Microbial population dynamics on seeds during drum and steeping priming

In the UK, seeds are primed commercially via drum or steeping priming processes to improve seed germination and seedling establishment but the microbial population dynamics occurring during these processes are unknown. Consequently, changes in culturable bacterial and fungal populations that occurred during laboratory and commercial scale drum priming of carrot, leek and parsnip seed and during laboratory scale and commercial scale steeping priming of carrot and sugar beet seed were investigated. Populations of bacteria and pseudomonads increased by 2 and 4 log10 cfu g−1 seed during priming to reach between 7 and 10 log10 cfu g−1 seed with less than 1 log10 cfu g−1 seed decrease after redrying, irrespective of seed type or priming process. Pseudomonads represented approximately 10% of the culturable bacterial population. Fungal populations also increased by between 1 and 3 log10 cfu g−1 seed during priming of carrot, leek and parsnip seed and were little affected by redrying. Addition of a tefluthrin coating (a standard commercial insecticide treatment) during the drying stage of commercial scale drum priming had little effect on microbial populations. During steeping priming, populations of bacteria and pseudomonads on sugar beet also increased by 2 and 4 log10 cfu g−1 seed with less than 1 log10 cfu g−1 seed decrease after redrying. However, fungi did not increase in the same manner on sugar beet, suggesting that the sugar beet seed itself may have an inhibitory effect on fungal growth. The presence of thiram in the steeping liquid (a standard commercial fungicide treatment) inhibited fungal proliferation on carrot and sugar beet seed. Spore forming bacteria generally occurred at low levels on all seeds (between 2 and 5 log10 cfu g−1seed) and did not exhibit any characteristic population changes during priming or redrying. Clearly some culturable populations of microorganisms can increase reproducibly during these priming processes and survive the redrying procedure, thereby demonstrating the potential for a novel method of introducing microbial inoculants onto seed.