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References
California Department of Food and Agriculture (1989) Reentry interval adjustments. California Code of Regulations Title 3, Chapter 6, Section 6774
Frear DEH (1935) Photoelectric apparatus for measuring leaf areas. Plant Physiol10:569–574
Furness GO, Newton MR (1988) A leaf surface scanning technique using a fluorescence spectrophotometer for the measurement of spray deposits. Pestic Sci24:123–137
Gunther FA, Westlake WE, Barkley JH, Winterlin W, Langbehn L (1973) Establishing dislodgeable pesticide residues on leaf surfaces. Bull Environ Contam Toxicol9:243–249
Gunther FA, Barkley JH, Westlake WE (1974) Worker environment research: II. sampling and processing techniques for determining dislodgeable pesticide residues on leaf surface. Bull Environ Contam Toxicol12:641–648
Iwata Y, Spear RC, Knaak JB, Foster RJ (1977) Worker reentry into pesticide-treated crops: I. procedure for the determination of dislodgeable residues on foliage. Bull Environ Contam Toxicol18:649–653
Langer RHM (1956) Measurement of leaf growth in grass. In: Milthorpe FL (ed) The Growth of Leaves, Butterworths, London, pp. 197–198
Nigg HN, Stamper JH, Queen RM (1974) The development and use of a universal model to predict tree crop harvester pesticide exposure. Am Ind Hyg Assoc J45:182–186
Popendorf WJ, Leffingwell JT (1982) Regulating OP pesticide residues for farm worker protection. Residue Rev82:125–201
Saiz S (1990) Predicting leaf surface area using mass-area relationships. HS No. 1546, The Worker Health and Safety Branch, California Department of Food and Agriculture
Sharp RB (1974) Spray deposit measurement by fluorescence. Pestic Sci5:197–209
Sharratt BS, Baker DG (1986) Alfalfa leaf area as a function of dry matter. Crop Sci26:1040–1042
Snedecor GW, Cochran WG (1980) Statistical methods. The Iowa State University Press, Ames, Iowa
Speelman LJ (1971) A fluorescent tracer technique for determination of the liquid distribution of field crop sprayers. J Agr Eng Res16:301–306
Stafford EM, Byass JB, Akesson NB (1970) A fluorescent pigment to measure spray coverage. J Econ Entomol63:769–776
Watson DJ (1937) The estimation of leaf area in field crops. J Agr Sci27:474–483
Westlake WE, Gunther FA, Carman GE (1973) Worker environment research: dioxathion (DELNAV®) residues on and in orange fruits and leaves, in dislodgable particulate matter, and in the soil beneath sprayed trees. Arch Environ Contam Toxicol1:60–83
Zweig G, Gao RY, Witt JM, Popendorf WJ, Bogen K (1984) Dermal exposure to carbaryl by strawberry harvesters. J Agr Food Chem32:1232–1236
Zweig G, Leffingwell JT, Popendorf WJ (1985) The relationship between dermal pesticide exposure by fruit harvesters and dislodgeable foliar residues. J Environ Sci HealthB20:27–59
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Dong, M.H., Saiz, S.G., Mehler, L.N. et al. Determination of crop-specific parameters used in foliar mass to area conversion: I. For selected varieties of grapes. Bull. Environ. Contam. Toxicol. 46, 542–549 (1991). https://doi.org/10.1007/BF01688197
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DOI: https://doi.org/10.1007/BF01688197