This study aims to assess utilisation of the ratio of γ-H2AX in lymphocytes to that in granulocytes (RL/G of γ-H2AX) in blood as a rapid method for population triage and dose estimation during large-scale radiation emergencies. Blood samples from healthy volunteers exposed to 0-10 Gy of (60)Co irradiation were collected. The samples were cultured for 0-24 h and then analysed using flow cytometry to measure the levels of γ-H2AX in lymphocytes and granulocytes. The basal RL/G levels of γ-H2AX in healthy human blood, the response of RL/G of γ-H2AX to ionising radiation and its relationship with doses, time intervals after exposure and individual differences were also analysed. The level of γ-H2AX in lymphocytes increased in a dose-dependent manner after irradiation, whereas the level in granulocytes was not affected. A linear dose-effect relationship with low inter-experimental and inter-individual variations was observed. The RL/G of γ-H2AX may be used as a biomarker for population triage and dose estimation during large-scale radiation emergencies if blood samples can be collected within 24 h.