Botanical boom: A new opportunity to promote the public appreciation of botany

Burke, Rory; Sherwood, Orla L.; Clune, Stephanie; Carroll, Rebecca; McCabe, Paul F.; Kane, Adam; Kacprzyk, Joanna

doi:10.1002/ppp3.10257

Cited by 26 publications

(19 citation statements)

References 53 publications

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“…Despite the success of synthetic drugs in modern medicine over the past century, statistics indicate that plant-based remedies meet the healthcare needs of nearly 80% of the world population, especially in rural areas (Bodeker et al, 2005;Burke et al, 2022). At the same time, there is also a growing interest world over in the use of traditional medical systems, which are vast repositories of plant-based medicines.…”

Section: Discussionmentioning

confidence: 99%

No ambiguity: Chemosensory-based ayurvedic classification of medicinal plants can be fingerprinted using E-tongue coupled with multivariate statistical analysis

et al. 2022

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Background: Ayurveda, the indigenous medical system of India, has chemosensory property (rasa) as one of its major pharmacological metric. Medicinal plants have been classified in Ayurveda under six rasas/tastes—sweet, sour, saline, pungent, bitter and astringent. This study has explored for the first time, the use of Electronic tongue for studies of rasa-based classification of medicinal plants.Methods: Seventy-eight medicinal plants, belonging to five taste categories (sweet, sour, pungent, bitter, astringent) were studied along with the reference taste standards (citric acid, hydrochloric acid, caffeine, quinine, L-alanine, glycine, β-glucose, sucrose, D-galactose, cellobiose, arabinose, maltose, mannose, lactose, xylose). The studies were carried out with the potentiometry-based Electronic tongue and the data was analysed using Principle Component Analysis, Discriminant Function Analysis, Taste Discrimination Analysis and Soft Independent Modeling of Class Analogy.Results: Chemosensory similarities were observed between taste standards and the plant samples–citric acid with sour group plants, sweet category plants with sucrose, glycine, β-glucose and D-galactose. The multivariate analyses could discriminate the sweet and sour, sweet and bitter, sweet and pungent, sour and pungent plant groups. Chemosensory category of plant (classified as unknown) could also be identified.Conclusion: This preliminary study has indicated the possibility of fingerprinting the chemosensory-based ayurvedic classification of medicinal plants using E-tongue coupled with multivariate statistical analysis.

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Section: Discussionmentioning

confidence: 99%

No ambiguity: Chemosensory-based ayurvedic classification of medicinal plants can be fingerprinted using E-tongue coupled with multivariate statistical analysis

et al. 2022

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“…Framing personal narratives between individuals and plants enable us to increase nature connectedness, which is a better predictor of the pro‐environmental conservation behaviors we wish to facilitate (Richardson et al, 2016 ). Now may well be the time, a recent paper has identified that over the last decade public interest in plant‐related topics has increased, particularly with the advent of social media influencers, as such there may be a window of opportunity to develop an appreciation of plant science among the wider public, who to some degree are reconnecting with plants (Burke et al, 2022 ).…”

Section: Reversing the Extinction Of Botanical Education‐putting Plan...mentioning

confidence: 99%

The botanical education extinction and the fall of plant awareness

Stroud

Fennell

Mitchley

et al. 2022

Ecology and Evolution

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Civilization is dependent upon plants for survival. Plants permeate our every moment and our relationship with them will dictate how we will manage the threats of climate change and ecological collapse defining the Anthropocene. Yet, despite the significance of plants and the critical role they have played in shaping ecosystems, civilizations, and human cultures, many people are now disconnected from the botanical world. Students are presented with little plant content, particularly identification, compared with animal content. Consequently, we are producing few plant scientists and educating fewer scientists about plants. This drives a self‐accelerating cycle we term the extinction of botanical education . A process of knowledge erosion, that in this instance contributes to our separation from the natural world, makes us blind to the biodiversity crisis and inhibits our ability to restore it. We argue that neglecting the importance of plants within education threatens the foundations of industries and professions that rely on this knowledge. Furthermore, this extinction of botanical education creates an existential threat: Without the skills to fully comprehend the scale of and solutions to human‐induced global change, how do we as a society combat it? We present key research agendas that will enable us to reverse the extinction of botanical education and highlight the critical role plants play on the global stage.

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“…Technology offers a considerable opportunity to engage people with plants [ 13 ] and one potential means of increasing the general engagement of people with plants that is straight-forward is the use of Smartphone Applications (hereafter apps). The number of people with smartphones has increased exponentially over the last few years with approximately 14.91 billion smartphones estimated to be in circulation in 2021 [ 14 ].…”

Section: Introductionmentioning

confidence: 99%

A repeatable scoring system for assessing Smartphone applications ability to identify herbaceous plants

2023

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The ubiquity of Smartphone applications that aim to identify organisms, including plants, make them potentially useful for increasing people’s engagement with the natural world. However, how well such applications actually identify plants has not been compressively investigated nor has an easily repeatable scoring system to compare across plant groups been developed. This study investigated the ability of six common Smartphone applications (Google Lens, iNaturalist, Leaf Snap, Plant Net, Plant Snap, Seek) to identify herbaceous plants and developed a repeatable scoring system to assess their success. Thirty-eight species of plant were photographed in their natural habitats using a standard Smartphone (Samsung Galaxy A50) and assessed in each app without image enhancement. All apps showed considerable variation across plant species and were better able to identify flowers than leaves. Plant Net and Leaf Snap outperformed the other apps. Even the higher preforming apps did not have an accuracy above ~88% and lower scoring apps were considerably below this. Smartphone apps present a clear opportunity to encourage people to engage more with plants. Their accuracy can be good, but should not be considered excellent or assumed to be correct, particularly if the species in question may be toxic or otherwise problematic.

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Botanical boom: A new opportunity to promote the public appreciation of botany

Cited by 26 publications

References 53 publications

No ambiguity: Chemosensory-based ayurvedic classification of medicinal plants can be fingerprinted using E-tongue coupled with multivariate statistical analysis

No ambiguity: Chemosensory-based ayurvedic classification of medicinal plants can be fingerprinted using E-tongue coupled with multivariate statistical analysis

The botanical education extinction and the fall of plant awareness

A repeatable scoring system for assessing Smartphone applications ability to identify herbaceous plants

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