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Bibliographic Details
Main Authors: Harris, Samuel J., Palmer, Ryan A., McDonald, N. R.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2411.02195
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author Harris, Samuel J.
Palmer, Ryan A.
McDonald, N. R.
author_facet Harris, Samuel J.
Palmer, Ryan A.
McDonald, N. R.
contents Relationships between plants and insects vitally underpin the health of global ecosystems and food production. Through co-evolution, insects have acquired a variety of senses in response to the emergence of floral cues such as scent, colour and shape. Therefore, the recent discovery of electroreception among terrestrial arthropods motivates the investigation of floral electrics as part of their wider sensory ecology. We examine how a flower's morphology and material properties produce and propagate detectable, ecologically relevant electrical signals in several biologically inspired scenarios. As the electrical field both interior and exterior to the flower must be solved for, we develop an extension of the two-dimensional AAA-least squares algorithm for solving such two-domain electrostatics problems. It is found that the electrical signals produced by the plant can reveal information to the insect about the flower shape, available pollen and the presence of other nearby arthropods. These results show good qualitative agreement with an equivalent three-dimensional scenario, computed using finite element methods. The extension of the AAA-least squares algorithm to two-domain problems provides a fast and accurate method for modelling electrostatic problems, with possible further application in fluid dynamics and magnetostatics. Biologically, our results highlight the significant role floral electrics may play in plant-pollinator and predator-prey relationships, unveiling previously unstudied facets of these key relationships.
format Preprint
id arxiv_https___arxiv_org_abs_2411_02195
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Modelling floral and arthropod electrostatics using a two-domain AAA-least squares algorithm
Harris, Samuel J.
Palmer, Ryan A.
McDonald, N. R.
Biological Physics
Soft Condensed Matter
Relationships between plants and insects vitally underpin the health of global ecosystems and food production. Through co-evolution, insects have acquired a variety of senses in response to the emergence of floral cues such as scent, colour and shape. Therefore, the recent discovery of electroreception among terrestrial arthropods motivates the investigation of floral electrics as part of their wider sensory ecology. We examine how a flower's morphology and material properties produce and propagate detectable, ecologically relevant electrical signals in several biologically inspired scenarios. As the electrical field both interior and exterior to the flower must be solved for, we develop an extension of the two-dimensional AAA-least squares algorithm for solving such two-domain electrostatics problems. It is found that the electrical signals produced by the plant can reveal information to the insect about the flower shape, available pollen and the presence of other nearby arthropods. These results show good qualitative agreement with an equivalent three-dimensional scenario, computed using finite element methods. The extension of the AAA-least squares algorithm to two-domain problems provides a fast and accurate method for modelling electrostatic problems, with possible further application in fluid dynamics and magnetostatics. Biologically, our results highlight the significant role floral electrics may play in plant-pollinator and predator-prey relationships, unveiling previously unstudied facets of these key relationships.
title Modelling floral and arthropod electrostatics using a two-domain AAA-least squares algorithm
topic Biological Physics
Soft Condensed Matter
url https://arxiv.org/abs/2411.02195