Spring 2005
meeting abstracts
Geology and Geography
Clark Alexander - SE GSA meeting,
Biloxi, MS
Jason Dittmer - Political Geography
Pre-Conference in Boulder, CO and Annual Meeting of the Association
of American Geographers in Denver, CO
Jonathan Geisler - Evolution of Aquatic
Tetrapods Meeting, Akron, OH
Susan Howell - Wild Game Supper, Atlanta,
GA
Susan Howell and Clark Alexander -
Coastal Geotools Meeting, Myrtle Beach, SC
Michael Kelley and Pranoti Asher- Lunar
and Planetary Science Conference, Houston, TX
Soren Larsen - Annual Meeting of the
Association of American Geographers, Denver, CO
Jessica Mannering - Wild Game Supper,
Atlanta, GA
Mike Robinson and Clark Alexander
- Coastal Geotools Meeting, Myrtle Beach, SC
Wei Tu - Annual Meeting of the Association
of American Geographers, Denver, CO
Kelly Vance, Susan Howell, and Jake Jones
- SE GSA meeting, Biloxi, MS
PALEOCHANNEL INCISION AND
INFILL ON THE NEW JERSEY SHELF: TIMING, CHARACTER AND DEPOSITIONAL
ENVIRONMENT
ALEXANDER, Clark R.1, CHRISTENSEN, Beth2, GOFF, John3, AUSTIN,
Jamie3, VENHERM, Claudia1, NORDFJORD, Sylvia3, GULICK, Sean4,
SOMMERFIELD, Christopher5, FULTHORPE, Craig3, and SCHOCK, Steven6,
(1) Skidaway Institute of Oceanography, Savannah, GA 31411, clark@skio.peachnet.edu,
(2) Department of Geology, Georgia State Univ, 340 Kell Hall,
Atlanta, GA 30303, (3) Geosciences, Univ of Texas, Austin, TX
78759, (4) The Institute for Geophysics, The Univ of Texas at
Austin, Austin, TX 78759, (5) College of Marine Studies, Univ
of Delaware, Lewes, DE 19958, (6) Florida Atlantic Univ, Boca
Raton, FL 33431
Sedimentation on the NJ margin is complicated by the repeated
cycles of erosion and deposition associated with glacially forced
sea level rise and fall which often remove the sedimentary record
of the previous cycles. Recent investigations using high-resolution
CHIRP systems documented the presence of buried, infilled channels
within the middle and outer NJ continental shelf. Drill cores
(4.5 to 13.2 m in length), collected with the DOSECC heave-compensated
AHC-800, recovered an unbroken sequence of sediments from above,
within and below these relict paleochannels, allowing us to determine
the paleoenvironmental history of incision and infill. Our study
attempts to unravel the patterns of deposition and erosion using
detailed analyses of sediment grain size and composition, radiocarbon
age structure and foraminiferal micropaleontology.
Major geologic features of the NJ shelf include a mobile, sandy
surface layer, numerous shallowly buried paleochannels with associated
infill and a time-transgressive regional unconformity (previously
termed "R"). Three sites were drilled into the middle
and outer NJ shelf to examine patterns of incision and infill.
Site 1, in 130 m of water and penetrating the outer shelf wedge,
shows that the upper ~1 m of the seafloor is actively being reworked
(with C-14 ages ranging from modern to ~7kyrs). Age control indicates
that sediments overlying R on the outer shelf wedge are ~30 to
40 K cal y BP and foraminiferal as well as sedimentological indicators
suggest a marine environment, consistent with deposition during
Stage 3. At sites 2 and 3 on the midshelf (~80 m of water), muddy
sediments into which the channel is incised, whether above or
below R are old, ~35-45K cal y BP. The timing of infilling is
much later, ~14K cal y BP, constraining downcutting to between
3545K cal y BP and 14K cal y BP. This is consistent with
a recent study indicating regional continental downcutting (Reusser
et al., 2004) between 35 and 13-14 Ka. Foraminiferal and sedimentological
evidence suggest that infilling with sea level rise was not a
simple deepening depositional sequence from estuarine to open
ocean conditions, but can be shown to have been a series of repeated
depositional sequences, alternating between restricted, estuarine
and open, inner-shelf environments.
Popular culture and the geopolitics
of 9/11
Jason Dittmer
This paper introduces comic books as a medium through which national
identity and geopolitical scripts are narrated. This extension
of the popular geopolitics literature uses the example of post-11
September 2001 Captain America comic books to integrate various
strands of theory from political geography and the study of nationalism
to break new ground in the study of popular culture, identity,
and geopolitics. The paper begins with an introduction to the
character of Captain America and a discussion of the role he plays
in the rescaling of American identity and the institutionalization
of the nation's symbolic space. The article continues by showing
how visual representations of American landscapes in Captain America
were critical to constructing geopolitical "realities."
Following this, a reading of post-9/11 issues of the Captain America
comic book reveals a nuanced and ultimately ambiguous geopolitical
script that interrogates America's post-9/11 territorialization.
USING SIMULTANEOUS ANALYSES OF
MOLECULAR AND MORPHOLOGICAL DATA TO RESOLVE DELPHINIDAN PHYLOGENY
Jonathan Geisler
We report preliminary results of our study on the phylogeny
of Delphinida, which includes the living cetacean families of
Delphinidae, Phocoenidae, Mondontidae, Iniidae, Pontoporiidae,
and Lipotidae as well as the wholly extinct families of Albireonidae,
Kentriodontidae, and Odobenocetopsidae. To resolve delphinidan
phylogeny, we gathered new morphological and molecular data and
concatenated it with published data sets to create a matrix of
65 taxa (of which 40 are extinct) scored for 328 morphological
characters, 25 transposon characters, and 945 informative nucleotide
characters distributed across 7.4 kilobases. A parsimony analysis
of this dataset found 78 most parsimonious trees each 6,796 steps
in length. The strict consensus of the trees had 83% of the nodes
resolved. As in several previous studies, we found a monophyletic
Delphinoidea, a sister-group relationship between Monodontidae
and Phocoenidae, and Inia and Pontoporia to be sister-groups.
The extinct delphinidan Parapontoporia grouped with the
Yangtze River dolphin, Lipotes, to form Lipotidae, which
we found to be the most basal delphinidan clade. Perhaps the most
surprising result concerned the paraphyletic family Kentriodontidae.
The two species we sampled, Kentriodon pernix and Liolithax
pappus, were excluded from Delphinida and instead were successive
sister-taxa to the clade including Delphinida + Platanistoidea.
We optimized several morphological characters found in all or
most extant species of river dolphins onto our most parsimonious
trees. Previous authors had speculated that these characters were
convergent and reflect adaptations to similar habitats, but our
results suggest that most of these characters are symplesiomorphies.
Given the disparate distribution of extant river dolphins, many
have presumed that their ancestors were marine and the current
distribution reflects three separate invasions of river systems.
If only the distributions of extant taxa are mapped onto our trees;
however, it is equally parsimonious to infer a freshwater ancestor
for Inia, Pontoporia, Platanista, and Lipotes.
When fossils from marine deposits are included in analysis, the
hypothesis that each of the extant river dolphins evolved independently
from different marine ancestors is favored.
An Integrated Approach to Geologic
Mapping of Carolina Terrane Rocks in the Woodlawn and Aonia Quadrangles
of Georgia
Susan Howell and Dr. Kelly Vance
Department of Geology and Geography
Georgia Southern University
The Woodlawn Topographic quadrangle lies within the Piedmont
Physiographic province of the southern Appalachian Orogen near
the Georgia-South Carolina border. The Carolina Terrane is one
of the largest and most important lithotectonic components of
the Appalachians with respect to historical production of base
metals and precious metals. Detailed geology within many areas
of the Carolina Terrane is poorly understood due to inadequate
mapping, deep weathering and the lack of fresh and continuous
exposures. Dominant rocks within the quadrangle are volcanic and
epiclastic rocks that have undergone low pressure- temperature
metamorphism (greenschist facies) typical of the Carolina Slate
Belt. Geologic mapping documents the surface distribution of rock
formations and structural features such as faults, veins, folds,
foliation and mineralized areas. Previous geologic mapping within
this portion of the Carolina Terrane identified the Persimmon
Fork and Richtex Formations as the two major rock units; however,
the nature of the contact between the formations is uncertain.
Current mapping in the Woodlawn and Aonia Quadrangles suggests
a new interpretation in which a facies relationship reflects proximal
to distal changes in rock characteristics in the original depositional
environment. Geochemical and petrographic analysis assist with
correlation of rock units in the region and evaluation of chemical
alteration. Trace element data allow for reliable rock classification
and interpretation of the tectonic evolution. Field mapping integrated
with geographic information systems (GIS) permits a new and detailed
geologic map that may be easily updated as additional data are
collected.
RATES AND PROCESSES OF SHORELINE
CHANGE AT FORT PULASKI NATIONAL MONUMENT, GA: A GIS-BASED ASSESSMENT
Susan Howell
Applied Coastal Research Laboratory
and
Department of Geology and Geography
Georgia Southern University
Clark Alexander
Skidaway Institute of Oceanography
Fort Pulaski is a Civil War era fort located on Cockspur Island, GA adjacent to the Savannah River shipping channel. To date, no quantitative evaluation has been made of the impact of port maintenance activities on natural and cultural resources within the Park. The objective of this study is to provide relevant information to Fort Pulaski staff so they may effectively comment on a proposal to deepen the shipping channel and devise a management plan.
In order to assess shoreline change rates over the period 1850-2000,
we are developing an archive of visual imagery sources, including
T-sheets, aerial photographs, surveys of channel depth, IKONOS
imagery and side scan sonar surveys. Major features examined include
the island shoreline and a large, dynamic oyster shell bar located
along the Savannah River. These features were digitized to determine
change rates for time periods that span major channel deepenings.
The digitized shorelines were also used to determine endpoint
shoreline change rates for the entire period of historic data.
To analyze short-term dynamics of the oyster shell ridge, data
collected includes progradation rate, length, height and width
of the oyster ridge and distance from historic features. A series
of benchmarks parallel to and adjacent to the oyster shell ridge
allow measurement of onshore migration along its length. Information
and results are being compiled outlining the rates of shoreline
change and the dynamics of the oyster shell ridge over 10-100
year timescales, as well as changes associated with major harbor
deepenings.
Analysis of the Statesboro,
Georgia shock-darkened L5 chondrite.
KELLEY, Michael S., Department of Geology and Geography, Georgia
Southern University, P.O. Box 8149, Statesboro, GA 30460-8149,
mkelley@georgiasouthern.edu
ASHER, Pranoti M., Department of Geology and Geography, Georgia
Southern University, P.O. Box 8149, Statesboro, GA 30460-8149,
pasher@georgiasouthern.edu
WELTEN, Kees C., Space Sciences Laboratory, University of California,
7 Gauss Way, Berkeley, CA 94720-7450, kcwelten@uclink4.berkeley.edu
JULL, A. J. Timothy, NSF Arizona AMS facility, University of Arizona,
Tucson, AZ 85721, jull@email.arizona.edu
SCHULTZ, Ludolf, Max Planck Institute fur Chemie, Postfach 3060,
D-55020 Mainz, Germany, schultz@mpch-mainz.mpg.de
RODEN, Michael, Department of Geology, University of Georgia,
Athens, GA 30602, mroden@gly.uga.edu
MERTZMAN, Stanley A., Department of Earth & Environment, Franklin
and Marshall College, P.O. Box 3003, Lancaster, PA 17604-3003,
stan.mertzman@fandm.edu
ALBIN, Ed F., Department of Space Sciences, Fernbank Science Center,
156 Heaton Park Dr., Atlanta, GA 30307, ed.albin@fernbank.edu
In August 2003, Statesboro, Georgia farmer Harold Cannon brought an unusual rock to the Department of Geology and Geography at Georgia Southern University. There are few naturally occurring rocks on the coastal plain of Georgia, so by definition, any rock found there is "unusual". However, this particular specimen turned out to be not only unusual, but otherworldly.
In mid-June, 2000 Cannon was harvesting a crop of butter beans when his mechanical bean picker pulled the rock up from his field. In the process, yellow paint from the device was deposited on the specimen. Cannon removed the rock and tossed it between a pair of produce freezers under a shed in his back yard. For more than 3 years the rock sat exposed to the elements. When Cannon was cleaning the area around the shed in summer 2003, he finally decided to find out exactly what the rock was. He said he suspected it might be a meteorite because it was heavier than expected for its size, and after breaking off a small fragment, he noticed it was very dark inside.
Our initial microscopic examination and thin section analysis at Georgia Southern University indicated that the 2.3-kg-specimen was most likely a shock-darkened ordinary chondrite, probably an L-type of petrographic grade 4-6 based on mineralogy, metal abundance, and alteration of the chondrules (Kelley et al. 2004). XRD analysis of the meteorite revealed olivine, orthopyroxene, and metal compositions indicative of an L-chondrite as well. Electron microprobe analysis of minerals in the Statesboro type specimen were performed at the Smithsonian Institution and revealed "very middle of the road compositions" for L-chondrites. The results showed an olivine composition of Fo75.4 and an orthopyroxene composition of En77.4 Fs20.8Wo1.8. Major, minor, and trace element data based on XRF analysis performed at Franklin and Marshall College also confirmed the high metal content of the sample. On the basis of these data we filed a report through the Meteoritical Society (Russell et al. 2004) to propose the name "Statesboro" for this meteorite in December 2003. We also answered questions from the media (e.g. Bragg 2003) and issued a press release through Georgia Southern University.
Electron microprobe analyses of minerals in a second chip of the Statesboro meteorite were performed at the University of Georgia and also yielded olivine (Fo74.6), orthopyroxene (En 77.1Fs21.2Wo1.7), metal, and suphide compositions well within the range for L5 chondrites. To date all of the feldspar probed in the second chip appears to have been converted to glass (maskelynite), which confirms the shocked nature of the specimen. Two phosphates, chlorapatite and merrillite, have also been identified in this sample.
The concentrations and isotopic composition of light noble gases were measured at the Max Planck Institute in Mainz, Germany, while a sample of ~130 mg was dissolved at the University of California, Berkeley, for analysis of cosmogenic radionuclides (10Be, 26Al, 36Cl and 41Ca). After chemically isolating these radionuclides from the dissolved sample, their concentrations were measured at the Center for Accelerator Mass Spectrometry, Lawrence Livermore National Laboratory.
As in many shocked L chondrites, Statesboro shows very low concentrations of radiogenic 4He and 40Ar, which indicate a major impact event on the L-chondrite parent body, less than 500 Myr ago. The measured concentrations of cosmogenic 3He, 21Ne, 38Ar yield a cosmic ray exposure (CRE) age of 5.1 +/- 0.4 Myr if we use the production rate formalism of Eugster (1988) and the measured 22Ne/21Ne ratio of 1.074. This age coincides with a cluster at ~5 Myr that is mainly observed for L5 and L6 chondrites with low radiogenic 40Ar (Marti and Graf, 1992).
The high concentrations of 36Cl and 41Ca (due to neutron-capture reactions) and low 10Be (~19 dpm/kg) indicate that the Statesboro meteorite had a larger pre-atmospheric size than most chondrites. We estimate that the Statesboro meteoroid had a radius of ~50-80 cm and weighed several tons. For such large objects the 22Ne/21Ne ratio is not a reliable indicator of shielding, leading to overestimation of the noble gas production rates. We therefore used the method of Graf et al. (1990), which is based on relatively constant 10Be/21Ne and 26Al/21Ne production rate ratios. This method yields a more reliable CRE age of 7.0-7.5 Myr.
The exterior of the meteorite exhibits a 2-3 mm thick orange-colored rind due to terrestrial weathering. Chemical analysis of this rind shows strong depletions (70-80%) in Mg and Ca relative to less mobile elements such as Al and Fe. These depletions are similar to those observed in extremely weathered meteorites from Roosevelt County, New Mexico (Bland et al. 1998), which show terrestrial ages >40,000 y. Measurements of cosmogenic 14C are in progress at the University of Arizona, Tucson, to determine the terrestrial age of the Statesboro meteorite.
The Statesboro meteorite is the twenty-third meteorite and the fourth L-chondrite to be found or seen to fall in Georgia. It is interesting to note that the other three Georgia L-chondrites are all L6's. The geographically nearest, previous meteorite to Statesboro was the Claxton, Georgia fall. That 1.4-kg-L6 chondrite smashed a mailbox on December 10, 1984. To date there is no scientific evidence to support previous speculation by Povenmire (2004) that the Claxton and Statesboro meteorites are connected. Not only are they different petrographic grades, but the Statesboro specimen is heavily shocked and darkened. In contrast the Claxton meteorite is relatively unshocked, and no other fragments were reported seen during, or found following that fall event. An immediate precursor connection between these two meteorites can be confidently ruled out.
This paper describes and explains the emergence of grassroots
resource-management initiatives among First Nations in northern
British Columbia. Aboriginal communities became particularly active
in this facet of community activism in the 1990s by using provincial
and federal initiatives to design and implement sawmills, ecotourist
operations, comprehensive territorial-management programs, and
initiatives for ecological research. These developments are especially
unique in that they often involve members of the local non-Native
community directly in the logistical and financial management
of the operations. This presentation compares and contrasts the
experiences of three aboriginal groups (Cheslatta, Lhk'acho, and
Burns Lake bands), each of which has created joint-venture resource-management
programs in their traditional lands. The paper explores the development
of the initiatives, the cultural negotiations involved in the
planning and implementation stages, and the socio-cultural effects
of the programs on the Native and non-Native members of the local
community. The paper then explains the emergence of similar initiatives
across the province by interpreting the empirical evidence with
concepts from recent theoretical work on local politics, social
movements, and grassroots activism.
Michael H. Robinson
Applied Coastal Research Laboratory
Georgia Southern University
Clark R. Alexander
Skidaway Institute of Oceanography
Population pressure along the Georgia coast has greatly increased
the number of docks that extend across the marsh, impacting marsh
ecosystems. To understand the patterns and impacts of dock proliferation,
aerial photography and field data were used within a GIS to quantify
the number and area of docks affecting marsh. These maps show
the footprint of docks from 1970 to 2000 on Wilmington Island,
GA, and document a 90% increase in total dock area (24,048 m2
in 1970 to 45,679 m2 in 2000) and a 73% increase in number of
docks during this period (174 docks in 1970 to 301 docks in 2000).
Indicators of shading impacts to the Spartina alterniflora
marsh (i.e., variation in stem density and plant height) were
quantified along 56 transects. Average stem density was 56% lower
beneath docks than adjacent to docks and paired data were statistically
different. Plant height was not significantly different beneath
or adjacent to docks. Although presently unquantified, shading
effects may be important for the carbon budget of the marsh, which
provides critical habitat for many commercially important species.
Dock structures presently shade 0.5% of the marsh and maximum
estimates of cumulative impact under current Georgia law suggest
that ~5% of the marsh could be shaded. Additional information
needs identified during this study include: an assessment of enhanced
Spartina wrack accumulation around dock structures; a determination
of the impact to benthic habitats by floating docks that sit on
the bottom at low tide; and a comparative analysis of coastal
county dock statistics with the baseline and trend data in this
study.
The path towards sustainability: The case of Shanghai
Wei Tu
Shanghai, the biggest industrial and commercial coastal city
in China, is remaking itself into a world city of business, finance,
trade and navigation from a mainly industry based economy since
1990. The rapidly evolved urban environment is facing serious
challenges under the process of fast economic growth, structure
change and urban expansion. The ambitious urban development goals,
the heavy history debts on urban infrastructure and environment
investments are two major sources of environmental pressures.
The pollution control and environment policy has evolved through
three stages since the first one commenced at the early 1980s.
The focus of the environment management approach has shifted from
the setting of the management framework to pollution control to
the latest sustainable considerations. While those management
approaches proved to be effective in improving urban environment
in the past two decades, they also pose a particular challenge
on the sustainable development of Shanghai. The paper offers a
new management paradigm based on Haughton's model on urban sustainable
development and argues it will help the city toward the transition
to sustainability.
VANCE, R. Kelly, HOWELL, Susan and JONES, Martin, Department
of Geology and Geography, Georgia Southern University, Box 8149,
Statesboro, GA 30460-8149, rkvance@georgiasouthern.edu
Geologic mapping was conducted at a 1:24000 scale along the northwest
side of the inundated Little River valley of Georgia in the Woodlawn
and Aonia quadrangles, between the Modoc zone and the Charlotte
belt. Resulting geologic maps were converted into digital images
for use in ArcGIS. The GIS data base includes sample points, structural,
petrographic and geochemical data. The map covers Neoproterozoic
to Cambrian greenschist facies rocks of the Carolina slate belt
previously assigned to the volcanic dominated Persimmon Fork Formation
and mudstone dominated Richtex Formation. The dominant regional
rock fabric is a foliation striking N 55-70 o E, dipping 30-70
o NW. Small folds in the southeast portion of the Aonia Quadrangle
display a N 50 o E axial trend plunging NE at 15 o. Intermediate
to felsic subaqueous tuffs and coarse volcaniclastic rocks are
interlayered with increasing proportions of greenstones, greywacke
and mudstones toward the southeast. Thin beds of uniform, fine-grained
siliceous rocks between the pyroclastic flows and sedimentary
rocks may be the submarine equivalent of surge or airfall deposits.
Graywacke beds grading upward to fine sands and laminated mudstones
with local convoluted bedding, probably originated as submarine
fans. Graded bedding and cross-bedding indicate northeast and
northwest tops, respectively, as relict bedding changes from a
dominant N 70-85 o W strike dipping 55-65 o NE in the Aonia Quad
to a dominant N 70-85 o E strike with 50-74 o dips to the NW in
the central Woodlawn Quad suggesting a N-NE trending regional
syncline. The entire succession is interpreted as interfingering
between inner distal, mudstone-dominated deep water facies and
a proximal facies dominated by pyroclastic rocks and coarse volcaniclastic
deposits. Greenstones interlayered with the tuffs and mudstones
represent mafic lava, volcaniclastic rocks, dikes and sills. The
presence of mafic rocks and local sulfide mineralization in this
transition zone favors an intra-arc basin produced by arc extension.