Systox on cotton: Systemic insecticide successful in southern California control tests
AuthorsH. T. Reynolds
Van den R. Bosch
E. J. Dietrick
Authors AffiliationsH. T. Reynolds is Assistant Entomologist, University of California, Riverside; R. Van den Bosch is Assistant Entomologist, University of California, Riverside; E. J. Dietrick is Principal Laboratory Technician, Biological Control, University of California, Riverside.
Hilgardia 7(4):9-10. DOI:10.3733/ca.v007n04p9. April 1953.
Systemic Insecticides such as Systox— when applied to a plant surface—are absorbed and translocated through the plant tissue.
Reynolds H, Bosch V, Dietrick E. 1953. Systox on cotton: Systemic insecticide successful in southern California control tests. Hilgardia 7(4):9-10. DOI:10.3733/ca.v007n04p9
Also in this issue:National and farm incomes: Time-element in relationships of incomes of economic segments and the national income in periods of change
Orchard sprinkler irrigation: Studies show supply of readily available soil moisture more important for fruit growth than type of irrigation
Alfalfa hay quality: Leaf shatter loss greatest when hay is handled at low moisture content
DDT resistant leafhoppers: Malathon outstanding for grape leafhopper control in tests in areas where DDT resistance was present
Acaricides on apples and pears: Tentative ratings of II acaricides given for spider mite control in northern California for 1953 season
Cyclamen mite on strawberry: Successful control by use of natural enemy of pest possible as indicated by results of field investigations
Nematode on cotton: Root-knot nematode control by soil fumigation profitable in Kern County
Walnut aphid study: Shows systox promising material for conditions in northern California
Pests of red kidney beans: Increased yields resulted from proper timing and application of control treatments tested in 1952 trials
Efficiency in fruit marketing: Costs of dumping field lugs and receiver-trucking costs studied in relation to packing-house methods
Injurious effects of manganese and iron deficiencies on the growth of citrus