More Like this

1. Working out the bugs: navigating challenges and unlocking opportunities in the insect industry

   Lalander, C; Barrett, M; Gasco, L; Lopes, IG; Picard, CJ; Tomberlin, JK; van_Huis, A (May 2025, Journal of insects as food and feed)

   In 2013, the United Nations Food and Agriculture Organization identified insects as a promising solution for sustainably feeding the world’s growing population. However, despite a decade of development and innovation, the insect industry has yet to fully realize its environmental and economic potential. This review takes an evidence-based approach to addressing key challenges in the sector, including integrating circular production systems within existing regulatory frameworks in the Global North, ensuring product safety in circular systems, assessing allergen risks associated with insect-based products, mitigating biosecurity risks linked to non-native insect species, evaluating the environmental safety of insect by-products, and promoting animal welfare in insect production. While significant challenges remain, the evidence presented highlights how further research can help unlock opportunities for the industry to achieve its full potential globally. Ultimately, we argue that overcoming challenges – ‘working out the bugs’ – is a fundamental step in the evolution of any emerging industry. Furthermore, greater support for the transition to circular economies will accelerate the sector’s ability to generate meaningful environmental, ethical, and economic benefits. 

   more » « less
2. Working out the bugs: navigating challenges and unlocking opportunities in the insect industry

   Lalander, Cecilia; Barrett, Meghan; Gasco, Laura; Lopes, IG; Picard, Christine; Tomberlin, Jeffery; Van_Huis, A (May 2025, Journal of Insects as Food and Feed)

   In 2013, the United Nations Food and Agriculture Organization identified insects as a promising solution for sustainably feeding the world’s growing population. However, despite a decade of development and innovation, the insect industry has yet to fully realize its environmental and economic potential. This review takes an evidence-based approach to addressing key challenges in the sector, including integrating circular production systems within existing regulatory frameworks in the Global North, ensuring product safety in circular systems, assessing allergen risks associated with insect-based products, mitigating biosecurity risks linked to non-native insect species, evaluating the environmental safety of insect by-products, and promoting animal welfare in insect production. While significant challenges remain, the evidence presented highlights how further research can help unlock opportunities for the industry to achieve its full potential globally. Ultimately, we argue that overcoming challenges – ‘working out the bugs’ – is a fundamental step in the evolution of any emerging industry. Furthermore, greater support for the transition to circular economies will accelerate the sector’s ability to generate meaningful environmental, ethical, and economic benefits. 

   more » « less
3. Resist!: Sustaining forest carbon sequestration and wood production after insect disturbance

   https://doi.org/10.1002/fee.2861  

   Gough, Christopher M; Bond‐Lamberty, Ben; Fahey, Robert T; McGuigan, Catherine; Alveshere, Brandon C; Clay, Cameron; McClain, Erin‐Darby; Flower, Charles E; Mathes, Kayla C; Johnson, Ariel; et al (June 2025, Frontiers in Ecology and the Environment)

   Disturbances from insect pests threaten ecologically and economically important goods and services supplied by forests, including wood production and carbon sequestration. We highlight the factors that influence these services’resistance, a term quantifying the initial response to disturbance. Insects inflict damage through a range of mechanisms, prompting distinct plant physiological responses that scale to influence ecosystem processes and, with time, goods and services. The degree and timing of tree mortality and defoliation affect the amount of residual vegetation available to support compensatory wood production and influence carbon sequestration by changing rates of detritus‐fueled decomposition. Compounding, or sequential, insect attacks may prime a forest for additional disturbance, further eroding wood production and carbon sequestration. Forest management practices that promote biological and structural diversity, and augment or retain limiting biological and nutrient resources, may buffer against the effects of insect pests on wood production and carbon sequestration. 

   more » « less
4. Insect Population Dynamics on the Main Cropping System Experiment at the Kellogg Biological Station, Hickory Corners, MI (1989 to 2019)

   https://doi.org/10.6073/pasta/f0776c1574808b08c484c1f7645a7357  

   Landis, Douglas (January 2020, Environmental Data Initiative)

   Dataset Abstract Plant dwelling insect occurrence in the LTER main site (all treatments) of the KBS-LTER has been recorded since 1989 and in the successional and forest sites since 1993. The effort has focused on characterizing the temporal and spatial abundance and diversity of a set of insects representative of a higher order insect trophic level, the herbivore predators. The insect database contains more than 400,000 records and consists of counts of adult insects of fourteen species of Coccinellidae, one species of Chrysopidae, and one species of Lampyridae from 30 sample sites in each of the seven treatments in the LTER Main Site. The standard method used to measure these organisms is a yellow sticky trap. Sampling is conducted weekly during the growing season as described in the sampling protocol. original data source http://lter.kbs.msu.edu/datasets/26 

   more » « less
5. Architecture of the insect society: comparative analysis of collective construction and social function of nests

   https://doi.org/10.1007/s00040-025-01057-7  

   Caine, P_B; Robertson, A_T; Treers, L_K; Goldman, D_I; Goodisman, M_A_D (September 2025, Insectes Sociaux)

   Abstract Many social insects construct nests, which are fundamentally important to the success and survival of the colony. We review recent work on understanding the construction and function of social insect nests and attempt to identify general principles of collective construction and nest architecture in insect societies. We look across taxa, including termites, ants, social bees, and social wasps, specifically focusing on experimental studies that have elucidated the mechanisms by which insect nests are successfully built. We find that selecting materials and nest sites are crucial decisions made by social insects that impact both the resulting nest architecture and colony survival. Social insects utilize cohesive, malleable material to build nests. Often, nests are constructed in a modular manner, allowing social insects to exploit a variety of materials while growing to accommodate population explosions from a few individuals to millions. We note that the regulatory principles that coordinate building behaviors are consistent across taxa. Specifically, encounter rate, positive and negative feedback cycles, stigmergy, and genetic influence all govern the actions of multiple builders and result in a cohesive, functional structure. We further consider empirical studies that demonstrate how nests impact collective behaviors and help insect societies flourish. We find that all social insect nests serve the same key functions: to protect residents and to offer a means of organizing their collective behaviors. Ultimately, we expand our analysis to experiments utilizing robot models of societies, which aim to uncover unifying themes of construction and space use by collectives. Overall, we show that social insect nests represent engineering and construction marvels that provide fundamental insights into how biological collectives succeed in the natural environment, and we suggest that the use of robotic models may provide insight into these fascinating behaviors and structures. 

   more » « less