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Article

Insects in Art during an Age of Environmental Turmoil

by
Barrett Anthony Klein
1,* and
Tierney Brosius
2
1
Department of Biology, University of Wisconsin—La Crosse, La Crosse, WI 54601, USA
2
Department of Biology, Augustana College, Rock Island, IL 61201, USA
*
Author to whom correspondence should be addressed.
Insects 2022, 13(5), 448; https://doi.org/10.3390/insects13050448
Submission received: 31 March 2022 / Revised: 29 April 2022 / Accepted: 5 May 2022 / Published: 9 May 2022
(This article belongs to the Collection Cultural Entomology: Our Love-hate Relationship with Insects)
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Abstract

:

Simple Summary

The diversity of life on Earth is declining due to human decisions and human actions. Scientists have clearly identified categories of human-induced environmental distress, and public awareness is growing, yet science and related media reports are not affecting enough policy change to forestall our impact. Additional approaches need to be taken, and one potent vehicle for eliciting responses is art. Some visual artists have chosen to include insects in their work. Insects are diverse, abundant, ecologically and culturally important to us, and are suffering declines by our hand. These qualities, coupled with insects’ uncanny ability to evoke emotional extremes, marks them as uniquely powerful subjects for artists to convey messages about our relationship with the planet. We surveyed relevant work by 73 artists and found a bias favoring insect art addressing habitat destruction or climate change, and an underrepresentation of art related to several other important categories of environmental destruction. Art favored Hymenoptera over all other insect orders, including orders containing more described species. Noting these misalignments, we see opportunities for artists to more extensively explore insect diversity and the harm we are causing, and for art to increasingly play a complementary role in affecting change in our destructive behavior.

Abstract

Humans are reshaping the planet in impressive, and impressively self-destructive, ways. Evidence and awareness of our environmental impact has failed to elicit meaningful change in reversing our behavior. A multifaceted approach to communicating human-induced environmental destruction is critical, and art can affect our behavior by its power to evoke emotions. Artists often use insects in their works because of our intimate and varied relationship with this diverse, abundant lineage of animals. We surveyed work by 73 artists featuring insects or insect bodily products to gauge how extensively artists are addressing anthropogenic environmental distress, and what insects they are choosing as subjects in the process. Categories often cited as contributing to species extinction are (1) habitat destruction, (2) invasive species, (3) pollution, (4) human population, and (5) overharvesting. After adding insect-specific categories of (6) decline of insect pollinators and (7) the intentional modification or extermination of insects, we categorized our surveyed works, confirming categorizations with 53 of the living artists. Forty-seven percent of the artists addressed habitat destruction or climate change, but some other categories were severely underrepresented, with almost no work explicitly addressing overpopulation or overharvesting. Artists favored Hymenoptera (62%) over potentially more species-rich orders. Recognizing these biases could alert scientists, artists, and others to more effectively communicate messages of universal importance.

Graphical Abstract

1. Introduction

“We stand guard over works of art, but species representing the work of aeons are stolen from under our noses”.
—Aldo Leopold
The human aptitude for modifying environments has become a hallmark of our species. As a result of this talent, we have doubled our average life expectancy in the last 200 years [1]. Over the last 50 years, the global economy has grown nearly fourfold [2] and extreme poverty has declined by over 50% [3]. The successful altering of environments and corresponding advances in medical technology has resulted in an explosion of the global human population to almost 8 billion [4]. As remarkable as these developments are, they have come at a frightening ecological cost. Drastic changes in human population and resulting economic growth have increased demand for energy and materials at an alarming rate. Land is cleared for food and extraction of resources [5], accidental and intentional introductions of organisms to new locations have permanently destabilized entire ecosystems [6,7,8], and the sharp increase of atmospheric CO2 levels has resulted in global temperature rises that have been connected to unprecedented heat waves, droughts, and other extreme weather events [9,10,11].
Several recent studies raise red flags regarding what is being called the sixth mass extinction event [12,13,14,15,16,17]. Ocean ecosystems are under increasing pressure from climate change [18,19], and declines in nearly every major vertebrate group have been recorded [20,21]. Terrestrial invertebrates also appear to be declining [13,22,23,24,25]. Insect populations are not inexhaustible, and a reckoning based on this realization has been captured with headlines such as “The Insect Apocalypse Is Here” [26] and “An Insect Apocalypse Will Be Our Apocalypse” [27]. As we are hit with waves of studies documenting biodiversity loss throughout the world, it is clear that humans are the primary cause of climate change and rapid environmental destruction [28]. There is nearly universal acceptance among experts that the planet’s atmosphere has a growing abundance of CO2 and other greenhouse gases as a result of burning fossil fuels [29,30]. The resulting loss of biodiversity caused by human behavior will alter the functioning of the ecosystems that we rely on for future prosperity [31]. E. O. Wilson adopted the acronym “HIPPO” as a way to summarize threats causing biodiversity loss: H = Habitat loss, I = Invasive species, P = Pollution, P = human Population, and O = Overharvesting. The threats are not independent of each other, and human population affects all other threats, but if this second P in HIPPO is removed, Wilson suggests that HIPPO represents the threats in order of decreasing magnitude, at least in the best known taxa (including vertebrates and flowering plants) [32]. While it is clear that there is a problem and we are the primary cause of this problem, there is no consensus on how to reverse course. As more time passes and no substantial actions are taken, damage to our planet continues to increase [33]. Human-induced environmental destruction is the most important issue of our time, and having a dangerously disjointed leadership makes it difficult to imagine a unified effort to curtail it [34].
The lack of motivation to stop environmental destruction might hint at a general ignorance of how our actions are affecting the planet. This does not seem to be the case, however. Surveys suggest the public is aware of climate change [35,36]. Environmental destruction is featured prominently through many news outlets and is taught at different levels of education, including primary school. It seems that while news coverage does lead to awareness of problems with the environment, it does not directly translate to public engagement or policy acceptance [37]. To enact change, it clearly is insufficient to rely on empirical evidence and scientific reports alone, or on media sources to report on these findings.
Behavioral decision research suggests that worry drives perceptions of risk and lack of emotional response leads to inaction [38]. When people fail to perceive risk, they do not take action. The very nature of environmental destruction, especially climate change, is often abstract and time-delayed, which leads to a decreased perception of risk [38,39,40,41]. Even if we are successful at increasing concern about climate change, we may find that tactic to be ineffective. The current messaging around environmental destruction, including climate change, has often been fear. While fear can grab attention and motivate action [39], can it motivate long-term change? Current research suggests that this type of messaging may be ineffective or even counterproductive [42,43,44]. The wide range of emotions associated with environmental destruction and our response to those emotions is complicated. Emotions such as fear, anger, guilt, and even pride have all been connected to environmental motivation [44,45,46,47]; however, we need to understand how best to nurture these emotional responses in a constructive way that has a meaningful impact.
A growing number of individuals are turning to art to help raise public awareness of topics related to environmental destruction [40,41,47,48]. Art’s ability to evoke emotions while encouraging dialogue may serve as a powerful tool in communicating the importance of the environment. Art has been found to facilitate discussion among stakeholders and to increase group discussions [40,47,49,50,51,52]. Using a survey of 874 spectators of art that accompanied the 21st UN climate summit in Paris, Sommer and Klöckner found that climate change-related art may serve as an effective way of triggering emotional responses [51].
As entomologists, we were particularly interested in the power of insects to serve as influencers on the topic of environmental awareness. Insects are commonplace and familiar to everyone, and insect imagery elicits a wide range of emotional responses. For some cultures, insects have become symbols and are subjects to be celebrated, yet for others insects can be the objects of intense fear, potentially with deep roots in our evolutionary psychology [53]. Can artists use this combination of familiarity and uneasiness we have towards insects to make unique contributions to the growing and influential movement of environmental art? Are insects particularly suited for communicating some aspects of environmental destruction? We surveyed examples of insect art—art featuring insects [54,55,56,57,58] or incorporating insect bodily products [59,60,61]—that addresses human-induced environmental destruction to see how prevalent this body of art is, and if biases exist with respect to artists’ attention to categories of destruction or taxa of insects.

2. Materials and Methods

We conducted a survey of art to find any work using insects that addresses the topic of anthropogenic environmental destruction. To identify works that specifically involve humans as drivers of environmental distress or biodiversity loss, we surveyed:
  • Collections of insect-themed art, published in books and exhibit catalogs (see references for partial list);
  • Insect-themed gallery exhibits, accessible online;
  • Articles written about artists using insects in their work, found online or from B.A.K.’s personal collection of tangible and digital files;
  • Books about environmental art (see references for examples);
  • Social media, by making calls for thematically relevant examples through Facebook and Twitter;
  • Artists, by asking for examples of others’ art we had not already listed.
Humans are impacting the planet in different ways. We created categories that addressed widely cited drivers of human-induced environmental distress, with some focus paid to more insect-specific issues. Borrowing from the common mnemonic HIPPO, encapsulating causes of species extinction [32], and categories we created for a book chapter in a series about cultural entomology [62], we created the following categories for this treatment:
  • Habitat destruction/change, including climate change;
  • Invasive species;
  • Pollution, including use of pesticides;
  • Human population;
  • Overharvesting by hunting;
  • Decline of pollinators, including colony collapse disorder (despite human involvement not being clear with regard to colony collapse disorder);
  • Intentional modification (e.g., bioengineering) or extermination of insects, with concern for insects or the environment in mind;
  • Concern for environment/insects (when human involvement is not made explicitly clear).
The first five categories are slightly modified from HIPPO. We created the final category in case we found art that appeared to us to be perfectly relevant, but we could not confirm in which category, if any, the works belong. We included artists in our survey if descriptions of at least one of their insect works was explicitly relevant to the theme, as expressed by the creators of the art, or by authors, journalists, or critics writing about the art. If the artist produced multiple relevant works, we selected representative pieces that maximized the number of different categories of human-induced environmental distress or the number of insect orders featured. Work was relevant if an artist was motivated to produce an insect work to address one of the categories listed above or wished to exhibit the work to convey a message relevant to one of these categories. Artists often describe their motivations for creating specific pieces, or an entire body of their work on their personal websites, in interviews, or in exhibition catalogs. Secondhand accounts, written by others, frequently express artists’ motivations, or attempt to independently interpret artists’ works. When possible, we contacted each artist directly to confirm that our categorization of their work was appropriate. When contact was made, we replaced secondary accounts (not made by the artists) with the artists’ own interpretations of their work. In several cases, we asked artists if their insect art was relevant to the list of categories, if we suspected that it might be but had found no evidence elsewhere to confirm this.

3. Results

Environmental art is typically modern or contemporary, so given the nature of our survey, none of our results feature insect art predating the recent environmental movement. Our survey includes 73 artists, or teams of artists, who have produced at least one art piece that features insects or insect bodily products relevant to this article’s theme of human-induced environmental distress. Each of our approaches to finding artists was helpful, though use of social media generated the fewest examples of relevant art. We attempted to contact all living artists (at least two were dead at the time of writing), and 53 (73%) of the artists were able to fact-check our information about their work. Five of these artists produced works relevant to these categories, but we had no evidence to confirm that their intentions were aligned with this article’s theme until we contacted them (“Ref” cell empty and “pc” cell filled in Table A1).

3.1. Categories of Destruction

Artists created works unequally across the categories of environmental concern. Most artists produced insect art relevant to habitat destruction or climate change (34 of the 73 artists; 47%; Figure 1), followed by pollution (23 artists; 32%; Figure 2), decline of pollinators or colony collapse disorder (19 artists; 26%; Figure 3), invasive species (13 artists; 18%; Figure 4), and the intentional modification or extermination of insects (10 and 3 artists, respectively; 18%; Figure 5). We found only one example of insect art where the artist addresses human overpopulation, and one work where the artist addresses overharvesting by hunting, and in both of these cases other categories were cited as complementary concerns. Fourteen (19%) of the artists produced works that expressed concern for insects or the environment without citing specific human involvement, or listing other categories of concern (Figure 6). Though concern for the environment or insects was considered implicit for works assigned to the other categories, five of the artists wished to include an additional, specific category of concern (not included in calculations, but listed in Table A1).
Each artist is maximally represented five times in the above calculations if their work was relevant to five of the categories (n = 2), though most artists are represented only once (45 of the artists; 62%), or twice (18 of the artists; 25%), limiting a single artist’s bias on the results (Figure 7).
If we exclude artists who addressed more than three categories, the relative proportions of artworks conveying messages related to the categories does not markedly change (Table 1).

3.2. Insect Orders

Of the 73 artists, two artists’ works were performances that involved any and all insects that opportunistically appeared on location, and three other artists have featured an unknown number of insect orders across a series of works. The remaining 68 artists collectively showed biases when selecting insects to include in their works related to anthropogenic environmental change. Hymenoptera were the overwhelming favorites (n = 42 of the 68 artists; 62%), with the closest contenders being Lepidoptera and Coleoptera (24 of the artists featured each order; 35%), followed by Hemiptera (17 artists; 25%) and Diptera (12 artists; 18%).
The same hierarchy of orders exists when analyzing the 148 records of orders in our survey, starting with Hymenoptera (n = 42; 28%) and Lepidoptera and Coleoptera (24 artists featured each order; 16%). Most artists featured only one (n = 42; 62%) or two (n = 8; 12%) insect orders in our survey, but two artists’ works feature nine insect orders. A single artist, or team of artists, using a great number of insect orders in their work could have an outsize influence on the results, so after excluding art featuring more than three orders of insects (“Mix” in Table 1), we found the ordinal bias did not dramatically change, with a bias still favoring Hymenoptera (Table 2).
Hymenoptera appeared in more artworks than any other order—overall, and within several of our categories related to anthropogenic environmental destruction. Hymenoptera appeared in the most works addressing invasive species (n = 8; next closest: nColeoptera = 7), pollution (n = 13; next closest: nLepidoptera = 5), decline of pollinators or colony collapse disorder (n = 20; next closest: nLepidoptera = 5), and intentional modification of insects (n = 5; next closest: nDiptera = 4). Habitat destruction or climate change was strongly represented by two other orders (nHymenoptera = 22 vs. nLepidoptera = 20 and nColeoptera = 23; Figure 8). The categories of human overpopulation and overharvesting by hunting have almost no examples, so a consideration of ordinal bias is beyond speculation.

4. Discussion

Artists featuring insects in work addressing anthropogenic environmental distress did so primarily as it relates to habitat destruction or climate change, followed by pollution, decline of pollinators (or concern about colony collapse disorder), invasive species, and the intentional modification or extermination of insects. Only a single work was related to the issue of human overpopulation or to overharvesting by hunting (Figure 9), at least explicitly by each artist, and in each of these cases other categories were cited as complementary concerns (Table A1). If our categories of anthropogenic environmental distress are a reflection of threats to biodiversity, and E.O. Wilson was accurate when listing the most destructive forces causing biodiversity loss in hierarchical order using HIPPO (noting caveats mentioned in the Introduction), then our surveyed art shows an underrepresentation of works relevant to the category of invasive species, and a nearly complete dismissal of or neglect to explicitly address the threats of human overpopulation or overharvesting by hunting.
What leads to the misalignment of the magnitude of these environmental threats? There is a large body of research devoted to risk perception among the general public and how perceived risks and actual risks often do not align [38,63]. Most artists are not scientists, and they consume the same news media and are influenced by the same factors generating risk perception as other members of the general public. Insect art addressing invasive species may be less prevalent than expected because invasive species’ impact can be more difficult to perceive. Much like climate change, the damage wrought by invasive species can take years to noticeably manifest [38]. When artists did address invasive species in their insect art, their motivations varied greatly, and included whimsy based on insect name, insects themselves being threatened by non-insect invasives, insects innocently taking advantage of ecosystem imbalances caused by humans, and visions of invasive insects as threats to native species (Figure 4 and Figure 8). As for addressing human overpopulation, examples of insect art may appear severely limited for a variety of reasons. Overpopulation is a difficult topic to discuss, and conversation related to curbing population growth can be fraught with controversy. Overpopulation exacerbates all of the other categories of concern, so perhaps artists are addressing more productive conversations connected to unsustainable population growth. Consumption of resources, reducing plastic waste, and female empowerment through education [64] are all part of the larger body of environmental activism. Even the single piece that fit within this category in our survey addressed the complexity by also relating to three other categories.
Our survey included categories in addition to HIPPO and more specific to insects. We found that artists are actively producing works relevant to the decline of pollinators (including concern about colony collapse disorder), and to the intentional modification or extermination of insects. Art motivated by concern for insect pollinators can be subtle, or explicit and haunting; in Traces (2015), for example, Beate Kratt portrays the ominous “essence of the last bee’s dance captured in a jar” [65]. There is broad concern for honey bees, but many artists surveyed were mindful of a wealth of other insect pollinators. Examples include creative works of activism sculpted to aid pollinators in need (Figure 3). Works addressing the intentional modification of insects often allude to genetic modification (Figure 5), but also to industrialized farming or other related topics. Though three artists addressed the intentional extermination of insects, only one artist in our survey created works that do so exclusively, and the works are appropriately stark and dire (Catherine Chalmers’ Executions, 2003).
Just as artists exhibited a bias with respect to category of destruction, artists also chose their six-legged subjects with taxonomic bias. The most diverse insect orders are highly represented in our survey, but the number of artworks surveyed did not perfectly match the species diversity described within these orders (Figure 10). Hymenoptera were the overwhelming favorites, with Coleoptera being grossly underrepresented and Hemiptera being somewhat inflated in their representation. While there is some evidence that Hymenoptera could surpass Coleoptera as the most speciose order of animals on the planet [66], currently the number of described beetle species far surpasses that of Hymenoptera. The Hymenoptera bias is likely explained by a combination of factors centering around our ancient and positive associations with a single species—the western honey bee (Apis mellifera Linnaeus, 1758), which appears far more often than any other species in our survey. Historical associations with honey bees and beekeeping [67,68], love of honey, use of beeswax in encaustics [69], reliance on honey bees for pollination, and concerns about colony collapse disorder are just a few of the reasons why artists may turn to Hymenoptera above other insect orders. Hymenoptera not only supports a great diversity of insects, but a tremendous abundance of insects. Abundance of insects within orders, or biomass of insects per order may also affect artists’ choices, though a lack of data on insect ordinal abundances prevents a careful assessment of this relationship.

4.1. Future of Insect Art Addressing Anthropogenic Environmental Distress

Humans’ and insects’ lives have long been deeply intertwined. Insect diversity and abundance, the ecological services insects perform, and the cultural connections [71,72,73,74,75] we share spell a future of continued reliance and inspiration. Perhaps the use of insects presents a novel way of helping humanity grasp the magnitude of climate change. Thinking creatively about our environmental problems can emerge from the same processes associated with thinking about art [76]. Creativity and innovation have resulted in human-centric advances, and it is possible that this creativity and innovation will affect positive environmental change. Environmental art has a history of shaping debates, and our present environmental crisis only adds urgency to environmental artists’ practice [77]. Our survey exposes unique and creative ways artists incorporate insects when conveying messages about our treatment of the planet, and we expect the frequency, variety, and innovation of insect art relevant to this theme to expand as our crisis deepens.
Just as we cannot rely on an accumulation of scientific data to turn our crisis around, art will not, by itself, solve our environmental problems. The artist Mark Dion astutely pointed out that “to build a culture of nature that features regeneration over destruction, sustainability over depletion and nurturing over domination, it requires input from a diverse collation of thinkers, makers, and doers. Art is one of many areas which can be important to this constellation.” We are faced with a difficult task that will take a globally coordinated effort to maintain life’s diversity. Coordinated effort requires openly sharing information, with platforms optimized for dissemination to a diverse audience. Many scientists are speaking about their work directly using social media platforms, and this can help to make science more accessible to people outside of the scientific community. People need to feel empowered to take action, and part of being empowered is being informed. An educated populace can make informed choices and vote in ways that reflect their understanding of crucially important issues. As scientists who are acutely familiar with the challenges facing us in the coming decades and as entomologists who are enamored and fascinated with the beauty and biology of insects, we find hope and optimism when insects are used creatively as vehicles to communicate the most globally important issues of our time.

4.2. Qualifiers of Survey

It is possible that our results are tainted by sampling error, and that a multitude of insect artworks exists relevant to human overpopulation, or overharvesting, or the pattern of insect orders featured in relevant works more closely resembles the relative species diversity within those orders. Our survey suffers from multiple biases. Our search for relevant artworks was constrained by what art and interpretations of art were publicly available, or were privately communicated. Not all artists are explicit about their motivations or intentions. We were fortunate in that 53 of the 73 artists confirmed or modified our categorizations of their work, but there is an unknown bounty of works we were unable to identify as relevant to our survey theme. This includes works by artists who are dead and did not convey their motivations, or by living artists who keep their intentions private. The environmental art movement is relatively recent, but individual artists’ concerns for biodiversity or concerns about our mistreatment of the planet may predate this movement, and older, relevant insect art may exist. Our search is geographically and culturally biased, in large part because of personal language barriers, but also because of limited access to works not widely exhibited, circulated, or posted online. Our request by social media for relevant works was constrained by our personal or professional social network, which does not reach extensively into communities in Africa, Asia, or Central and South America. There are without doubt artists throughout the world concerned about humans’ impact on the planet who express their concerns by featuring insects. We will continue to uncover their works.

5. Conclusions

Artists motivated to convey messages related to anthropogenic environmental distress have unique opportunities when featuring insects as their subjects. We found that artists have categorically explored different ways in which humans harm biodiversity, but with biases that do not perfectly reflect the relative severity of each of these categories. Insect art addressing habitat destruction, including climate change, are appropriately most common, but we might expect more work to address invasive species, and more than the single examples we found addressing human population growth and overharvesting. Further, artists exhibited a Hymenoptera bias in works relevant to this study, with more speciose orders of insects (Coleoptera, Lepidoptera, Diptera) less frequently represented. Artistic biases exist here for many reasons worth acknowledging. We suggest that art can serve a unique role, complementing public education and scientific and media reports, to elicit change in our behavior and our environmental policies.

Author Contributions

Conceptualization, writing—original draft preparation, writing—review and editing: B.A.K. and T.B.; data curation, B.A.K.; visualization, B.A.K. All authors have read and agreed to the published version of the manuscript.

Funding

This research received no external funding.

Institutional Review Board Statement

Not applicable.

Informed Consent Statement

Informed consent was obtained from all subjects involved in the study.

Data Availability Statement

Data are archived and are publicly available here: https://osf.io/8fdyu/ (accessed on 5 May 2022).

Acknowledgments

We consider this a companion piece to a chapter we wrote for a series of books dedicated to cultural entomology [62], and thank the volume editors. We also thank Alysa Remsburg for carefully reading our paper, and, most importantly, all of the artists who so graciously participated in this survey, and to those who allowed us to feature their exquisite work.

Conflicts of Interest

The authors declare no conflict of interest.

Appendix A

Table
Table A1. Artists using insects to convey a message concerning human-induced environmental distress. We used the following categories related to human involvement in environmental distress: (1) Habitat destruction/change, including climate change; (2) invasive species; (3) pollution, including use of pesticides; (4) human overpopulation; (5) overharvesting by hunting; (6) decline of pollinators, including colony collapse disorder (CCD; human involvement unclear); (7) intentional modification (e.g., bioengineering) or extermination of insects; or (8) concern for environment/insects (human involvement unclear). Categories were extracted from artists’ statements about their insect work, or from others’ interpretations of the work (see Materials and Methods and references). If the artist produced multiple relevant works, we selected representative pieces that maximized the number of different categories of human-induced environmental distress or the number of insect orders featured. “pc” is marked if artists personally communicated that they confirmed information listed here; artists’ interpretations of their own work replaced interpretations made by others. “Mix” signifies that > 3 different insect orders are represented in the artist’s work. “Series” (under Title of work) signifies a body of work (this affects the number of orders featured). Letters under “Ref” refer to website addresses, listed below the table. Ordinal abbreviations: Bl = Blattodea (including Isoptera), Co = Coleoptera, De = Dermaptera, Di = Diptera, Ep = Ephemeroptera, He = Hemiptera, Hy = Hymenoptera, Le = Lepidoptera, Ma = Mantodea, Mc = Mecoptera, Ne = Neuroptera, Od = Odonata, Or = Orthoptera, Ph = Phasmida, Pl = Plecoptera, Si = Siphonaptera, Tr = Trichoptera.
Table A1. Artists using insects to convey a message concerning human-induced environmental distress. We used the following categories related to human involvement in environmental distress: (1) Habitat destruction/change, including climate change; (2) invasive species; (3) pollution, including use of pesticides; (4) human overpopulation; (5) overharvesting by hunting; (6) decline of pollinators, including colony collapse disorder (CCD; human involvement unclear); (7) intentional modification (e.g., bioengineering) or extermination of insects; or (8) concern for environment/insects (human involvement unclear). Categories were extracted from artists’ statements about their insect work, or from others’ interpretations of the work (see Materials and Methods and references). If the artist produced multiple relevant works, we selected representative pieces that maximized the number of different categories of human-induced environmental distress or the number of insect orders featured. “pc” is marked if artists personally communicated that they confirmed information listed here; artists’ interpretations of their own work replaced interpretations made by others. “Mix” signifies that > 3 different insect orders are represented in the artist’s work. “Series” (under Title of work) signifies a body of work (this affects the number of orders featured). Letters under “Ref” refer to website addresses, listed below the table. Ordinal abbreviations: Bl = Blattodea (including Isoptera), Co = Coleoptera, De = Dermaptera, Di = Diptera, Ep = Ephemeroptera, He = Hemiptera, Hy = Hymenoptera, Le = Lepidoptera, Ma = Mantodea, Mc = Mecoptera, Ne = Neuroptera, Od = Odonata, Or = Orthoptera, Ph = Phasmida, Pl = Plecoptera, Si = Siphonaptera, Tr = Trichoptera.
ArtistTitle of WorkInsectOrderCategoryRef.pc
Trish AdamsDisordered Swarming (2013)Western honey bee (Apis mellifera)HyCCDa
Jasmine AhumadaSpotted Lanternfly (2018)Spotted lanternfly (Lycorma delicatula)HeInvasive speciesb
Erin AnfinsonCollapse 5 (2008)A.melliferaHyDecline of pollinators & CCD[65]
Jennifer AngusIn the Midnight Garden (2015)Beetles, cicadas, grasshoppers, katydids, leaf insectsMix: Co, He, Or, PhHabitat destruction; pollution; decline of pollinatorsc
Suzanne AnkerTwilight (2016)Cockroach, beetles, fly, cicadas, bees (including A. mellifera), wasp nests, butterflies, moth, damselfly, grasshopper, stick insectMix: Bl, Co, Di, He, Hy, Le, Od, Or, PhCCD; modification[78]
Brandon BallengéeLove Motel for Insects (2001–ongoing)Insects attracted to ultraviolet lightsMix: any insectsConcern for environment & insectsd, e
The Beehive Design CollectiveThe True Cost of Coal (2010)Cockroaches, beetles, flies, cicada, bees, paper wasps, moths (including peppered moth), butterfly, caddisfly larva, etc. (more may be hidden)Mix: Bl, Co, Di, He, Hy, Le, TrHabitat destruction & climate change; pollutionf
Michael BiancoThe Aristeaus Project (2015–ongoing)A. melliferaHyDecline of pollinatorsg
Matilde BoelhouwerInsectology: Food for Buzz (2018)Hoverflies (Syrphidae), bees, butterflies and moths (urban pollinators)Di, Hy, LeDecline of pollinatorsh
Kristian Brevik(series; ongoing)“All insects” listedMixHabitat destruction & climate change; invasive species; pollution; decline of pollinators; exterminationi
Anne BrodieBEE BOX (2011)A. melliferaHyDecline of pollinatorsj
Wolfgang ButtressThe Hive (2016)A. melliferaHyDecline of pollinators[79]
Catherine ChalmersDouglas Fir—Douglas Fir-Beetle (2022)Douglas-fir beetle (Dendroctonus pseudotsugae)CoHabitat destruction & climate change
We Rule (2013)Leaf-cutter ant (Atta sp.)HyHabitat destruction[80]
Executions (2003)American cockroach (Periplaneta americana)BlExtermination[81]
Julie Alice ChappellInsect sculptures (series; ongoing)Real and fantastical “upcycled” insectsMix: Co, Di, He, Hy, Le, OdConcern for environment: wastek
Donna ConlonNature Improvement Project (2007)Crane flyDiModification
Kindra CrickLost II (2015)A. melliferaHyPollution (pesticides); CCD[65]
Wendy DesChene, Jeff SchmukiThe Moth Project (2015)Bees, mothsHy, LeDecline of pollinators & CCDl
Mark DionHarbingers of the Fifth Season (2014)Invasives: beetles (Agrilus planipennis, Anoplophora glabripennis, Scolytus multistriatus), woolly adelgid (Adelges tsugae), woodwasp (Sirex noctilio), moth (Lymantria dispar); Extinct: blue stag beetle (Platycerus caraboides), levuana moth (Levuana iridescens), Xerces blue (Glaucopsyche xerces), Rocky Mountain locust (Melanoplus spretus)Mix: Co, He, Hy, Le; OrClimate change; invasive speciesm
Elsabe DixonSpotted Lanternfly Zones of Syncopation (2019)L. delicatulaHeInvasive speciesn, [82]
Jim FrazerGlyph Documents (e.g., Glyph 32; 2017)Bark beetles: tracksCoClimate changeo
Victoria FullerIn My Back Yard (2014)Japanese beetle (Popillia japonica), A. melliferaCo, HyHabitat destruction & climate change; invasive species; pollution; overpopulationp
Spelling Bee (2014)A. melliferaHyModificationp
Tera GalantiHope and Futility (2006)Silkworm moth (Bombyx mori)HyModificationq
Erika HarrschMelt (2012)ButterfliesLe Habitat destruction & climate change; concern for environment: humans disconnected from naturer
Sarah HattonCircle 1–8 (2013–2015)A. melliferaHyHabitat destruction (monoculture); pollution (pesticides)s
Susan Hauri-DowningThreatened, Rare—Extant (2018)Thynnine wasp (Zaspilothynnus gilesi)HyHabitat destruction; invasive species (weeds); decline of pollinatorst
Cornelia Hesse-HoneggerHeavily deformed scorpionfly…, etc. (series; 1987–2004)True bugs (Heteroptera, Auchenorrhyncha), scorpionflyHe, McPollution (radioactive, Agent Orange)[83,84]
Chelsea Herman, Angela MeleRECALL: e.T51269349A55309428Rocky mountain locust (Melanoplus spretus)OrHabitat destruction; extermination (extinction)u
Anthony HeywoodSpecies 4945Bombus sp.HyConcern for insects: human threat[85]
Asuka HishikiArch of Monarchs (2013)Danaus plexippusLeHabitat destruction & climate change[86]
Red list wallpaper KYOTO 2015 (2021)18 spp. of threatened beetles (12), fly, bee, butterflies (3), dragonfly; listed here: https://www.pref.kyoto.jp/kankyo/rdb/bio/index.htmlMix: Co, Di, Hy, Le, OdHabitat destruction & climate change; overhuntingv
Jessa Huebing-ReitingerProject InSECT (2003–ongoing) MixConcern for environmentw
Marlène HuissoudPlease stand by (2021)Insect pollinators (referenced: solitary bees, wasps, butterflies)Hy, LeConcern for insects & environmentx
Leif Erik Johansen Uprising (2015)A. melliferaHyClimate changey
Chris Jordan, Helena S. EitelRoundup (2015)A. melliferaHyPollution (pesticides); decline of pollinators[80]
Jenny KendlerAmber Archive (2020)26 spp. of beetles (9), cicada (1), bees (3), wasp (1), ant (1), butterflies (9), moths (2) embedded to appear like amber inclusionsMix: Co, He, Hy, LeHabitat change & climate changez
Milkweed Dispersal Balloons (2014–)Butterflies (including D. plexippus)LePollution (pesticides); decline of pollinatorsz, [87]
Jane KimMigrating Mural (2010–ongoing)Butterflies (including G. xerces, D. plexippus)LeConcern for insects & environmentaa
Isabella KirklandAscendant (2000)Beetles (A. glabripennis, P. japonica, Anthonomus grandis grandis, Metriona elatior), bees (A. mellifera, A. mellifera scutellata), ants (Solenopis invicta, Pheidole megacephala, Iridomyrmex humilis), butterfly (Vanessa cardui), moth (L. dispar), mantis (Tenodera aridifolia sinensis)Mix: Co, Hy, Le, MaInvasive species[88,89]
Trade (2001)Beetles (Chalcosoma caucasus, Plusiotis beyeri, P. resplendens, P. chrysargyrea, Euchroma gigantea, Lucanus cervus, Rosalia alpina, Carabus auratus, Chrysina aurigans), butterflies (Ornithoptera alexandrae, Papilio androgeus, P. homerus, P. chikae chikae, Agrias claudina lugens, Troides priamus), moths (Argema mittrei, Chrysiridia riphearia, Xanthopan morgani praedicta), mantis (Hymenopus coronatus)Co, Le, MaHabitat destruction; concern for insects: exploitation of animal products[88,89]
Barrett KleinLayers (1993)ScarabCoConcern for insects
Karen Anne KleinInvaders (series; 2022)P. japonica, brown marmorated stink bug (Halyomorpha halys), electric ant (Wasmannia auropunctata), crazy ant (Nylanderia fulva), ghost ant (Tapinoma melanocephalum), L. dispar disparMix: Co, He, Hy, LeInvasive species
Beate KrattTraces (2015)A. melliferaHyConcern for insects (bees)[65]
Peter KuperRuins (2015)D. plexippusLeHabitat destruction & climate change[90]
Katja LoherBee Manifesto (2015)A. melliferaHyPollution (pesticides); decline of pollinators & CCDbb
Mike MacDonaldTouched by the Tears of a Butterfly (2001)ButterfliesLeHabitat change; concern for environment: humans disconnected from nature[91]
Ruth MarshCyberhive (2019)BeesHyHabitat destruction & climate change; pollution; decline of pollinators; modificationcc
Louis MasaiThe Art of Beeing (2016)Bees (A. mellifera, Anthophila spp.)HyHabitat destruction & climate change; pollution; decline of pollinators & CCD; modificationdd
Katharina Mischer, Thomas Traxler (mischer’traxler studio)Curiosity Cloud (2015)25 spp. of extinct, highly endangered, very common, & newly discovered insectsMix: Co, Di, Ep, He, Hy, Le, Ne, Od, OrConcern for insects (biodiversity loss)ee
Tim MussoRite of the Dendroctonus jeffreyi (2012)Jeffrey pine beetle (Dendroctonus jeffreyi)CoHabitat change & climate change; invasive species
Carim NahabooIllustrationse.g., hornet robber fly (Asilus crabroniformis), new forest cicada (Cicadetta montana), Chilean bumblebee (Bombus dahlbomii), large garden bumblebee (Bombus ruderatus)Di, He, HyHabitat destruction; invasive species; pollution
Harry NankinMoth Liturgy films (2011–2021) & prints (2016)Bogong moth (Agrotis infusa)LeHabitat loss & climate change; pollutionff
Bekka OrdBye Bye Biodiversity (2018)Larch beetle (Dendroctonus simplex), D. plexippusCo, LeClimate changegg
Richard Pell et al.Center for PostNatural HistoryMosquito (Aedes aegypti), screw-worm (Cochliomyia hominivorax)DiModification[92]
Perdita PhillipsTermite Embassy (2015)TermitesBlClimate changehh
Between a shipwreck and an anthill (2018)Termite moundBlHabitat loss; pollutionhh
David ProchaskaPoint Arrow to Dot (series; 2003–2006)Earwig, mosquito, cicada, mantid, flea (and spider)Mix: De, Di, He, Ma, SiPollution (pesticides)[93]
Garnett PuettUntitled (1985)A. melliferaHyConcern for environment: humans disconnected from nature[94]
Reinhard ReitzensteinMemory Vessel (1994)A. mellifera: beeswaxHyInvasive species[95]
Pedro ReyesThe Grass-whopper (2013)Grasshopper, cricketOrClimate changeii
Alexis RockmanThe Farm (2000)Fruit fly (Drosophila melanogaster), peppered moth (Biston betularia)Di, LePollution; modification[88]
Bärbel RothhaarBeekeeper Portrait 1 (2004)A. melliferaHyClimate change; pollution; decline of pollinatorsjj, [96]
Christy RuppGlyphosate… and Cotton Boll Weevil (1999)Cotton boll weevil (Anthonomus grandis)CoPollution (pesticides); modificationkk, [86]
Kimberly ShafferBeetle Service, Black Beetle, etc. (series; 2016)Beetles, cicadas, ants (Pogonomyrmex californicus)Co, He, HyConcern for environment (partial proceeds to conservation)ll
Jaune Quick-to-See SmithCarousel (2004)Beetle, butterfly caterpillarCo, LeHabitat destruction; concern for environment: humans disconnected from nature[88]
Angela ThamesSurrey Butterflies (2007–2008)ButterfliesLeHabitat destruction[85], mm
Peter von Tiesenhausen A. mellifera: traces on hivesHyConcern for environment[97]
Harriette TsosieThe Dead Bee Scrolls Triptych (2015)A. melliferaHyPollution (pesticides); decline of pollinators & CCD[65]
Cecilia VicuñaInsectageddon (2021, collective performance)All insects, with focus on pollinatorsMix any insectsHabitat destruction; pollution (pesticides); concern for insects & environmentnn
Andy WarholEndangered Species (1983)Callipe silverspot butterfly (Speyeria callippe callippe)LeConcern for environment[98]
Liao WenfengFrom Here to There (2010)AntHyHabitat destruction; concern: humans disconnected from nature[99]
Matt WilleyThe Good of the Hive (2015–)A. melliferaHyDecline of pollinators & CCDoo,
[100]
Vera Ming WongIn Flight (2013)Pollinators and other insectsMix: Co, Di, He, Hy, Le, OdConcern for insectspp
Suze WoolfBark Beetle Books— Vols. I-XXXX(ongoing)Bark beetlesCoHabitat destruction & climate crisisqq
Pinar YoldasMicroplastics and plastisphere insects (2014)pelagic “plastisphere” insectsMix?Pollution (plastic); modificationrr, [101]
Elizabeth Jean YounceThe Withering(series; 2021)Scarab (Paracotalpa granicollis), Sonoran bumblebee (Bombus sonorus), Africanized honey bee (A. mellifera), Bay checkerspot butterfly (Euphydryas editha bayensis), Jerusalem cricket (Stenopelmatus monahansensis), stonefly (Acroneuria abnormis)Mix: Co, Hy, Le, Or, PlHabitat loss; invasive species (including Malta star-thistle, cheatgrass, buffelgrass, zebra mussel); pollution & pesticidesss
Marina ZurkowHeraldic Crests for Invasive Species (series; 2011)Lizard beetle (Acropteroxys gracilis), stem-boring weevil (Mecinus janthinus); Japanese knotweed psyllid (Aphalara itadori)Co, HeInvasive speciestt
Zurkow, Chaudhuri, Kellhammer, ErtlDear Climate (series; 2014–ongoing)Cockroach, beetle grubs, giant water bugs (labeled as beetles), bumblebees, katydidMix: Bl, Co, He, Hy, OrHabitat change & climate change[102]
a https://www.trishadams.tv/. b https://www.instagram.com/p/BhcCrtchBhS/?taken-by=butterflyjasmine49. c http://jenniferangus.com/. d https://brandonballengee.com/. e https://ecoartspace.org/Blog/10483729. f https://beehivecollective.org/. g https://www.biancoprojects.com/. h http://www.matildeboelhouwer.com/. i https://www.kristianbrevik.com/. j http://www.annebrodie.com/. k https://www.etsy.com/market/julie_alice_chappell. l https://www.monsantra.com/moths. m http://collection.imamuseum.org/artwork/83150/. n https://art.gmu.edu/elsabe-dixon/. o https://jimfrazer.com/. p https://www.victoriafullerart.com/. q https://teragalanti.com/home.html. r http://www.erikaharrsch.com/. s http://sarahhattonartist.com/. t http://susanhauri-downing.com/. u https://www.angelamele.art/. v http://greenasas.com/. w https://www.facebook.com/jessaarts/. x https://www.marlene-huissoud.com/. y https://www.leiferikjohansen.com/. z https://jennykendler.com/. aa https://inkdwell.com/. bb https://www.katjaloher.com/. cc https://iotainstitute.com/artists/ruth-marsh/. dd https://louismasai.com/projects/the-art-of-beeing/. ee https://mischertraxler.com/studio/ ff https://harrynankin.com/. gg https://digitalcommons.macalester.edu/art_honors/8/. hh https://www.perditaphillips.com/. ii http://www.pedroreyes.net/.jjhttp://www.baerbel-rothhaar.com/. kk https://christyrupp.com/. ll https://www.redbubble.com/people/meeco/shop. mm https://www.angelathames.co.uk/. nn https://www.thehighline.org/art/projects/insectageddon/. oo https://www.thegoodofthehive.com/. pp https://www.projectartfornature.org/Main/Wong.html. qq https://www.suzewoolf-fineart.com/index.php/galleries/artistbooksother/200-bark-beetle-books rr https://cargocollective.com/yoldas/WORK/PINAR-YOLDAS. ss https://www.elizabethjeanyounce.com/. tt http://o-matic.com/play/index.html. (All websites accessed on 5 May 2022.)

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Figure 1. Insect art addressing habitat destruction or climate change. Butterflies in Melt (top; acrylic, ink and collage; 2012) are converted into monetized creatures and speak to the effects of economic power and devastation. Erika Harrsch: “I created [Melt] after I saw from the plane flying over the north pole all the detached fragments of melting ice.” Moth Liturgy 1 (middle; pigment inkjet print from digitally modified scans of gelatin silver film photograms, 2016) is from Harry Nankin’s series featuring live Bogong moths, Agrotis infusa (Boisduval, 1832), from an ecosystem in the Australian Alps “doomed by anthropogenic climate change.” A weevil (bottom left; in resin, 2020) from Jenny Kendler’s Amber Archive. Perdita Phillips created Termite Embassy (bottom center; papier-mâché and cardboard, 2015) in response to the Paris Climate Accords. A butterfly emerges from a modified and mirrored map of Great Hollands, an area that will metamorphose over time “to accommodate our growing population” in Surrey Butterflies (bottom right; Angela Thames; 2007–2008). All images are courtesy and copyright of the artists.
Figure 1. Insect art addressing habitat destruction or climate change. Butterflies in Melt (top; acrylic, ink and collage; 2012) are converted into monetized creatures and speak to the effects of economic power and devastation. Erika Harrsch: “I created [Melt] after I saw from the plane flying over the north pole all the detached fragments of melting ice.” Moth Liturgy 1 (middle; pigment inkjet print from digitally modified scans of gelatin silver film photograms, 2016) is from Harry Nankin’s series featuring live Bogong moths, Agrotis infusa (Boisduval, 1832), from an ecosystem in the Australian Alps “doomed by anthropogenic climate change.” A weevil (bottom left; in resin, 2020) from Jenny Kendler’s Amber Archive. Perdita Phillips created Termite Embassy (bottom center; papier-mâché and cardboard, 2015) in response to the Paris Climate Accords. A butterfly emerges from a modified and mirrored map of Great Hollands, an area that will metamorphose over time “to accommodate our growing population” in Surrey Butterflies (bottom right; Angela Thames; 2007–2008). All images are courtesy and copyright of the artists.
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Figure 2. Insect art addressing pollution. Cornelia Hesse-Honegger has artistically and scientifically investigated and documented deformed insects within the vicinity of nuclear power plants for decades. Scorpionfly, Panorpidae (left; aquarell, 1988) records wing and abdomen deformities of a scorpionfly from Reuental, near nuclear power plant Leibstadt (image courtesy and copyright of the artist). In contrast to highlighting a single specimen on white, The Beehive Design Collective depicts multiple human impacts, including pollution’s effects on peppered moths (near smoke stacks), a caddisfly, and many others in The True Cost of Coal (right: pen and ink, 2010; Creative Commons). Inspired by the back cover of Mad Magazine, this is only the central portion of a larger fold-out poster, featuring mountaintop removal and climate chaos.
Figure 2. Insect art addressing pollution. Cornelia Hesse-Honegger has artistically and scientifically investigated and documented deformed insects within the vicinity of nuclear power plants for decades. Scorpionfly, Panorpidae (left; aquarell, 1988) records wing and abdomen deformities of a scorpionfly from Reuental, near nuclear power plant Leibstadt (image courtesy and copyright of the artist). In contrast to highlighting a single specimen on white, The Beehive Design Collective depicts multiple human impacts, including pollution’s effects on peppered moths (near smoke stacks), a caddisfly, and many others in The True Cost of Coal (right: pen and ink, 2010; Creative Commons). Inspired by the back cover of Mad Magazine, this is only the central portion of a larger fold-out poster, featuring mountaintop removal and climate chaos.
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Figure 3. Insect art addressing the decline of pollinators, or concern about colony collapse disorder (CCD). Matilde Boelhouwer has worked with scientists and engineers to develop a series of artificial flowers to serve as “an emergency food source for the ‘big 5 of pollination.’” Here (top), a syrphid hover fly feeds from one of these flowers in Insectology: Food for Buzz (2018). In Threatened, Rare—Extant (center; Susan Hauri-Downing; 2018), a glass dome contains an engraved image of Zaspilothynnus gilesi Turner, 1910, a thynnine wasp that pollinates an endangered orchid, threatened by a battery of destructive acts executed by humans. Specifically addressing CCD (and bio-engineering), Suzanne Anker’s Twilight (bottom; 2016) includes pollinators among other natural items in Petri dishes. All images are courtesy and copyright of the artists.
Figure 3. Insect art addressing the decline of pollinators, or concern about colony collapse disorder (CCD). Matilde Boelhouwer has worked with scientists and engineers to develop a series of artificial flowers to serve as “an emergency food source for the ‘big 5 of pollination.’” Here (top), a syrphid hover fly feeds from one of these flowers in Insectology: Food for Buzz (2018). In Threatened, Rare—Extant (center; Susan Hauri-Downing; 2018), a glass dome contains an engraved image of Zaspilothynnus gilesi Turner, 1910, a thynnine wasp that pollinates an endangered orchid, threatened by a battery of destructive acts executed by humans. Specifically addressing CCD (and bio-engineering), Suzanne Anker’s Twilight (bottom; 2016) includes pollinators among other natural items in Petri dishes. All images are courtesy and copyright of the artists.
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Figure 4. Insect art addressing invasive species. The emerald ash borer (Agrilus planipennis Fairmaire, 1888) is the invasive species in Life of a Dead Tree (top left; 2019), in which Mark Dion worked with entomologists to collect insects from the felled, 140-year-old tree. Marina Zurkow’s Heraldic Crests for Invasive Species series features the invasive Himalayan Balsam (top right; letterpress print, 2011), with two beetles as its enemies: Acropteroxys gracilis (Newman, 1838) and Mecinus janthinus Thomson, 1865. Insects “are not the invaders; rather, they’re taking advantage of anthropogenically caused ecosystem imbalances.” A lighter (but still electric) approach is taken by Karen Anne Klein in her Invaders handmade book series (middle; Electric Ants; color pencil and inks, 2022). A lone Jerusalem cricket (Stenopelmatus monahansensis Stidham and Stidham, 2001) floats between badger and jackrabbit in Elizabeth Jean Younce’s A Moment so Rare from The Withering series (bottom left; graphite and watercolor, 2021). The insect is rare in an ecosystem overrun by the invasive Buffelgrass. Twelve invasive species of insects populate Ascendant (bottom right; Isabella Kirkland; oil and alkyd, 2000; for key to species see https://www.isabellakirkland.com/; accessed on 5 May 2022). All images are courtesy and copyright of the artists; Zurkow’s image is also courtesy of bitforms gallery.
Figure 4. Insect art addressing invasive species. The emerald ash borer (Agrilus planipennis Fairmaire, 1888) is the invasive species in Life of a Dead Tree (top left; 2019), in which Mark Dion worked with entomologists to collect insects from the felled, 140-year-old tree. Marina Zurkow’s Heraldic Crests for Invasive Species series features the invasive Himalayan Balsam (top right; letterpress print, 2011), with two beetles as its enemies: Acropteroxys gracilis (Newman, 1838) and Mecinus janthinus Thomson, 1865. Insects “are not the invaders; rather, they’re taking advantage of anthropogenically caused ecosystem imbalances.” A lighter (but still electric) approach is taken by Karen Anne Klein in her Invaders handmade book series (middle; Electric Ants; color pencil and inks, 2022). A lone Jerusalem cricket (Stenopelmatus monahansensis Stidham and Stidham, 2001) floats between badger and jackrabbit in Elizabeth Jean Younce’s A Moment so Rare from The Withering series (bottom left; graphite and watercolor, 2021). The insect is rare in an ecosystem overrun by the invasive Buffelgrass. Twelve invasive species of insects populate Ascendant (bottom right; Isabella Kirkland; oil and alkyd, 2000; for key to species see https://www.isabellakirkland.com/; accessed on 5 May 2022). All images are courtesy and copyright of the artists; Zurkow’s image is also courtesy of bitforms gallery.
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Figure 5. Insect art addressing the intentional modification of insects. The dramatically modified cyborg of a bumblebee specimen (left; Cyberhive; 2019) contributes to Ruth Marsh’s “wry, dystopic vision of a future wherein all bees have perished due to human causes.” Marsh displays bee specimens “repaired” with discarded electronics, and animates them for short films. Victoria Fuller imagines the product of our genetically modifying a honey bee to spell in Spelling Bee (right; craft fur, epoxy clay, acrylic, resin, Mylar, Chloroplas; 2014). Both images are courtesy and copyright of the artists.
Figure 5. Insect art addressing the intentional modification of insects. The dramatically modified cyborg of a bumblebee specimen (left; Cyberhive; 2019) contributes to Ruth Marsh’s “wry, dystopic vision of a future wherein all bees have perished due to human causes.” Marsh displays bee specimens “repaired” with discarded electronics, and animates them for short films. Victoria Fuller imagines the product of our genetically modifying a honey bee to spell in Spelling Bee (right; craft fur, epoxy clay, acrylic, resin, Mylar, Chloroplas; 2014). Both images are courtesy and copyright of the artists.
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Figure 6. Art expressing concern for the insects or the environment, when human involvement was not made explicitly clear. One of Jane Kim’s monumental monarch murals in her Migrating Mural series, Midnight Dream (top; 2018) spans 3500 square feet in downtown Orlando, Florida, directly across from City Hall. Marlène Huissoud, also concerned about insect pollinators, has created a series of functional sculptures, Please stand by (left; natural clay and binder, 2021), within which urban pollinators can find shelter. Katharina Mischer and Thomas Traxler (mischer’traxler studio) have created a series of installations of metal moths appearing to fly near lit bulbs, each bulb attracting a different species of moth. Each metal moth is numbered and represents one moth remaining in Austria (limitedMoths; ongoing since 2008). These moths (middle right) represent Catocala conversa (Esper, 1783) in patinated brass. Vera Ming Wong created Airborne (bottom right; cut paper, 2012) with concern “about the myriad assaults by humans upon insects and other invertebrates.” All images are courtesy and copyright of the artists.
Figure 6. Art expressing concern for the insects or the environment, when human involvement was not made explicitly clear. One of Jane Kim’s monumental monarch murals in her Migrating Mural series, Midnight Dream (top; 2018) spans 3500 square feet in downtown Orlando, Florida, directly across from City Hall. Marlène Huissoud, also concerned about insect pollinators, has created a series of functional sculptures, Please stand by (left; natural clay and binder, 2021), within which urban pollinators can find shelter. Katharina Mischer and Thomas Traxler (mischer’traxler studio) have created a series of installations of metal moths appearing to fly near lit bulbs, each bulb attracting a different species of moth. Each metal moth is numbered and represents one moth remaining in Austria (limitedMoths; ongoing since 2008). These moths (middle right) represent Catocala conversa (Esper, 1783) in patinated brass. Vera Ming Wong created Airborne (bottom right; cut paper, 2012) with concern “about the myriad assaults by humans upon insects and other invertebrates.” All images are courtesy and copyright of the artists.
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Figure 7. Number of artworks related to categories of human-induced environmental distress. Each artwork potentially relates to more than one category of environmental distress, but each category is calculated here no more than one time per artist (n = 118 category associations across 73 artists). CCD = colony collapse disorder. Modify/exterminate refers to the intentional modification or extermination of insects. Concern indicates general concern for the environment or for insects, when a more specific categorical assignment could not be made. Black bars represent the first component for each category (e.g., habitat destruction), and light grey bars represent the second component (e.g., climate change). Dark grey bars signify a combination of the two (e.g., habitat destruction and climate change were both cited as relevant to the artwork). From top to bottom, the first five categories were largely adopted from what E.O. Wilson considered the top causes of species extinction, encapsulated in the acronym HIPPO [32].
Figure 7. Number of artworks related to categories of human-induced environmental distress. Each artwork potentially relates to more than one category of environmental distress, but each category is calculated here no more than one time per artist (n = 118 category associations across 73 artists). CCD = colony collapse disorder. Modify/exterminate refers to the intentional modification or extermination of insects. Concern indicates general concern for the environment or for insects, when a more specific categorical assignment could not be made. Black bars represent the first component for each category (e.g., habitat destruction), and light grey bars represent the second component (e.g., climate change). Dark grey bars signify a combination of the two (e.g., habitat destruction and climate change were both cited as relevant to the artwork). From top to bottom, the first five categories were largely adopted from what E.O. Wilson considered the top causes of species extinction, encapsulated in the acronym HIPPO [32].
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Figure 8. Bark beetles as vehicles for addressing environmental destruction. Certain species or lineages of insects appeared repeatedly in our sample. Although not as common as the western honey bee or monarch butterfly, bark beetles feature in works by, from left to right, Tim Musso (Rite of the Dendroctonus jefferyi; wood engraving, 2012), Suze Woolf (Survivorship (Volume XXVII); log with mountain pine beetle galleries, conifer mRNA texts and inked galleries on pages, 2019), and Catherine Chalmers (Douglas Fir—Douglas Fir Beetle; wood block print on photograph, 2022). To all three artists, damage by bark beetles indicates mismanaged forests (habitat destruction in the form of clear-cutting and fire suppression) and climate change, resulting in historically unprecedented advances by the beetles. Musso includes invasive species among the categories his works convey, due to these advances. Images courtesy and copyright of the artists.
Figure 8. Bark beetles as vehicles for addressing environmental destruction. Certain species or lineages of insects appeared repeatedly in our sample. Although not as common as the western honey bee or monarch butterfly, bark beetles feature in works by, from left to right, Tim Musso (Rite of the Dendroctonus jefferyi; wood engraving, 2012), Suze Woolf (Survivorship (Volume XXVII); log with mountain pine beetle galleries, conifer mRNA texts and inked galleries on pages, 2019), and Catherine Chalmers (Douglas Fir—Douglas Fir Beetle; wood block print on photograph, 2022). To all three artists, damage by bark beetles indicates mismanaged forests (habitat destruction in the form of clear-cutting and fire suppression) and climate change, resulting in historically unprecedented advances by the beetles. Musso includes invasive species among the categories his works convey, due to these advances. Images courtesy and copyright of the artists.
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Figure 9. Insect art addressing overharvesting by hunting, as well as habitat destruction and climate change. Asuka Hishiki’s Red list wallpaper KYOTO 2015 (detail of inkjet print, 2021) is a pattern comprised entirely of insects, plants, and fungi, all on the endangered red list in Kyoto prefecture, as of 2015. Included are 12 species of beetles, 3 species of butterflies, a dragonfly, a fly, and a bee, some overhunted because of their beauty. To Hishiki “This piece is a reminder to myself that we can be blind to the devastating problem. Like ‘wallpaper’, it is there in front of us, but we tend to ignore it as vague background decoration.” Image courtesy and copyright of the artist.
Figure 9. Insect art addressing overharvesting by hunting, as well as habitat destruction and climate change. Asuka Hishiki’s Red list wallpaper KYOTO 2015 (detail of inkjet print, 2021) is a pattern comprised entirely of insects, plants, and fungi, all on the endangered red list in Kyoto prefecture, as of 2015. Included are 12 species of beetles, 3 species of butterflies, a dragonfly, a fly, and a bee, some overhunted because of their beauty. To Hishiki “This piece is a reminder to myself that we can be blind to the devastating problem. Like ‘wallpaper’, it is there in front of us, but we tend to ignore it as vague background decoration.” Image courtesy and copyright of the artist.
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Figure 10. Numbers of surveyed artworks that address human-induced environmental disturbance, and total number of insect species known, organized by insect order. Each artwork potentially features more than one insect order, but each order is calculated here no more than one time per artist. Data here represent 68 of the surveyed artists (whose art has a discrete set of known, identifiable insect orders; n = 148 order associations). Ordinal abbreviations: Ar = Archaeognatha, Bl = Blattodea (including Isoptera), Co = Coleoptera, De = Dermaptera, Di = Diptera, Em = Embioptera, Ep = Ephemeroptera, He = Hemiptera, Hy = Hymenoptera, Le = Lepidoptera, Ma = Mantodea, Mc = Mecoptera, Me = Megaloptera, Ne = Neuroptera, No = Notoptera, Od = Odonata, Or = Orthoptera, Ph = Phasmida, Pl = Plecoptera, Ps = Psocodea, Ra = Raphidioptera, Si = Siphonaptera, St = Strepsiptera, Th = Thysanoptera, Tr = Trichoptera, Zo = Zoraptera, Zy = Zygentoma. Species numbers and order names adopted from Stork [70], though we collapsed Phthiraptera and Psocoptera into Psocodea, and Mantophasmatodea and Grylloblattodea into Notoptera.
Figure 10. Numbers of surveyed artworks that address human-induced environmental disturbance, and total number of insect species known, organized by insect order. Each artwork potentially features more than one insect order, but each order is calculated here no more than one time per artist. Data here represent 68 of the surveyed artists (whose art has a discrete set of known, identifiable insect orders; n = 148 order associations). Ordinal abbreviations: Ar = Archaeognatha, Bl = Blattodea (including Isoptera), Co = Coleoptera, De = Dermaptera, Di = Diptera, Em = Embioptera, Ep = Ephemeroptera, He = Hemiptera, Hy = Hymenoptera, Le = Lepidoptera, Ma = Mantodea, Mc = Mecoptera, Me = Megaloptera, Ne = Neuroptera, No = Notoptera, Od = Odonata, Or = Orthoptera, Ph = Phasmida, Pl = Plecoptera, Ps = Psocodea, Ra = Raphidioptera, Si = Siphonaptera, St = Strepsiptera, Th = Thysanoptera, Tr = Trichoptera, Zo = Zoraptera, Zy = Zygentoma. Species numbers and order names adopted from Stork [70], though we collapsed Phthiraptera and Psocoptera into Psocodea, and Mantophasmatodea and Grylloblattodea into Notoptera.
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Table
Table 1. Number and percentage of artworks related to categories of human-induced environmental distress. Each artwork potentially relates to more than one category of environmental distress, but each category is calculated here no more than one time per artist. We surveyed 73 artists (n = 118 category associations), and then surveyed 68 of the artists whose work addresses ≤ 3 of these categories (n = 97 category associations), to reduce bias from any artist whose work addresses many categories. From top to bottom, the first five categories relate to HIPPO [32]. CCD = colony collapse disorder. Concern indicates general concern for the environment or for insects, when a more specific categorical assignment could not be made.
Table 1. Number and percentage of artworks related to categories of human-induced environmental distress. Each artwork potentially relates to more than one category of environmental distress, but each category is calculated here no more than one time per artist. We surveyed 73 artists (n = 118 category associations), and then surveyed 68 of the artists whose work addresses ≤ 3 of these categories (n = 97 category associations), to reduce bias from any artist whose work addresses many categories. From top to bottom, the first five categories relate to HIPPO [32]. CCD = colony collapse disorder. Concern indicates general concern for the environment or for insects, when a more specific categorical assignment could not be made.
Art Art with ≤ 3 Categories
Category of Environmental Distress#%#%
Habitat/climate change34472943
Invasive species13181116
Pollution23321826
Human overpopulation1100
Overharvesting by hunting1111
Decline of pollinators/CCD19261522
Intentional modification/extermination1318913
Concern14191421
Table
Table 2. Number and percentage of artworks addressing human-induced environmental disturbance, organized by insect order featured in the artists’ works. Each artwork potentially features more than one insect order, but each order is calculated here no more than one time per artist. Data here represent 68 of the surveyed artists (whose art has a discrete set of known, identifiable insect orders; n = 148 order associations), and then 57 of the artists whose work addressed ≤ 3 insect orders (n = 80 order associations), to reduce bias from any artist whose work features many insect orders. Only the eight insect orders most frequently featured are included here.
Table 2. Number and percentage of artworks addressing human-induced environmental disturbance, organized by insect order featured in the artists’ works. Each artwork potentially features more than one insect order, but each order is calculated here no more than one time per artist. Data here represent 68 of the surveyed artists (whose art has a discrete set of known, identifiable insect orders; n = 148 order associations), and then 57 of the artists whose work addressed ≤ 3 insect orders (n = 80 order associations), to reduce bias from any artist whose work features many insect orders. Only the eight insect orders most frequently featured are included here.
ArtArt with ≤ 3 Orders
Insect Order#%#%
Hymenoptera42623256
Lepidoptera24351628
Coleoptera24351323
Hemiptera1725611
Diptera1218611
Orthoptera81224
Blattodea5724
Odonata5712
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Klein, B.A.; Brosius, T. Insects in Art during an Age of Environmental Turmoil. Insects 2022, 13, 448. https://doi.org/10.3390/insects13050448

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Klein BA, Brosius T. Insects in Art during an Age of Environmental Turmoil. Insects. 2022; 13(5):448. https://doi.org/10.3390/insects13050448

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Klein, Barrett Anthony, and Tierney Brosius. 2022. "Insects in Art during an Age of Environmental Turmoil" Insects 13, no. 5: 448. https://doi.org/10.3390/insects13050448

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