Abstract
Increased aflatoxin contamination in corn by the fungus Aspergillus flavus is associated with frequent periods of drought and heat stress during the reproductive stages of the plants. The objective of this study was to evaluate the relationship between aflatoxin contamination and physiological responses of corn plants under drought and heat stress. The study was conducted in Stoneville, MS, USA under irrigated and non-irrigated conditions. Five commercial hybrids, P31G70, P33F87, P32B34, P31B13 and DKC63-42 and two inbred germplasm lines, PI 639055 and PI 489361, were evaluated. The plants were inoculated with Aspergillus flavus (K-54) at mid-silk stage, and aflatoxin contamination was determined on the kernels at harvest. Several physiological measurements which are indicators of stress response were determined. The results suggested that PI 639055, PI 489361 and hybrid DKC63-42 were more sensitive to drought and high temperature stress in the non-irrigated plots and P31G70 was the most tolerant among all the genotypes. Aflatoxin contamination was the highest in DKC63-42 and PI 489361 but significantly lower in P31G70. However, PI 639055, which is an aflatoxin resistant germplasm, had the lowest aflatoxin contamination, even though it was one of the most stressed genotypes. Possible reasons for these differences are discussed. These results suggested that the physiological responses were associated with the level of aflatoxin contamination in all the genotypes, except PI 639055. These and other physiological responses related to stress may help examine differences among corn genotypes in aflatoxin contamination.
Highlights
Corn production in the southern United States frequently encounters a period of drought and heat stress during flowering and kernel development
Results in this study showed that heat stress significantly decreased cell membrane thermostability (CMT) in the corn plants, suggesting that damage to the cell membranes may have been caused by lipid peroxidation
An effort was made to relate the level of aflatoxin contamination in kernels of corn genotypes to the physiological responses of the plants under drought and heat stress conditions
Summary
Corn production in the southern United States frequently encounters a period of drought and heat stress during flowering and kernel development. These weather conditions have been reported to be the major factors in increased aflatoxin contamination produced by the fungi Aspergillus flavus and. In addition to drought and heat stress, other factors that produce stress on the plants such as inadequate plant nutrition, insect feeding on developing kernels, weed competition, excessive plant density, plant diseases, and other biotic and abiotic stresses facilitate the infection and production of aflatoxin by the fungus [2,7,8]. Moisture and temperature conditions in the soil and the air were monitored to determine the extent of stress imposed on the plants
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