The colors of life: an interdisciplinary artist-in-residence project to research fungal pigments as a gateway to empathy and understanding of microbial life.
{"title":"The colors of life: an interdisciplinary artist-in-residence project to research fungal pigments as a gateway to empathy and understanding of microbial life.","authors":"Sunanda Sharma, Vera Meyer","doi":"10.1186/s40694-021-00130-7","DOIUrl":null,"url":null,"abstract":"<p><strong>Background: </strong>Biological pigmentation is one of the most intriguing traits of many fungi. It holds significance to scientists, as a sign of biochemical metabolism and organism-environment interaction, and to artists, as the source of natural colors that capture the beauty of the microbial world. Furthermore, the functional roles and aesthetic appeal of biological pigmentation may be a path to inspiring human empathy for microorganisms, which is key to understanding and preserving microbial biodiversity. A project focused on cross-species empathy was initiated and conducted as part of an artist-in-residence program in 2021. The aim of this residency is to bridge the current divide between science and art through interdisciplinary practice focused on fungi.</p><p><strong>Results: </strong>The residency resulted in multiple products that are designed for artistic and scientific audiences with the central theme of biological pigmentation in fungi and other microorganisms. The first product is a video artwork that focuses on Aspergillus niger as a model organism that produces melanin pigment in a biosynthetic process similar to that of humans. The growth and morphology of this commonplace organism are displayed through video, photo, animation, and time-lapse footage, inviting the viewer to examine the likenesses and overlaps between humans and fungi. The second product is The Living Color Database, an online compendium of biological colors for scientists, artists, and designers. It links organisms across the tree of life, focusing on fungi, bacteria, and archaea, and the colors they express through biological pigmentation. Each pigment is represented in terms of its chemistry, its related biosynthesis, and its color expressions according to different indices: HEX, RGB, and Pantone. It is available at color.bio.</p><p><strong>Conclusions: </strong>As fungal biotechnology continues to mature into new application areas, it is as important as ever that there is human empathy for these organisms to promote the preservation and appreciation of fungal biodiversity. The products presented here provide paths for artists, scientists, and designers to understand microorganisms through the lens of color, promoting interspecies empathy through research, teaching, and practice.</p>","PeriodicalId":52292,"journal":{"name":"Fungal Biology and Biotechnology","volume":" ","pages":"1"},"PeriodicalIF":0.0000,"publicationDate":"2022-01-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8744264/pdf/","citationCount":"5","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Fungal Biology and Biotechnology","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1186/s40694-021-00130-7","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"Agricultural and Biological Sciences","Score":null,"Total":0}
引用次数: 5
Abstract
Background: Biological pigmentation is one of the most intriguing traits of many fungi. It holds significance to scientists, as a sign of biochemical metabolism and organism-environment interaction, and to artists, as the source of natural colors that capture the beauty of the microbial world. Furthermore, the functional roles and aesthetic appeal of biological pigmentation may be a path to inspiring human empathy for microorganisms, which is key to understanding and preserving microbial biodiversity. A project focused on cross-species empathy was initiated and conducted as part of an artist-in-residence program in 2021. The aim of this residency is to bridge the current divide between science and art through interdisciplinary practice focused on fungi.
Results: The residency resulted in multiple products that are designed for artistic and scientific audiences with the central theme of biological pigmentation in fungi and other microorganisms. The first product is a video artwork that focuses on Aspergillus niger as a model organism that produces melanin pigment in a biosynthetic process similar to that of humans. The growth and morphology of this commonplace organism are displayed through video, photo, animation, and time-lapse footage, inviting the viewer to examine the likenesses and overlaps between humans and fungi. The second product is The Living Color Database, an online compendium of biological colors for scientists, artists, and designers. It links organisms across the tree of life, focusing on fungi, bacteria, and archaea, and the colors they express through biological pigmentation. Each pigment is represented in terms of its chemistry, its related biosynthesis, and its color expressions according to different indices: HEX, RGB, and Pantone. It is available at color.bio.
Conclusions: As fungal biotechnology continues to mature into new application areas, it is as important as ever that there is human empathy for these organisms to promote the preservation and appreciation of fungal biodiversity. The products presented here provide paths for artists, scientists, and designers to understand microorganisms through the lens of color, promoting interspecies empathy through research, teaching, and practice.
背景:生物色素沉着是许多真菌最有趣的特征之一。对科学家来说,它是生化代谢和生物与环境相互作用的标志,对艺术家来说,它是捕捉微生物世界之美的自然色彩的来源。此外,生物色素的功能作用和美学吸引力可能是激发人类对微生物的同理心的途径,这是理解和保护微生物多样性的关键。2021年,作为驻场艺术家项目的一部分,一个专注于跨物种同理心的项目启动并实施。本次驻留的目的是通过专注于真菌的跨学科实践来弥合目前科学与艺术之间的鸿沟。结果:驻留产生了多种产品,为艺术和科学观众设计,中心主题是真菌和其他微生物的生物色素沉着。第一个产品是一个视频艺术作品,重点介绍黑曲霉作为一种模式生物,在类似于人类的生物合成过程中产生黑色素。通过视频、照片、动画和延时镜头展示了这种常见生物的生长和形态,邀请观众检查人类和真菌之间的相似性和重叠。第二个产品是The Living Color Database,这是一个面向科学家、艺术家和设计师的生物颜色在线纲要。它将生命之树上的生物联系起来,重点关注真菌、细菌和古细菌,以及它们通过生物色素沉着表达的颜色。每一种色素都是根据其化学性质、相关的生物合成以及不同的指数(HEX、RGB和Pantone)来表示颜色的。结论:随着真菌生物技术在新的应用领域的不断成熟,人类对这些生物的同情对于促进真菌生物多样性的保护和欣赏同样重要。这里展示的产品为艺术家、科学家和设计师提供了通过颜色来理解微生物的途径,通过研究、教学和实践促进物种间的同理心。