Produce Degradation Pathways and Prevention

48 Produce Degradation: Reaction Pathways and their Prevention

36. Schonherr, J., Cuticular penetration of calcium salts: effects of humidity, anions, and
    adjuvants, J. Plant Nutr. Soil Sci., 164, 225, 2001.


37. Chamel, C.E. and Chamel, A., Sorption and permeation to phenylurea herbicides of
    isolated cuticles of fruit and leaves. Effects of cuticular characteristics and climatic
    parameters, Chemosphere, 22, 85, 1991.


38. Schotsmana, W., Verlinden, B.E., Lammertyn, J., Peirs, A., Jancsok, P.T., Scheerlinck,
    N., and Nicolai, B.M., Factors affecting skin resistance measurements in pipfruit,
    Postharvest Biol. Technol., 25, 169, 2002.


39. Banks, N.H. and Nicholson, S.E., Internal atmosphere composition and skin per-
    meance to gases of pepper fruit, Postharvest Biol. Technol., 18, 33, 2000.


40. Amarante, C. and Banks, N.H., Ripening behaviour, postharvest quality, and physi-
    ological disorders of coated pears (pyrus communis), N. Z. J. Crop Hortic. Sci., 30,
    49, 2002.


41. Amarante, C., Banks, N.H., and Ganesh, S., Relationship between character of skin
    cover of coated pears and permeance to water vapour and gases, Postharvest Biol.
    Technol., 21, 291, 2001.


42. Walton, T.J., Waxes, cutin and suberin, Methods Plant Biochem., 4, 105, 1990.


43. Jenks, M.A., Joly, R.J., Peters, P.J., Rich, P.J., Axtell, J.D., and Ashworth, E.N.,
    Chemically induced cuticle mutation affecting epidermal conductance to water vapor
    and disease susceptibility in Sorghum bicolor (L.) Moench, Plant Physiol., 105, 1239,
    1994.


44. Grusak, M.A. and Pomper, K.W., Influence of pod stomatal density and pod transpi-
    ration on the calcium concentration of snap bean pods, J. Am. Soc. Hortic. Sci., 124,
    194, 1999.


45. Qiu, Y.X., Nishina, M.S., and Paull, R.E., Papaya fruit-growth, calcium-uptake, and
    fruit ripening, J. Am. Soc. Hortic. Sci., 120, 246, 1995.


46. Poovaiah, B.W., Glenn, G.M., and Reddy, A.S.N., Calcium and fruit softening: phys-
    iology and biochemistry, Hortic. Rev., 10, 107, 1988.


47. Link, H., Ca-uptake and translocation by plants with special regard to apple trees,
    Acta Hortic., 45, 53, 1974.


48. Harker, F.R. and Ferguson, I.B., Calcium-ion transport across disks of the cortical
    flesh of apple fruit in relation to fruit-development, Physiol. Plant., 74, 695, 1988.


49. Harker, F.R. and Ferguson, I.B., Transport of calcium across cuticles isolated from
    apple fruit, Sci. Hort., 36, 205, 1988.


50. Schlegel, Tk. and Schonherr, J., Stage of development affects penetration of calcium
    chloride into apple fruits, J. Plant Nutr. Soil Sci., 165, 738, 2002.


51. Glenn, G.M., How cherries bruise, Wash. St. Hortic. Assoc. Proc., 81, 238, 1985.


52. Glenn, G.M. and Poovaiah, B.W., Cuticular permeability to calcium compounds in
    golden delicious apple fruit, J. Am. Soc. Hortic. Sci., 110, 192, 1985.


53. Perring, M.A., The effect of environmental and cultural practices on calcium in the
    apple fruits., Comm. Soil Sci. Plant Anal., 10, 279, 1979.


54. Waldstein D.E. and Gut, L.J., Comparison of microcapsule density with various apple
    tissues and formulations of oriental fruit moth (Lepidoptera: Tortricidae) sprayable
    pheromone, J. Econ. Entomol., 96, 58, 2003.


55. Fader, R.G. and Bukovac, M.J., Enhancement of transcuticular penetration of NAA
    with ammonium nitrate and triton X surfactants as spray additives, Hortscience, 32,
    525, 1997.


56. Harker, F.R. and Ferguson, I.B., Effects of surfactants on calcium penetration of
    cuticles isolated from apple fruit, Sci. Hort., 46, 225, 1991.