Plot in foreground not fertilized. Plot in background fertilized with flowers of sulfur at the rate of 200 pounds to the acre. Antelope Clay Adobe soil.
Plot on left fertilized with superphosphate supplying sulfur at the rate of 100 pounds to the acre. Plot on the right received monocalcic phosphate supplying phosphorus at the same rate as on the superphosphate plot, but no sulfur. Note the dark color and heavy yield of the superphosphate plot, and the poor yield and very light color on the monocalcic plot. Antelope Clay Adobe soil.
Plot on left fertilized with muriate of potash and plot on right with sulfate of potash. The same amount of potash was supplied to the two plots. The muriate of potash contained no sulfur, while the sulfate of potash supplied sulfur at the rate of 100 pounds to the acre. Note the poor yield and light color on the muriate-of-potash plot and the heavy yield and dark color on the sulfate-of-potash plot.
Plot on left fertilized with nitrate of soda and plot on right with sulfate of ammonia. The two plots received exactly the same amount of nitrogen. The sulfate of ammonia also supplied sulfur at the rate of 100 pounds to the acre. Note the remarkable influence of the sulfur in the sulfate of ammonia. Antelope Adobe soil.
Left to right: Stephano, a drunken butler; Adrian, a lord; Gonzalo, an honest old councillor; Francisco, a lord; Prospero, the right Duke of Milan; Alonso, King of Naples (behind Caliban); Caliban, a savage and deformed slave; Miranda, daughter to Prospero; Ferdinand, son to the King of Naples; Trinculo, a jester; Sebastian, Alonso's brother; Antonio, Prospero's brother, the usurping Duke of Milan; and Ariel, an airy spirit (above).
Foreground left to right: Prospero, the right Duke of MIlan; Miranda, daughter to Prospero; Ferdinand, son to the King of Naples; sprites. Background, left to right: Juno, Ceres, and Iris.
Left to right: Alonso, the King of Naples; Gonzalo, an honest old councillor; Adrian, a lord; Francisco, a lord; Antonio, Prospero's brother, the usurping Duke of Milan; and Sebastian, Alonso's brother.
Plot on left fertilized with flowers of sulfur at the rate of 100 pounds per acre, producing a very heavy yield and dark green color. Plot on right not fertilized, showing very poor yield and light, yellowish color. Antelope Clay Adobe soil.
Plot on left fertilized with superphosphate supplying sulfur at the rate of 100 pounds to the acre. Plot on the right received monocalcic phosphate supplying phosphorus at the same rate as on the superphosphate plot, but no sulfur. Note the dark color and heavy yield of the superphosphate plot, and the poor yield and very light color on the monocalcic plot. Antelope Clay Adobe soil.
Plot on left fertilized with flowers of sulfur at the rate of 100 pounds per acre, producing a very heavy yield and dark green color. Plot on right not fertilized, showing very poor yield and light, yellowish color. Antelope Clay Adobe soil.
Plot on left fertilized with muriate of potash and plot on right with sulfate of potash. The same amount of potash was supplied to the two plots. The muriate of potash contained no sulfur, while the sulfate of potash supplied sulfur at the rate of 100 pounds to the acre. Note the poor yield and light color on the muriate-of-potash plot and the heavy yield and dark color on the sulfate-of-potash plot.
Plot on left fertilized with superphosphate supplying sulfur at the rate of 100 pounds to the acre. Plot on the right received monocalcic phosphate supplying phosphorus at the same rate as on the superphosphate plot, but no sulfur. Note the dark color and heavy yield of the superphosphate plot, and the poor yield and very light color on the monocalcic plot. Antelope Clay Adobe soil.
Plot on left fertilized with superphosphate supplying sulfur at the rate of 100 pounds to the acre. Plot on the right received monocalcic phosphate supplying phosphorus at the same rate as on the superphosphate plot, but no sulfur. Note the dark color and heavy yield of the superphosphate plot, and the poor yield and very light color on the monocalcic plot. Antelope Clay Adobe soil.
Marian Field was an art instructor at Oregon State College from 1942 to 1951. Field was born in 1885, in Oakes, North Dakota. She received her Bachelor of Arts in Art from the University of Oregon in 1930 and did graduate work from 1931-1933. From 1929 to 1933, Field was also an assistant in the university's art and architecture library. Before coming to OSC, she was head of the art department at the University of North Dakota from 1905-1909. She also owned and managed an art shop for several years. She published “Oregon Trees and Shrubs in Winter” in 1937 and “Outdoor Living and Learning” in 1938. She was brought on to work at Oregon State at an annual salary of $1,750. In 1946, Field was promoted to assistant professor and an annual salary of $3,000. She retired in 1951.
Plot in foreground not fertilized. Plot in background fertilized with flowers of sulfur at the rate of 200 pounds to the acre. Antelope Clay Adobe soil.
Plot on left fertilized with muriate of potash and plot on right with sulfate of potash. The same amount of potash was supplied to the two plots. The muriate of potash contained no sulfur, while the sulfate of potash supplied sulfur at the rate of 100 pounds to the acre. Note the poor yield and light color on the muriate-of-potash plot and the heavy yield and dark color on the sulfate-of-potash plot.
Plot in foreground not fertilized. Plot in background fertilized with flowers of sulfur at the rate of 200 pounds to the acre. Antelope Clay Adobe soil.
Plot on left fertilized with muriate of potash and plot on right with sulfate of potash. The same amount of potash was supplied to the two plots. The muriate of potash contained no sulfur, while the sulfate of potash supplied sulfur at the rate of 100 pounds to the acre. Note the poor yield and light color on the muriate-of-potash plot and the heavy yield and dark color on the sulfate-of-potash plot.
Plot on left fertilized with muriate of potash and plot on right with sulfate of potash. The same amount of potash was supplied to the two plots. The muriate of potash contained no sulfur, while the sulfate of potash supplied sulfur at the rate of 100 pounds to the acre. Note the poor yield and light color on the muriate-of-potash plot and the heavy yield and dark color on the sulfate-of-potash plot.
Plot on left fertilized with nitrate of soda and plot on right with sulfate of ammonia. The two plots received exactly the same amount of nitrogen. The sulfate of ammonia also supplied sulfur at the rate of 100 pounds to the acre. Note the remarkable influence of the sulfur in the sulfate of ammonia. Antelope Adobe soil.
Plot on left fertilized with nitrate of soda and plot on right with sulfate of ammonia. The two plots received exactly the same amount of nitrogen. The sulfate of ammonia also supplied sulfur at the rate of 100 pounds to the acre. Note the remarkable influence of the sulfur in the sulfate of ammonia. Antelope Adobe soil.
Plot on left fertilized with flowers of sulfur at the rate of 100 pounds per acre, producing a very heavy yield and dark green color. Plot on right not fertilized, showing very poor yield and light, yellowish color. Antelope Clay Adobe soil.
Plot on left fertilized with flowers of sulfur at the rate of 100 pounds per acre, producing a very heavy yield and dark green color. Plot on right not fertilized, showing very poor yield and light, yellowish color. Antelope Clay Adobe soil.
Plot on left fertilized with nitrate of soda and plot on right with sulfate of ammonia. The two plots received exactly the same amount of nitrogen. The sulfate of ammonia also supplied sulfur at the rate of 100 pounds to the acre. Note the remarkable influence of the sulfur in the sulfate of ammonia. Antelope Adobe soil.
Plot in foreground not fertilized. Plot in background fertilized with flowers of sulfur at the rate of 200 pounds to the acre. Antelope Clay Adobe soil.
Plot in foreground not fertilized. Plot in background fertilized with flowers of sulfur at the rate of 200 pounds to the acre. Antelope Clay Adobe soil.