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. 2020 Sep 10;9:e61141. doi: 10.7554/eLife.61141

Comment on 'Lack of evidence for associative learning in pea plants'

Monica Gagliano 1,2,, Vladyslav V Vyazovskiy 3, Alexander A Borbély 4, Martial Depczynski 5, Ben Radford 5
Editors: Daeyeol Lee6, Christian S Hardtke7
PMCID: PMC7556858  PMID: 32909941

Abstract

In 2016 we reported evidence for associative learning in plants (Gagliano et al., 2016). In view of the far-reaching implications of this finding we welcome the attempt made by Markel to replicate our study (Markel, 2020). However, as we discuss here, the protocol employed by Markel was unsuitable for testing for associative learning.

Research organism: Other

Introduction

Testing for associative learning relies on the pairing of an unconditioned stimulus (US) with a conditioned stimulus. To be effective, the stimulus used as an US must invariably elicit a response (in Pavlov's classical experiment in dogs the presentation of food elicited invariably salivation). In our study (Gagliano et al., 2016) we used blue light as the US which caused consistently a growth of the plant in the direction of the last presentation of the light (100% phototropic response). This was not the case in the study by Markel, where only a slight bias towards the last presentation of light was obtained (Markel, 2020). Since light was not an effective US in the study by Markel, it is not surprising that no distinct associative learning was observed.

In our study we also encountered conditions in which light was not an effective US. Thus, in the second series of our experiments, we tested the response of the plants in different circadian phases (light, light-dark, dark: see Figure 3 of Gagliano et al., 2016). Whereas the 100% phototropic response was obtained in the light phase, it was attenuated or abolished in the other two protocols. Consequently, no associative learning could be shown in those conditions.

We offer the following potential explanation for the lack of a consistent phototropism in Markel, 2020. Our study was conducted inside a completely dark 5.3 m2 room, where individual Y-mazes were positioned at ample distance (~20 cm radius) from each other. This was necessary to ensure that a plant inside its maze could only receive the blue light we directionally delivered within each maze at set specific times, and was completely shielded from light sources elsewhere. The lack of darkness in the study by Markel (see Figure 1—figure supplement 1C in Markel, 2020) is a major departure from our original design. We surmise that by inadvertently allowing individual plants to be exposed to light arriving from multiple sources within a 1.5 m2 growth cabinet (e.g. light leaking from mazes positioned too close to each other or reflecting from the chamber’s walls), the set up used by Markel could have resulted in random growth patterns, unrelated to the behaviour the experimental treatments were designed to test for, thereby confounding the results.

Funding Statement

The funders had no role in study design, data collection and interpretation, or the decision to submit the work for publication.

Contributor Information

Monica Gagliano, Email: monica.gagliano@uwa.edu.au.

Daeyeol Lee, Johns Hopkins University, United States.

Christian S Hardtke, University of Lausanne, Switzerland.

Funding Information

This paper was supported by the following grant:

  • Templeton World Charity Foundation TWCF0313 to Monica Gagliano.

Additional information

Competing interests

No competing interests declared.

Author contributions

Writing - original draft, Writing - review and editing.

Writing - original draft, Writing - review and editing.

Writing - original draft, Writing - review and editing.

Writing - original draft, Writing - review and editing.

Writing - original draft, Writing - review and editing.

Data availability

No data was generated for this study.

References

  1. Gagliano M, Vyazovskiy VV, Borbély AA, Grimonprez M, Depczynski M. Learning by association in plants. Scientific Reports. 2016;6:38427. doi: 10.1038/srep38427. [DOI] [PMC free article] [PubMed] [Google Scholar]
  2. Markel K. Lack of evidence for associative learning in pea plants. eLife. 2020;9:e57614. doi: 10.7554/eLife.57614. [DOI] [PMC free article] [PubMed] [Google Scholar]

Associated Data

This section collects any data citations, data availability statements, or supplementary materials included in this article.

Data Availability Statement

No data was generated for this study.


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