Stimulation of the Growth of Cereal Crops: Quantum-Resonance Cascade in a Configuration Space of Variable Dimension

This work considers a theoretical method for the noninvasive intensification of the growth of cereal crops on the basis of controlling the metabolism of eukaryotic cells through a configuration space of variable dimension (atology). With the aid of a quantum-resonance cascade that uses the collective dimensional modes of membrane mechanisms (proton ATPases, aquaporins, auxin transporters, receptor-like kinases, calcium channels, regulators of endocytosis), a synchronized activation of growth pro