Plant bioacoustics: on the emission and reception of airborne sounds by plants,...
Plant bioacoustics: on the emission and reception of airborne sounds by plants, and their adaptive value.
The communication of plants with their environment is crucial for their survival. Plants are known to uselight, odours, and touch to communicate with other plants, with pollinators, seed dispersers and herbivores.However, one sens...
The communication of plants with their environment is crucial for their survival. Plants are known to uselight, odours, and touch to communicate with other plants, with pollinators, seed dispersers and herbivores.However, one sensory modality – acoustic communication – is almost unexplored in plants, despite itspotential adaptive value. This is the focus of the current proposal.Our long-term goal is to understand the roles of acoustic communication in the life of plants: what plantshear, and what they “say”. The proposed research builds on recent results that strongly suggest the use ofairborne sound in plants: We have demonstrated that flowers increase their nectar concentration withinminutes in response to the sound of a bee’s wingbeat. Furthermore, we have shown that different species ofplants emit brief ultrasonic signals with acoustic characteristics that vary under different conditions. Towardsgeneral understanding of plant bioacoustics we will investigate:1.Plant hearing. We will investigate plant responses to pollinator sounds to uncover their temporaldynamics, mechanism, and evolution.2.Plant sound emission. We will record the sounds emitted by different plants under different conditions,and use advanced AI to interpret these sounds.3.Functionality of plant sounds. We will test if and when other organisms – both plants and animals -response to plant sounds, and the potential adaptive value of these responses.The proposed project has the potential to revolutionize our understanding of plants and plant communication.Our results are expected to open entirely new avenues of research such as the evolution of soundcommunication by plants, and the bio-mechanics of sound emission and sound reception in plants. Ourresults might also have great applicative implications in precision agriculture, including remote plantmonitoring and functional sound emission. These may play a role in fighting the global food-securityproblem and pollination crisis.ver más
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