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Parpart's television. Image #4

Man looking at projected image from microscope. Image prominent. View 2

Created: 1951

Parpart's television. Image #3

Man looking at projected image from microscope. Man prominent.

Created: 1951

Parpart's television. Image #1

Man sitting in front of microscope smoking a pipe.

Created: 1951

Parpart's television.Image #2

Man looking at projected image from microscope. Image prominent.

Created: 1951

Polaroid Microscope.

Man in front of microscope. Turned away from camera.

Created: 1951

Loewi. Image #2

Four men and three women on the steps of Lillie.

Created: 1951

Loewi. Image #1

Four men and three women on the steps of Lillie.

Created: 1951

Kuffler.

Created: 1951

Polaroid Microscope. Image #3

Man in front of microscope. Facing camera.

Created: 1951

Polaroid Microscope. Image #2

Man in front of microscope. Turned sideways.

Created: 1951

Polaroid Microscrope. Image #1

Man in front of microscope. Facing camera and writing.

Created: 1951

The Biological Bulletin board members at SICB 2012

People pictured (from left): Carol Schachinger, Managing Editor;ÊMichael J. Greenberg,Editorial BoardÊand formerÊEditor-in-Chief;ÊCharles Derby,ÊAssociate Editor; Karen Burnett, guest;ÊWilliam M. Kier,ÊAssociate Editor;ÊLouis E. Burnett,ÊAssociate Editor;James L. Olds,ÊEditor-in-Chief

Created: 2012

High Resolution Electrophoretic Separation of Protein Course Photo in the fall of 1978

Black and white group photo of the High Resolution Electrophoretic Separation of Protein course in the fall of 1978 posing in front of the Loeb building. Seventeen people featured.

Created: 1978

Man Standing in a Classroom

Black and white photo of a man standing in a classroom.

Created: 1978

Man Pinning Papers to a Classroom Wall

Black and white photo of a man pinning papers to a wall in a classroom.

Created: 1978

Captain Veeder and Three Men on Boat.

Sepia photo of Captain Veeder and S.A.Mathews on a boat

A data logger at one of the Ecosystems Center's LTER sites

A Campbell CR21x data logger at one of the Ecosystems Center's LTER sites.

Lee Stuart cottongrass seed in Alaska

Lee Stuart (grad student from San Diego State/UC Davis) collecting Eriophorum (cottongrass) seed, late 1970s. The location is probably along the Elliot Highway north of Fairbanks, Alaska.

Researchers setting up greenhouse experiments at Toolik Lake, Alaska

Researchers setting up an early version of "greenhouse" experiments at Toolik Lake, Alaska.

A Sunday hike in the Brooks Range, Alaska

A Sunday hike in the Brooks Range, Alaska, about 1980-81. The woman is Barbara Lachenbruch (student of Terry Chapin's, Univ Alaska). Behind her is Tom and Ellen (last names unknown), working at Toolik Lake at the time.

Walt Oechel's early system for controlling variables in a field experiment

Walt Oechel's early system for controlling CO2/temperature/water/light in field cuvettes, on the hillside below our fertilizer plots.

Terry Chapin sorting cottongrass tillers in the field at Sagwon, Alaska

Terry Chapin sorting cottongrass tillers in the field at Sagwon, Alaska, late 1970s.

Jim Laundre, Anne Giblin, Gus Shaver, and Knute Nadelhoffer, in a snowstorm at Toolik Lake, July 18, 1984

Left to right: Jim Laundre, Anne Giblin, Gus Shaver, and Knute Nadelhoffer, in a snowstorm at Toolik Lake, July 18, 1984. Jim was then an RA, Anne, Gus, and Knute were Assistant Scientists, all at the Ecosystems Center.

Created: 1984

Winogradsky column used at the Ecosystems Center

This is a Winogradsky column that Joseph Vallino uses in a SES course on Methods in Microbial Ecology. Almost every bacterial metabolic process that occurs on Earth also occurs in these columns that are simply constructed by placing freshwater or marine sediments augmented with a carbon source (such as saw dust) and fertilizer (N and P) in a column and topping it off with either fresh or sea water. Julie Huber is a co-instructor in the course.

Methanotrophic microcosms used at the Ecosystems Center

These are methanotrophic microcosms that are being used to develop and test new approaches to modeling microbial biogeochemistry using thermodynamic approaches (namely, the principle of maximum entropy production).