Abstract: | Exposure of mice to an environment of approximately 35°C and 65% relative humidity for 2–5 days caused dissociation of the X-Y chromosome bivalent in diakinesis-metaphase I (primary) spermatocytes. Dissociation of autosomal bivalents, chromosome fragmentation, aneuploidy, and polyploidy were not significantly affected by heat stress. Heat stress also caused formation of multinucleated giant cells in the mouse testis. Giant cell formation followed a distribution similar to X-Y dissociation, reaching highest levels 5 days after heat stress and returning to control levels 50–70 days after heat stress. Spermatogonial activity was not permanently damaged by these conditions, and the germinal epithelium was able to repopulate. We believe that cell aberration or cell death resulting from either or both of these anomalies causes much of the decreased fertility found after subjecting scrotal mammals to high temperatures. |