Lisa E Osterman (Former Employee)
Science and Products
Filter Total Items: 28
Holocene evolution of Apalachicola Bay, Florida Holocene evolution of Apalachicola Bay, Florida
A program of geophysical mapping and vibracoring was conducted in 2007 to better understand the geologic evolution of Apalachicola Bay and its response to sea-level rise. A detailed geologic history could help better understand how this bay may respond to both short-term (for example, storm surge) and long-term sea-level rise. The results of this study were published (Osterman and others...
Authors
Lisa E. Osterman, David C. Twichell
Geologic controls on the recent evolution of oyster reefs in Apalachicola Bay and St. George Sound, Florida Geologic controls on the recent evolution of oyster reefs in Apalachicola Bay and St. George Sound, Florida
Apalachicola Bay and St. George Sound contain the largest oyster fishery in Florida, and the growth and distribution of the numerous oyster reefs here are the combined product of modern estuarine conditions in the bay and its late Holocene evolution. Sidescan-sonar imagery, bathymetry, high-resolution seismic profiles, and sediment cores show that oyster beds occupy the crests of a...
Authors
D. Twichell, L. Edmiston, Brian Andrews, W. Stevenson, J. Donoghue, Richard Z. Poore, Lisa E. Osterman
Biological, Physical, And Chemical Data From Gulf of Mexico Core PE0305-GC1 Biological, Physical, And Chemical Data From Gulf of Mexico Core PE0305-GC1
This paper presents benthic foraminiferal census data, and magnetic susceptibility, 210Pb , radiocarbon, and geochemical measurements from gravity core PE0305-GC1 (=GC1). Core GC1 was collected from the Louisiana continental shelf as part of an initiative to investigate the geographic and temporal extent of hypoxia, low-oxygen water, in the Gulf of Mexico. Hypoxia (
Authors
Lisa E. Osterman, Peter W. Swarzenski, David Hollander
Biological, Physical and Chemical Data From Gulf of Mexico Gravity and Box Core MRD05-04 Biological, Physical and Chemical Data From Gulf of Mexico Gravity and Box Core MRD05-04
This paper presents the benthic foraminiferal census data, magnetic susceptibility measurements, vanadium and organic geochemistry (carbon isotope, sterols, and total organic carbon) data from the MRD05-04 gravity and box cores. The MRD05-04 cores were obtained from the Louisiana continental shelf in an on-going initiative to examine the geographic and temporal extent of hypoxia, low...
Authors
Lisa E. Osterman, Pamela L. Campbell, Peter W. Swarzenski, John P. Ricardo
Benthic foraminiferal census data from Louisiana continental shelf cores, Gulf of Mexico Benthic foraminiferal census data from Louisiana continental shelf cores, Gulf of Mexico
An area of oxygen-depleted bottom- and subsurface-water (hypoxia = dissolved oxygen 2 mg/L-1) occurs seasonally on the Louisiana Shelf near the Mississippi River. The area of hypoxia, also known as the “dead zone,” forms when spring and early summer freshwater flow from the Mississippi River supplies a large amount of nutrients to the shelf while creating a freshwater lens, or cap, above...
Authors
Lisa E. Osterman, Wendy S. Kelly, John P. Ricardo
Holocene evolution of Apalachicola Bay, Florida Holocene evolution of Apalachicola Bay, Florida
A program of geophysical mapping and vibracoring was conducted to better understand the geologic evolution of Apalachicola Bay. Analyses of the geophysical data and sediment cores along with age control provided by 34 AMS 14C dates on marine shells and wood reveal the following history. As sea level rose in the early Holocene, fluvial deposits filled the Apalachicola River paleochannel...
Authors
Lisa E. Osterman, David C. Twichell, Richard Z. Poore
Science and Products
Filter Total Items: 28
Holocene evolution of Apalachicola Bay, Florida Holocene evolution of Apalachicola Bay, Florida
A program of geophysical mapping and vibracoring was conducted in 2007 to better understand the geologic evolution of Apalachicola Bay and its response to sea-level rise. A detailed geologic history could help better understand how this bay may respond to both short-term (for example, storm surge) and long-term sea-level rise. The results of this study were published (Osterman and others...
Authors
Lisa E. Osterman, David C. Twichell
Geologic controls on the recent evolution of oyster reefs in Apalachicola Bay and St. George Sound, Florida Geologic controls on the recent evolution of oyster reefs in Apalachicola Bay and St. George Sound, Florida
Apalachicola Bay and St. George Sound contain the largest oyster fishery in Florida, and the growth and distribution of the numerous oyster reefs here are the combined product of modern estuarine conditions in the bay and its late Holocene evolution. Sidescan-sonar imagery, bathymetry, high-resolution seismic profiles, and sediment cores show that oyster beds occupy the crests of a...
Authors
D. Twichell, L. Edmiston, Brian Andrews, W. Stevenson, J. Donoghue, Richard Z. Poore, Lisa E. Osterman
Biological, Physical, And Chemical Data From Gulf of Mexico Core PE0305-GC1 Biological, Physical, And Chemical Data From Gulf of Mexico Core PE0305-GC1
This paper presents benthic foraminiferal census data, and magnetic susceptibility, 210Pb , radiocarbon, and geochemical measurements from gravity core PE0305-GC1 (=GC1). Core GC1 was collected from the Louisiana continental shelf as part of an initiative to investigate the geographic and temporal extent of hypoxia, low-oxygen water, in the Gulf of Mexico. Hypoxia (
Authors
Lisa E. Osterman, Peter W. Swarzenski, David Hollander
Biological, Physical and Chemical Data From Gulf of Mexico Gravity and Box Core MRD05-04 Biological, Physical and Chemical Data From Gulf of Mexico Gravity and Box Core MRD05-04
This paper presents the benthic foraminiferal census data, magnetic susceptibility measurements, vanadium and organic geochemistry (carbon isotope, sterols, and total organic carbon) data from the MRD05-04 gravity and box cores. The MRD05-04 cores were obtained from the Louisiana continental shelf in an on-going initiative to examine the geographic and temporal extent of hypoxia, low...
Authors
Lisa E. Osterman, Pamela L. Campbell, Peter W. Swarzenski, John P. Ricardo
Benthic foraminiferal census data from Louisiana continental shelf cores, Gulf of Mexico Benthic foraminiferal census data from Louisiana continental shelf cores, Gulf of Mexico
An area of oxygen-depleted bottom- and subsurface-water (hypoxia = dissolved oxygen 2 mg/L-1) occurs seasonally on the Louisiana Shelf near the Mississippi River. The area of hypoxia, also known as the “dead zone,” forms when spring and early summer freshwater flow from the Mississippi River supplies a large amount of nutrients to the shelf while creating a freshwater lens, or cap, above...
Authors
Lisa E. Osterman, Wendy S. Kelly, John P. Ricardo
Holocene evolution of Apalachicola Bay, Florida Holocene evolution of Apalachicola Bay, Florida
A program of geophysical mapping and vibracoring was conducted to better understand the geologic evolution of Apalachicola Bay. Analyses of the geophysical data and sediment cores along with age control provided by 34 AMS 14C dates on marine shells and wood reveal the following history. As sea level rose in the early Holocene, fluvial deposits filled the Apalachicola River paleochannel...
Authors
Lisa E. Osterman, David C. Twichell, Richard Z. Poore