W J Doré1, M Mackie, D N Lees. 1. Centre for Environment, Fisheries and Aquaculture Science, The Nothe, Weymouth DT4 8UB, UK. w.j.dore@cefas.co.uk
Abstract
AIMS: Current measures for controlling the public health risks associated with bivalve molluscan shellfish consumption rely on the use of Escherichia coli to indicate the sanitary quality of shellfish harvesting areas. However, it has been demonstrated that E. coli is an inadequate indicator of the viral risk associated with shellfish. An alternative indicator organism, male-specific RNA (FRNA) bacteriophage has been proposed for this role. This study compared the distribution of E. coli and FRNA bacteriophage in shellfish harvesting areas. METHODS AND RESULTS: A total of 608 shellfish samples from 49 shellfish harvesting areas were analysed for E. coli and FRNA bacteriophage using standard published methods. The geometric mean concentration of FRNA bacteriophage in all samples was over three times greater than that of E. coli (1800 and 538 counts/100 g for FRNA bacteriophage and E. coli, respectively). In contrast to E. coli, FRNA bacteriophage concentrations were strongly influenced by season with a geometric mean count of 4503 PFU/100 g in the winter (October-March) compared with 910 PFU/100 g in the summer (April-September). CONCLUSIONS: FRNA bacteriophage were present in shellfish at higher concentrations than E. coli. Elevated levels of FRNA bacteriophage observed in the winter concur with the known increased viral risk associated with shellfish harvested at that time of year in the UK. Levels of FRNA bacteriophage found in many shellfish from category B harvesting areas would not be eliminated by conventional treatment processes. SIGNIFICANCE AND IMPACT OF THE STUDY: Data from this study will inform future proposals to introduce FRNA bacteriophage as an indicator of the viral risk associated with shellfish.
AIMS: Current measures for controlling the public health risks associated with bivalve molluscan shellfish consumption rely on the use of Escherichia coli to indicate the sanitary quality of shellfish harvesting areas. However, it has been demonstrated that E. coli is an inadequate indicator of the viral risk associated with shellfish. An alternative indicator organism, male-specific RNA (FRNA) bacteriophage has been proposed for this role. This study compared the distribution of E. coli and FRNA bacteriophage in shellfish harvesting areas. METHODS AND RESULTS: A total of 608 shellfish samples from 49 shellfish harvesting areas were analysed for E. coli and FRNA bacteriophage using standard published methods. The geometric mean concentration of FRNA bacteriophage in all samples was over three times greater than that of E. coli (1800 and 538 counts/100 g for FRNA bacteriophage and E. coli, respectively). In contrast to E. coli, FRNA bacteriophage concentrations were strongly influenced by season with a geometric mean count of 4503 PFU/100 g in the winter (October-March) compared with 910 PFU/100 g in the summer (April-September). CONCLUSIONS: FRNA bacteriophage were present in shellfish at higher concentrations than E. coli. Elevated levels of FRNA bacteriophage observed in the winter concur with the known increased viral risk associated with shellfish harvested at that time of year in the UK. Levels of FRNA bacteriophage found in many shellfish from category B harvesting areas would not be eliminated by conventional treatment processes. SIGNIFICANCE AND IMPACT OF THE STUDY: Data from this study will inform future proposals to introduce FRNA bacteriophage as an indicator of the viral risk associated with shellfish.
Authors: J A Lowther; L Cross; T Stapleton; N E Gustar; D I Walker; M Sills; S Treagus; V Pollington; D N Lees Journal: Food Environ Virol Date: 2019-05-21 Impact factor: 2.778
Authors: C Hartard; M Leclerc; R Rivet; A Maul; J Loutreul; S Banas; N Boudaud; C Gantzer Journal: Appl Environ Microbiol Date: 2017-12-15 Impact factor: 4.792
Authors: Jessica L Kevill; Cameron Pellett; Kata Farkas; Mathew R Brown; Irene Bassano; Hubert Denise; James E McDonald; Shelagh K Malham; Jonathan Porter; Jonathan Warren; Nicholas P Evens; Steve Paterson; Andrew C Singer; Davey L Jones Journal: Sci Total Environ Date: 2021-11-24 Impact factor: 7.963