Reconsidering the relationship between virally induced bacterial mortalityand frequency of infected cells

The relative contribution of viral lysis to overall mortality in aquatic ba cterial populations is often estimated as twice the frequency of infected c ells (FIC). The 'factor-of-two rule' upon which this estimate is based assu mes (1) steady-state conditions, (2) that latent period is equivalent to ge neration time, and (3) that infected cells are not grazed. FIC values for t his calculation are themselves derived from measurements of the frequency o f visibly infected cells (FVIC) by the use of a simple conversion factor. A steady-state model was developed to more rigorously define the relationshi ps between FIC, FVIC, and the fraction of mortality from viral lysis (FMVL) . This model shows that even under the restrictive assumptions listed above , the factor-of-two rule systematically overestimates FMVL for typically re ported values of FVIC. The model also shows that although grazing on infect ed cells further reduces FMVL for a given estimate of FIC, at the same time such grazing increases FIC for a given measurement of FVIC. In combination , these 2 effects minimize the influence of grazing on the calculation of F MVL from FVIC. Overall, the relationship between FMVL and FVIC is well appr oximated as follows: FMVL congruent to FVIC/[gamma ln(2) (1 - epsilon - FVI C)], where gamma = the ratio between the latent period and generation time, and epsilon = the fraction of the latent period during which viral particl es are not yet visible. Using typically observed values of FVIC, and assumi ng that gamma = 1 (per assumption 2, above) and epsilon = 0.186 (per litera ture estimates), the model suggests that, on average, viral lysis accounts for approximately 22% (range: 4.5 to 45%) of total bacterial mortality in a range of aquatic environments, corresponding to a mean overestimate of 24 % (range: 4 to 44 %) by the factor-of-two rule. Perhaps most importantly, t he model shows that calculations of FMVL from FIC or FVIC are very sensitiv e to changes in the relative length of the latent period (gamma) and in the assumed proportion of the latent period during which viral particles are n ot recognizable (epsilon). Constraining these 2 factors would greatly impro ve the reliability of FMVL calculations.