Chronic exposure to warm temperature causes low sperm abundance and quality in Drosophila melanogaster

Temperature influences male fertility across organisms; however, how suboptimal temperatures affect adult spermatogenesis remains understudied. In a recent study on Drosophila melanogaster oogenesis, we observed a drastic reduction in the fertility of adult males exposed to warm temperature (29 & DEG;C). Here, we show that males become infertile at 29 & DEG;C because of low sperm abundance and quality. The low sperm abundance at 29 & DEG;C does not stem from reduced germline stem cell or spermatid numbers, as those numbers remain comparable between 29 & DEG;C and control 25 & DEG;C. Notably, males at cold 18 & DEG;C and 29 & DEG;C had similarly increased frequencies of spermatid elongation and individualization defects which, considering the high sperm abundance and male fertility measured at 18 & DEG;C, indicate that spermatogenesis has a high tolerance for elongation and individualization defects. Interestingly, the abundance of sperm at 29 & DEG;C decreases abruptly and with no evidence of apoptosis as they transition into the seminal vesicle near the end of spermatogenesis, pointing to sperm elimination through an unknown mechanism. Finally, sperm from males at 29 & DEG;C fertilize eggs less efficiently and do not support embryos past the first stage of embryogenesis, indicating that poor sperm quality is an additional cause of male infertility at 29 & DEG;C.