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Abstract
The plant root system shows remarkably complex behaviors driven by environmental cues and internal dynamics, whose interplay remains largely unknown. A notable example is circumnutation growth movements, which are growth oscillations from side to side of the root apex. Here we describe a model capable of replicating root growth behaviors, which we used to analyze the role of circumnuntations, revealing their emergence I) under gravitropic stress, as a combination of signal propagation and sensitivity to the signal carriers; II) as a result of the interplay between gravitropic and thigmotropic responses; and III) as a behavioral strategy to detect and react to resource gradients. The latter function requires the presence of a hypothetical internal oscillator whose parameters are regulated by the perception of environmental resources.
Highlights
A crucial question in plant development is how external cues are translated into specific growth patterns and how these are internally coordinated [1]
Among the several behavioral responses to environmental stimuli, gravitropism is the ability of plant roots to adjust their growth direction to align with the gravity vector by bending downwards when tilted perpendicularly with respect to gravity [60]
We studied the role of zonation and gravitropism in circumnutation movements by positioning the simulated root horizontally respect to the gravity and allowing it to grow
Summary
A crucial question in plant development is how external cues are translated into specific growth patterns and how these are internally coordinated [1]. Plant hormones, such as auxin, are involved in virtually all aspects of plant development [2], including directional growth response (tropisms) [3], the control of plant architecture [4, 5], stress response [6], and embryo development [7]. Growth occurs in the apical region of the root, which includes cell division and elongation zones [9].
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