Plant Behaviour: an Evolutionary Response to the Environment?

Overview

Journal Plant Biol (Stuttg)

Publisher Wiley

Date 2020 Jun 20

PMID 32557960

Citations 32

Authors

A Kumar

M Memo

A Mastinu

Affiliations

Soon will be listed here.

Abstract

Plants are not just passive living beings that exist in nature. They are complex and highly adaptable species that react sensitively to environmental forces/stimuli with movement, morphological changes and through the communication via volatile molecules. In a way, plants mimic some traits of animal and human behaviour; they compete for limited resources by gaining more area for more sunlight and spread their roots underground. Furthermore, in order to survive and thrive, they evolve and 'learn' to control various environmental stress factors in order to increase the yield of flowering, fertilization and germination processes. The concept of associating complex behaviour, such as intelligence, with plants is still a highly debatable topic among researchers worldwide. Recent studies have shown that plants are able to discriminate between positive and negative experiences and 'learn' from them. Some botanists have interpreted these behavioural data as a form of primitive cognitive processes. Others have evaluated these responses as biological automatisms of plants determined by adaptation to the environment and absence of intelligence. This review aims to explore adaptive behavioural aspects of various plant species distributed in different ecosystems by emphasizing their biological complexity and survival instincts.

Citing Articles

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Plant Movement Response to Environmental Mechanical Stimulation Toward Understanding Predator Defense.

Naglich A, LeDuc P Adv Sci (Weinh). 2024; 11(40):e2404578.

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Motor cognition in plants: from thought to real experiments.

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Water stress modulates terpene biosynthesis and morphophysiology at different ploidal levels in Lippia alba (Mill.) N. E. Brown (Verbenaceae).

Lopes J, Nascimento L, Souza V, de Matos E, Fortini E, Grazul R Protoplasma. 2023; 261(2):227-243.

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Persistence of Abscisic Acid Analogs in Plants: Chemical Control of Plant Growth and Physiology.

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