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1. Testing impacts of goal-oriented outreach with the Girl Scouts: Can a single activity change attitudes towards insects?

   Mongue, Andrew J.; Colyott, Kaila L. (July 2021, Journal of higher education outreach and engagement)

   null (Ed.)

   Most people meet insects with fear and disgust but this reputation is largely unfounded, as few insects pose health risks. In fact, many are beneficial and their absence would adversely affect human life; thus insect conservation is important but unpopular. We have begun addressing these concerns as part of a broader effort to establish an ongoing outreach partnership between graduate students at the University of Kansas and the Girl Scouts of Northeast Kansas/Northwest Missouri. To explore ways to advocate for insect conservation, we held an insect collecting activity at a Girl Scout summer camp and surveyed changes in attitudes towards insects afterwards. This activity positively changed reactions to insect encounters and increased confidence in identifying harmful insects but did not strongly reduce fears or increase curiosity towards insects. Beyond these proximate results, this project highlights the potential of Girl Scout troops as targets for informal science education that can benefit both academics and the broader community. 

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2. Climate warming and bumble bee declines: the need to consider sub-lethal heat, carry-over effects, and colony compensation

   https://doi.org/10.3389/fphys.2023.1251235  

   White, Sabrina A.; Dillon, Michael E. (October 2023, Frontiers in Physiology)

   Global declines in abundance and diversity of insects are now well-documented and increasingly concerning given the critical and diverse roles insects play in all ecosystems. Habitat loss, invasive species, and anthropogenic chemicals are all clearly detrimental to insect populations, but mounting evidence implicates climate change as a key driver of insect declines globally. Warming temperatures combined with increased variability may expose organisms to extreme heat that exceeds tolerance, potentially driving local extirpations. In this context, heat tolerance limits (e.g., critical thermal maximum, CT_max) have been measured for many invertebrates and are often closely linked to climate regions where animals are found. However, temperatures well below CT_maxmay also have pronounced effects on insects, but have been relatively less studied. Additionally, many insects with out-sized ecological and economic footprints are colonial (e.g., ants, social bees, termites) such that effects of heat on individuals may propagate through or be compensated by the colony. For colonial organisms, measuring direct effects on individuals may therefore reveal little about population-level impacts of changing climates. Here, we use bumble bees (genusBombus) as a case study to highlight how a limited understanding of heat effects below CT_maxand of colonial impacts and responses both likely hinder our ability to explain past and predict future climate change impacts. Insights from bumble bees suggest that, for diverse invertebrates, predicting climate change impacts will require a more nuanced understanding of the effects of heat exposure and additional studies of carry-over effects and compensatory responses by colonies. 

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3. A framework for the assessment of outreach drawers in insect collections

   https://doi.org/10.3897/nhcm.2.153644  

   Gonzalez, Victor H; Wiggins, Kelsey L; Bonnell, Kade; Girón, Jennifer C (August 2025, Natural History Collections and Museomics)

   Insect research collections often include outreach drawers displaying specimens to enhance public awareness and access to scientific knowledge at various events. Despite their educational value, there is limited understanding of how these drawers are designed, used, or evaluated for quality. As a first step towards understanding these aspects, we surveyed members of the community who use insect drawers for public outreach. Survey results indicate that curators and collection managers consider outreach drawers important and use them widely at events, though they are rarely assessed beyond aesthetics and/or anecdotal audience feedback. The number and thematic scope of these drawers vary significantly among institutions, from as few as 3 to more than 50, and covering topics from collection history to pollinator conservation. However, few institutions display these collections online, limiting access to in-person events. Their maintenance and development are also often constrained by limited funding and staff availability. To guide decisions and efforts to enhance the educational impact and accessibility of outreach drawers, we introduce a quick-assessment tool based on five criteria: information, relevance, aesthetics, potential for engagement and inspiration. The next step is to apply appropriate tools to measure public engagement with these displays. 

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4. The cuticular hydrocarbon profiles of honey bee workers develop via a socially-modulated innate process

   https://doi.org/10.7554/eLife.41855  

   Vernier, Cassondra L; Krupp, Joshua J; Marcus, Katelyn; Hefetz, Abraham; Levine, Joel D; Ben-Shahar, Yehuda (February 2019, eLife)

   Honey bees are social insects that live in large groups called colonies, within structures known as hives. The young adult bees stay within the hive to build nests and care for the young, while the older bees leave the hive to forage for food. Honey bees store food and other valuable resources in their hives, so they are often targeted by predators, parasites and ‘robber’ bees from other colonies. Therefore, it is important for bees to determine whether individuals trying to enter the nest are group members or intruders. While it is known that social insects use blends of waxy chemicals called cuticular hydrocarbons to identify group members at the entrance to the colony, it is not clear how members of the same colony acquire a similar blend of cuticular hydrocarbons. Some previous work suggested that in some ant species (which are also social insects), colony members exchange cuticular hydrocarbons with each other so that all members of the colony are covered with a similar blend of chemicals. However, it was not known whether honey bees also share cuticular hydrocarbons between colony members in order to identify members of a hive. Vernier et al. used chemical, molecular and behavioral approaches to study the cuticular hydrocarbons found on honey bees. The results show that, rather than exchanging chemicals with other members of their colony, individual bees make their own blends of cuticular hydrocarbons. As a bee ages it makes different blends of cuticular hydrocarbons, and by the time it starts to leave the hive to forage it makes a blend that is specific to the colony it belongs to. The production of this final blend is influenced by the environment within the hive. Thus, the findings of Vernier et al. indicate that honey bees guarding the entrance to a hive can only identify non-colony-member forager bees as intruders, rather than any non-colony-member bee that happens upon the hive entrance. Honey bees play an essential role in pollinating many crop plants so understanding how these insects maintain their social groups may help to improve agriculture in the future. Furthermore, this work may aid our understanding of how other social insects interact in a variety of biological situations. 

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5. What makes a good pollinator? Abundant and specialised insects with long flight periods transport the most strawberry pollen

   https://doi.org/10.1002/2688-8319.12253  

   Villa‐Galaviz, Edith; Cirtwill, Alyssa R.; Gibson, Rachel; Timberlake, Thomas; Roslin, Tomas; Memmott, Jane (July 2023, Ecological Solutions and Evidence)

   Abstract Despite the importance of insect pollination to produce marketable fruits, insect pollination management is limited by insufficient knowledge about key crop pollinator species. This lack of knowledge is due in part to (1) the extensive labour involved in collecting direct observations of pollen transport, (2) the variability of insect assemblages over space and time and (3) the possibility that pollinators may need access to wild plants as well as crop floral resources.We address these problems using strawberry in the United Kingdom as a case study. First, we compare two proxies for estimating pollinator importance: flower visits and pollen transport. Pollen‐transport data might provide a closer approximation of pollination service, but visitation data are less time‐consuming to collect. Second, we identify insectparametersthat are associated with high importance as pollinators, estimated using each of the proxies above. Third, we estimated insects' use of wild plants as well as the strawberry crop.Overall, pollinator importances estimated based on easier‐to‐collect visitation data were strongly correlated with importances estimated based on pollen loads. Both frameworks suggest that bees (ApisandBombus) and hoverflies (Eristalis) are likely to be key pollinators of strawberries, although visitation data underestimate the importance of bees.Moving beyond species identities, abundant, relatively specialised insects with long active periods are likely to provide more pollination services.Most insects visiting strawberry plants also carried pollen from wild plants, suggesting that pollinators need diverse floral resources.Identifying essential pollinators or pollinator parameters based on visitation data will reach the same general conclusions as those using pollen transport data, at least in monoculture crop systems. Managers may be able to enhance pollination service by preserving habitats surrounding crop fields to complement pollinators' diets and provide habitats for diverse life stages of wild pollinators. 

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