Emergence of synchronised growth oscillations in filamentous fungi

Soil fungi are important decomposers of organic matter and play a crucial role in the soil biogeochemical cycles. Many species of fungi grow in the form of branched networks. While there have been investigations on the growth and architecture of these fungal net-works, their growth dynamics in space and time is still not fully understood. In this study, we monitor the growth dynamics of the plant-promoting filamentous fungus Serendipita indica for several days in a controlled environment within a microfluidic channel. We find that this species displays synchronized growth oscillations with the onset of sporulation and at a period of 3 hours. Quantifying this experimental synchronisation of oscillatory dynam-ics, we show that the synchronisation can be captured by the nearest neighbour Kuramoto model. Our analysis suggested the existence of millimetre-scale cell-cell communication across the fungi network. The microfluidic setup presented in this work may aid the future characterization of the molecular mechanisms of the cell-cell communication, which could in turn be exploited in order to control fungi growth and reproductive sporulation in soil and plant health management. ### Competing Interest Statement The authors have declared no competing interest.