The ability of bone marrow stromal cells to survive and function after exposure to ionizing radiation remains controversial. Therefore, we used the murine long-term bone marrow culture system to analyze the effects of single doses of ionizing radiation (9-500 Gy) on the function of a preexisting, nearly confluent stroma that was supportive of hematopoiesis. Hematopoiesis ceased promptly in all the irradiated cultures and did not recover unless fresh marrow cells were inoculated. Radiation doses less than or equal to 100 Gy caused no obvious morphologic change in the cells. Total RNA, total protein, and collagen synthesis declined by 35%-60% within two days after even 9 Gy; but radiation doses up to 100 Gy caused minimal or no additional decline. Although RNA synthesis recovered nearly to normal within three weeks after radiation doses less than 100 Gy, total protein and collagen synthesis remained suppressed. Normal adherent layers irradiated with 9-50 Gy supported long-term hematopoiesis by fresh Sl/Sld marrow cells, although Sl/Sld marrow did not demonstrate sustained hematopoiesis when cultured in plain culture dishes or over normal stroma irradiated with 200 Gy. Thus, bone marrow stromal cells in long-term cultures did not show evidence of substantial cell death over at least the six-week period studied after irradiation with as much as 100 Gy, and they maintained hematopoietic supportive functions when irradiated with up to at least 50 Gy.