW MIGRATION PHENOMENA AT CONTINENTAL MARGINS: IMPACTS SPANNING THE LITHOSPHERE, BIOSPHERE, AND HYDROSPHERE.
  Wednesday, June 27
  

  Abstracts: http://gsa.confex.com/gsa/2001ESP/finalprogram/session_196.htm
  Poster Session 43 Abstracts: http://gsa.confex.com/gsa/2001ESP/finalprogram/session_1009.htm.

(III)

Media representatives who have pre-registered for the meeting, as well as those intending to register on site, should check in at the main registration desk to receive a name badge and a copy of the program book with abstracts.

Ann Cairns and Ted Nield will operate an onsite newsroom in Ochil 1, Edinburgh International Conference Centre, Monday, June 25, through Thursday, June 28. Newsroom hours of operation will be 8:00 a.m.-6:30 p.m. daily. The Newsroom will have several workspaces for journalists and will be equipped with telephones and a PC with Web access. Access to a fax and copier will also be available.

Media who are unable to attend but would like to arrange for telephone interviews during the meeting are encouraged to call the Newsroom at 44-0-131519-4134. If you have questions or need assistance before the meeting, contact Ann Cairns at GSA * before June 21 * 303-447-2020 ext. 1156 or [email protected] or Ted Nield at GSL * before June 23 * 44-0-20-7434-9944 or [email protected]. To view previous Earth System Processes press releases, see http://www.geosociety.org/pubntrst/media.htm.