Oyster fungi \emph{Pleurotus djamor} generate actin potential like spikes of electrical potential. The trains of spikes might manifest propagation of growing mycelium in a substrate, transportation of nutrients and metabolites and communication processes in the mycelium network. The spiking activity of the mycelium networks is highly variable compared to neural activity and therefore can not be analysed by standard tools from neuroscience. We propose original techniques for detecting and classifying the spiking activity of fungi. Using these techniques, we analyse the information-theoretic complexity of the fungal electrical activity. The results can pave ways for future research on sensorial fusion and decision making of fungi.

中文翻译：

---

真菌的电活动：尖峰检测和复杂性分析

牡蛎真菌 \emph {Pleurotus djamor} 产生像电位尖峰一样的肌动蛋白电位。尖峰列可能表现出在基质中生长的菌丝体的繁殖、营养物和代谢物的运输以及菌丝体网络中的通信过程。与神经活动相比，菌丝体网络的尖峰活动变化很大，因此无法通过神经科学的标准工具进行分析。我们提出了用于检测和分类真菌尖峰活动的原始技术。使用这些技术，我们分析了真菌电活动的信息理论复杂性。该结果可以为未来真菌感觉融合和决策的研究铺平道路。