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Are consumers knowledgeable about neonicotinoid insecticides and pollinator-friendly plants?

Hayk Khachatryan, Xuan Wei, and Alicia Rihn

Introduction

Use of neonicotinoid insecticides in the US ornamental horticulture industry continues to capture attention due to potential health risks to pollinator insects. Neonicotinoids are the most widely used class of insecticides in agricultural production (Jeschke et al. 2011). Even though neonicotinoids are primarily used in food crops, the use of neonicotinoids in the ornamental horticulture industry and the potential impacts on pollinators are not negligible. According to Douglas and Tooker (2015), from 1996 to 2011, 93% of neonicotinoid active ingredients were sold for crop-use products (e.g., agronomic pesticides, seed treatments, etc.) while the remainder were sold for turf/ornamental (4%), household pesticide control (1.4%), and lawn/garden use (1.2%).

The use of neonicotinoids in ornamental horticulture is important given the plethora of household landscapes that can impact pollinator health and serve as pollinator habitat. Specifically, 90 million US households (78% of all US households) have yards, landscapes, or gardens (Kiesling and Manning 2010). Homeowners' management approaches to these landscapes may be influenced by their knowledge and attitudes toward neonicotinoids. However, the general public's exposure to neonicotinoid insecticide information is relatively limited despite the increased attention to neonicotinoids' effect on pollinators in regulatory and academic arenas (Rihn and Khachatryan 2016; Wollaeger et al. 2015). There is currently a lack of research providing a comprehensive evaluation of consumers' knowledge about neonicotinoids and pollinator plants, as well as their overall interest in enhancing pollinators' health and the use of neonicotinoids. This report summarizes a survey that addressed these topics. The survey is a part of a larger research project aimed at incorporating pollinator conservation into the ornamental horticulture industry's sustainability initiatives.

This report is relevant for green industry stakeholders (i.e., growers, marketers, retailers, Extension agents, researchers) involved with production, promotion, and communication strategies. Additionally, the contents could be of interest to firms shifting toward more sustainable production options with which end consumers may or may not be familiar. Knowing how consumers' perceived and actual knowledge impacts their behavior can aid firms as they make production and labeling decisions toward neonicotinoid insecticides.

Materials and Methods

Online and in-person surveys were conducted to collect information from a national sample and a Florida sample. In contrast to existing studies using self-reported (subjective) information only, this study incorporated quiz questions to test participants' objective knowledge about pollinator-attractive plants.1 One hundred and forty-one central Florida participants were recruited for the in-person survey, and 1,680 participants completed the national online survey. In both surveys, participants indicated if they had heard about neonicotinoid insecticides (yes/no), followed by how knowledgeable they were about neonicotinoid insecticides on a 1–7 rating scale (1 indicating not at all knowledgeable, 4 neither knowledgeable nor not knowledgeable, and 7 extremely knowledgeable). Participants also indicated their knowledge about pollinator-attractive plants on the same 7-point rating scale. Four quiz questions were used to measure participants' objective knowledge about pollinator-attractive plants. In each quiz question, participants were provided two plant names supplemented with images of the plants and asked to select the one that was pollinator attractive (Appendix). Lastly, participants indicated their involvement in pollinator-conservation activities by selecting from a pre-defined list of actions beneficial to pollinator health those actions they were currently taking. The list included: a) plant selection to feed adults, b) plant selection to feed larvae/young, c) decrease or do not use pesticides, d) add features to aid pollinator insects (brush piles, water sources), e) source plants locally, f) primarily buy native plants, g) primarily buy plants that are labeled as helpful to pollinators, and h) primarily buy flowering plants.

1 Quiz questions to test participants' real knowledge of neonicotinoids were not incorporated based on considerations that the general public's (self-reported) awareness about neonicotinoids is about 24% (Rihn and Khachatryan 2016). We believe a quiz question in this situation might not reveal useful information because the majority of the participants would be guessing on the answers or simply skipping the question, likely due to low familiarity.

Results

Participants' socio-demographic information is summarized in Table 1. While the online sample has a relatively balanced male-to-female gender ratio, the in-person Florida sample has more females with only 26% male participants. In general, participants in the in-person survey are slightly older, more educated, and have higher household incomes (Table 1). Even though the samples were drawn from two different populations (Florida and national), we find participants' knowledge about neonicotinoids and their knowledge about pollinator plants are fairly consistent. As shown in Figure 1, in both samples, about 27% of the participants had heard about neonicotinoid insecticides while the majority (more than 70%) had not, indicating roughly a three percentage points increase since 2016 in comparison to the 24% estimated by Rihn and Khachatryan (2016). Less than 20% of the participants viewed themselves as knowledgeable about neonicotinoids by selecting 5 or higher on the 7-point rating scale (Figure 2), and none of the participants in the in-person survey perceived themselves as extremely knowledgeable (by selecting 7) about neonicotinoids. Meanwhile, more than two thirds of the survey participants in both samples selected a value of 1–3 on the rating scale, meaning they were not knowledgeable about neonicotinoids.

Figure 1. Percentage of participants who have heard of neonicotinoid insecticides.
Figure 1.  Percentage of participants who have heard of neonicotinoid insecticides.

 

Figure 2. Subjective knowledge about neonicotinoid insecticides.
Figure 2.  Subjective knowledge about neonicotinoid insecticides.

With regard to knowledge about pollinator plants, 47.5% of the online survey participants and 54% of the in-person survey participants were knowledgeable about pollinator-attractive plants by selecting a 5, 6, or 7 on the rating scale. Less than 30% of the participants (26% of the online sample and 29% of the in-person survey sample) were not knowledgeable about pollinator plants. While subjective knowledge is a strong predictor of attitudes, existing studies show people tend to be poor judges of how much they actually know, meaning additional knowledge tests may improve accuracy (Alba and Hutchinson 2000; Fernbach et al. 2019). The quiz question results revealed this gap. Only 5% of the online survey participants and 4% of the in-person survey participants correctly identified the pollinator-attractive plants in all four quiz questions (Figure 4). In-person participants performed slightly better than the online participants. Thirty percent of the in-person participants correctly answered three of the quiz questions while only 16% of the online participants correctly answered three of the quiz questions.

Figure 3. Subjective knowledge about pollinator-attractive plants.
Figure 3.  Subjective knowledge about pollinator-attractive plants.

 

Figure 4. Objective knowledge about pollinator-attractive plants.
Figure 4.  Objective knowledge about pollinator-attractive plants.

Regarding involvement in actions to enhance pollinator health, none of the activities were selected more predominantly than the others (Figure 5). But more participants indicated that they chose to decrease or not use pesticides (19% of the online and 18% of the in-person sample), and primarily buy flowering plants (18% of the online and 15% of the in-person sample) to improve pollinator health.

Figure 5. Involvement in pollinator-conservation activities.
Figure 5.  Involvement in pollinator-conservation activities.

 

Conclusion

While the potential consequences of neonicotinoid insecticides continue to attract researchers' and policy makers' attention, and mass media coverage of neonicotinoids increases, our consumer survey results suggest that general public awareness and knowledge about neonicotinoids remain low. There is only a slight increase of three percentage points from 24% to 27% since 2016. Based on the knowledge gap between subjective and objective knowledge (i.e., personal opinions vs. perspectives based in facts such as quiz questions) about pollinator-attractive plants identified in this study, we guess that the objective knowledge about neonicotinoids could be even lower if consumers tend to overstate their level of knowledge. On the other hand, even though consumers are involved in an array of activities that could contribute to improvements to pollinator health, we observe an emerging trend of more people pursuing a "greener" gardening approach by decreasing or not using pesticides. Results of this survey can be used by policy makers to educate consumers and local communities by developing new educational programming and curricula that support and enhance overall knowledge of pollinator-attractive plants and pollinator health, with potential for urban gardens to act as an extensive network of pollinator-friendly habitats. As consumer knowledge increases, potential demand for pollinator-friendly plants may create positive feedback to growers in the ornamental horticultural industry to evaluate their existing pest-management practices and identify feasible alternative options.

References

Alba, J. W., and J. W. Hutchinson. 2000. "Knowledge Calibration: What Consumers Know and What They Think They Know." Journal of Consumer Research 27: 123–156.

Douglas, M. R., and J. F. Tooker. 2015. "Large-scale deployment of seed treatments has driven rapid increase in use of neonicotinoid insecticides and preemptive pest management in U.S. field crops." Environmental Science &Technology 49(8): 5088–5097.

Fernbach, P. M., N. Light, S. E. Scott, Y. Inbar, and P. Rozin. 2019. "Extreme opponents of genetically modified foods know the least but think they know the most." Nature Human Behaviour. https://doi.org/10.1038/s41562-018-0520-3

Goulson, D. 2013. "An Overview of the Environmental Risks Posed by Neonicotinoid Insecticides." Journal of Applied Ecology 50: 977–987.

Goulson, D., E. Nicholls, C. Botías, and E. L. Rotheray. 2015. "Bee Declines Driven by Combined Stress from Parasites, Pesticides, and Lack of Flowers." Science 347(6229): 1435.

Jeschke, P., R. Nauen, M. Schindler, and A. Elbert. 2011. "Overview of the Status and Global Strategy for Neonicotinoids." Journal of Agricultural and Food Chemistry 59(7): 2897–2908.

Kalaman, H., G. Knox, S. B. Wilson, and W. Wilber. 2019. Promoting Research-Verified Pollinator Plants to Enhance Overall Pollinator Health. Poster. 132nd Florida State Horticultural Society (FSHS) Annual Meeting, Orlando, FL, June 9–11, 2019.

Khachatryan, H., B. Campbell, C. Hall, B. Behe, C. Yue, and J. Dennis. 2014. "The Effects of Individual Environmental Concerns and Willingness to Pay for Sustainable Plant Attributes." HortScience 49(1): 69–75.

Khachatryan, H., A. Rihn, B. Campbell, C. Yue, C. Hall, and B. Behe. 2017. "Visual Attention to Eco-Labels Predicts Consumer Preferences for Pollinator Friendly Plants." Sustainability 9(10): 1743–1756.

Kiesling, F.M., and C.M. Manning. 2010. "How green is your thumb? Environmental gardening identity and ecological gardening practices." Journal of Environmental Psychology 30: 315–327.

Pisa, L. W., V. Amaral-Rogers, L. P. Belzunces, J. M. Bonmatin, C. A. Downs, D. Goulson, D. P. Kreutzweiser, C. Krupke, M. Liess, M. McField, C. A. Morrissey, D. A. Noome, J. Settele, N. Simon-Delso, J. D. Stark, J. P. Van der Sluijs, H. Van Dyck, and M. Wiemers. 2015. "Effects of Neonicotinoids and Fipronil on Non-target Invertebrates." Environmental Science and Pollution Research 22(1): 68–102.

Rihn, A., and H. Khachatryan. 2016. "Does Consumer Awareness of Neonicotinoid Insecticides Influence Their Preferences for Plants?" HortScience 51: 388–393.

Sanchez-Bayo, F., and K. Goka. 2014. "Pesticide Residues and Bees—A Risk Assessment." PLoS ONE 9 (4): 1–16.

van der Sluijs, J. P., N. Simon-Delso, D. Goulson, L. Maxim, J. M. Bonmatin, and L. P. Belzunces. 2013. "Neonicotinoids, Bee Disorders and the Sustainability of Pollinator Services." Current Opinion in Environmental Sustainability 5(3–4): 293–305.

Wollaeger, H. M., K. L. Getter, and B. K. Behe. 2015. "Consumer Preferences for Traditional, Neonicotinoid-Free, Bee-Friendly, or Biological Control Pest Management Practices on Floriculture Crops." HortScience 50(2015): 721–732.

Yue, C., C. R. Hall, B. K. Behe, B. L. Campbell, J. H. Dennis, and R. G. Lopez. 2010. "Are Consumers Willing to Pay More for Biodegradable Containers Than for Plastic Ones? Evidence from Hypothetical Conjoint Analysis and Nonhypothetical Experimental Auctions." Journal of Agricultural and Applied Economics 42(04): 757–772.

Yue, C., B. Campbell, C. Hall, B. Behe, J. Dennis, and H. Khachatryan. 2016. "Consumer Preference for Sustainable Attributes in Plants: Evidence from Experimental Auctions." Agribusiness 32(2): 222–235.

Appendix

Quiz question example that tested consumers' objective knowledge about pollinator-attractive plants.

Below are the images of two annual bedding plants. Please choose the one that you think is pollinator/bee attractive (Please select one).

Figure 6. Sweet alyssums.
Figure 6.  Sweet alyssums.
Credit: Magdevski/iStock/Getty Images Plus

 

Figure 7. Geraniums.
Figure 7.  Geraniums.
Credit: emer1940/iStock/Getty Images Plus

a) Sweet alyssums

b) Geraniums

c) I don't know

Table 1. 

Participants' sociodemographic characteristics.

Variables

Online

In-person

Number of participants

1680

141

Male

42%

26%

Age (mean)

52

55

Ethnicity

  

White/Caucasian

87%

85%

African American

5.1%

5.8%

Hispanic

2.8%

4.3%

Asian

2.8%

1.4%

Native American

0.9%

0.0%

Pacific Islander

0.2%

0.7%

Other

1.4%

2.9%

Household income (median)

$40,000–59,999

$60,000–79,999

Household size (mean)

2.7

2.7

Education level

  

HS+

99%

100%

Bachelor's degree+

42%

51%

Plant purchase behavior

  

Number of visits (mean)

6

8

Amount spent per visit (mean)

$68

$33

 
Peer Reviewed

Publication #FE1081

Release Date:September 29, 2020

Reviewed At:January 20, 2023

Related Experts

Rihn, Alicia L

University of Tennessee, Knoxville

Khachatryan, Hayk

Specialist/SSA/RSA

University of Florida

  • Critical Issue: Water Quality and Conservation
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About this Publication

This document is FE1081, one of a series of the Food and Resource Economics Department, UF/IFAS Extension. Original publication date May 2020. Visit the EDIS website at https://edis.ifas.ufl.edu for the currently supported version of this publication.

About the Authors

Hayk Khachatryan, associate professor and Extension economist, Food and Resource Economics Department; Xuan Wei, postdoctoral researcher; and Alicia Rihn, postdoctoral research associate, Food and Resource Economics Department; UF/IFAS Mid-Florida Research and Education Center, Apopka, FL 32703.

Contacts

  • Hayk Khachatryan