Grows and makes wine from University of Minnesota grape varieties: Frontenac, Frontenac gris, LaCrescent, and Marquette. University of Minnesota, Agricultural Experiment Station, Project #21-016, "Breeding and Genetics of Fruit Crops for Cold Climates." Principal investigator: James J. Luby; scientist, David Bedford. Released in 1991.
Creator:
Hansen, David L., 1952-
Created:
2009-09-16
Contributed By:
University of Minnesota, Minnesota Agricultural Experiment Station.
Grows and makes wine from University of Minnesota grape varieties: Frontenac, Frontenac gris, LaCrescent, and Marquette. University of Minnesota, Agricultural Experiment Station, Project #21-016, "Breeding and Genetics of Fruit Crops for Cold Climates." Principal investigator: James J. Luby; scientist, David Bedford. Released in 1991.
Creator:
Hansen, David L., 1952-
Created:
2009-09-16
Contributed By:
University of Minnesota, Minnesota Agricultural Experiment Station.
Grows and makes wine from University of Minnesota grape varieties: Frontenac, Frontenac gris, LaCrescent, and Marquette. University of Minnesota, Agricultural Experiment Station, Project #21-016, "Breeding and Genetics of Fruit Crops for Cold Climates." Principal investigator: James J. Luby; scientist, David Bedford. Released in 1991.
Creator:
Hansen, David L., 1952-
Created:
2009-09-16
Contributed By:
University of Minnesota, Minnesota Agricultural Experiment Station.
Grows and makes wine from University of Minnesota grape varieties: Frontenac, Frontenac gris, LaCrescent, and Marquette. University of Minnesota, Agricultural Experiment Station, Project #21-016, "Breeding and Genetics of Fruit Crops for Cold Climates." Principal investigator: James J. Luby; scientist, David Bedford. Released in 1991.
Creator:
Hansen, David L., 1952-
Created:
2009-09-16
Contributed By:
University of Minnesota, Minnesota Agricultural Experiment Station.
Pencil and pastel studies of the wings and beak of a greater snow goose. Sheet includes four separate drawings: two views of outstretched wing (from above and from below) executed in pencil and pastel; pencil drawing of head with open bill viewed from the side; pencil contour drawing of bill viewed from above.
Optimization of energy by large aquatic animals (e.g., dolphins, whales, manta) requires adaptations that control hydrodynamic flow to reduce drag, and improve thrust production and efficiency. Although streamlining of the body and appendages minimizes drag, highly derived aquatic animals utilize mechanisms of propulsion and control based on lif...
Creator:
Fish, Frank E. (West Chester University)
Created:
2010-06-05
Contributed By:
University of Minnesota, Institute for Mathematics and its Applications.