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Communication

A Growers’ Perspective on Crop Pollination and Measures to Manage the Pollination Service of Wild Pollinators in Sweet Cherry Cultivation

by
Maxime Eeraerts
1,*,
Lieve Borremans
2,
Guy Smagghe
1 and
Ivan Meeus
1
1
Department of Plant and Crops, Faculty of Bioscience Engineering, Ghent University, Coupure Links 653, 9000 Ghent, Belgium
2
Social Science Unit, Flanders Research Institute for Agriculture, Fisheries and Food (ILVO), Burgemeester van Gansberghelaan 115, 9820 Merelbeke, Belgium
*
Author to whom correspondence should be addressed.
Insects 2020, 11(6), 372; https://doi.org/10.3390/insects11060372
Submission received: 20 May 2020 / Revised: 8 June 2020 / Accepted: 13 June 2020 / Published: 15 June 2020
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Abstract

:
Recent declines in insect pollinators and the increasing dependence on insect pollination in agriculture present major challenges to ensuring future food production. As part of the effort to deal with this challenge, there is a pressing need to understand growers’ perceptions with regard to pollinator diversity and crop pollination management. At present, many growers are dependent on domesticated honey bees (Apis mellifera), however, targeted management strategies involving naturally occurring pollinator species might be necessary to ensure future crop pollination. In this study we used semi-structured interviews to explore growers’ knowledge about crop pollination and current practices to manage insect pollination in sweet cherry cultivation. Our findings suggest that growers have a clear understanding of the importance of pollination and its determining factors. However, with respect to their current pollination management, growers depend mainly on honey bees and only apply measures to enhance wild pollinator communities to a limited extent. Our study highlights the gap between the growers’ perception of the contribution of wild pollinators to crop pollination, and their efforts to manage these species. We conclude that this is due to a lack of communication of recent scientific findings on the contribution of pollinating insects to crop pollination through the information channels that are being used by growers today. It is therefore crucial that scientists, government and other stakeholders work together with growers and communicate scientific evidence as well as practical guidelines to growers.

1. Introduction

The pollination service of insects is indispensable for the food production of our affluent human population [1]. In recent decades, the global agricultural area has increased considerably, and the area of pollinator-dependent crops increased much more than that of non-pollinator-dependent crops. This trend is expected to continue in the coming decades [2]. The domesticated honey bee (Apis mellifera) is the main pollinator species that is managed for pollination in agriculture today. However, insect-mediated crop pollination increases when the abundance and diversity of wild pollinating insects increases [3,4]. Wild pollinator diversity has declined over the last few decades [5,6], which raises concerns about the maintenance of their pollination service. In the face of increasing agricultural demand and continued pollinator decline, it is essential to identify and implement targeted mitigation measures for relevant crop pollinator species in order to maintain crop productivity [7].
Today, most pollination practices focus on managing the number of managed honey bee hives, commercial bumble bee nests (Bombus spp.) or stingless bees (Meliponini spp.) per cultivated crop area [8]. Rollin and Garibaldi [9] found that guidelines for the recommended density of honey bee hives for different crops do not accurately predict the delivered crop pollination. As the contribution of wild pollinators is significant in multiple orchard crops, for example, almond [10], apple [11], pear [12], raspberry [13] and sweet cherry [14], the management of naturally occurring pollinating insects in fruit orchards needs to be explored further. However, little is known about growers’ knowledge with regard to pollinating insects and about the current practices they apply to promote this pollination service in agricultural crops [15,16,17].
In this study, sweet cherry (Prunus avium) growers were questioned about their knowledge and perceptions concerning crop pollination and about their adoption of measures to support pollinating insects in their orchards. Sweet cherry was chosen as a focus crop because wild pollinator visitation is essential for sweet cherry production [14,18].

2. Materials and Methods

In 2019, we contacted a total of 45 sweet cherry growers in Flanders, Belgium, some of whom did not wish to be interviewed and others who were unable to schedule a meeting. Eventually, we conducted one-on-one semi-structured interviews with 24 sweet cherry growers. The respondents were concentrated in the south-east of Flanders, as fruit cultivation is also concentrated in this region (Figure 1) [19]. All growers used a conventional management scheme, and no organic growers were included.
Growers did not receive any additional information in advance so that their response was not biased beforehand. The interview started with some personal questions such as age, education and agricultural activities on their farm. Then, the main topics of the interview were addressed: (1) the importance of pollination in orchard fruit cultivation with emphasis on sweet cherry cultivation and the factors that influence this process; (2) the perception and adoption of measures to support functionally important pollinating insects in their orchards; and (3) instruments that are currently used to obtain information to optimize pollination in sweet cherry. We tested the interview in advance with three growers to ensure all questions were understood by the respondents.
The growers were asked different open questions and their own answers were noted (growers were not given different options for answers as in questionnaires). After answering the core research questions, informal discussions were also held with growers to determine their motivation for adopting or not adopting certain actions. All responses were recorded anonymously and were identified with a unique ID. We listed all the answers of all respondents and summarized the number of times that a certain answer was provided.

3. Results and Discussion

All interviewed growers had a high school degree and their age ranged from 30 to 70 years old (50 ± 11, mean ± s.d.). In total, the land area used for sweet cherry cultivation by the growers in the survey was 148 ha. This covered 17.6% of the total area of sweet cherry growing in Flanders, Belgium [20]. Sweet cherry cultivation was combined with apple and pear cultivation by 14 and 15 growers, respectively. Half of the growers combined sweet cherry cultivation with the production of other fruit crops than pear or apple (e.g., strawberry, sour cherry, grapes, plum, etc.). Three growers only cultivated sweet cherry.
All growers acknowledged that insect-mediated pollination in sweet cherry growing is very important. However, insect-mediated pollination of apple and pear was considered to be less important (Table 1A). In Belgium, the main apple and pear cultivars are Jonagold and Conference, which easily produce fruit by means of parthenocarpy [8,21]. Sweet cherry growers in Belgium mainly grow the sweet cherry cultivars, Kordia and Regina, which are highly dependent on insect-mediated pollination to produce fruit [18,22]. The majority of the growers believe that many factors influence crop pollination in sweet cherry. Pollinating insects are considered as one of the most important factors besides weather conditions, the presence of compatible pollinizer cultivars (i.e., other cultivars that can cross-pollinate each other) and air humidity during bloom (Table 1B). This is in agreement with studies showing that weather, pollinizer cultivars and pollinating insects influence sweet cherry yield [14,18,22,23]. The growers clearly have a good understanding of the importance of insect-mediated pollination and other factors that influence crop pollination in sweet cherry cultivation.
According to the growers, honey bees and bumble bees are very important for sweet cherry pollination (Table 1C). Solitary bees were also mentioned by 17 growers, with seven of them referring specifically to mason bees (Osmia spp.). Other pollinating insects such as hover flies and other flies were only mentioned by a minority of the respondents. In accordance with their view on the role of honey bees in pollination, all growers put honey bees in their orchards for pollination (Table 1D). On the other hand, only 13 of the 24 growers bought bumble bee nests and only a small minority of growers (4 out of 24) place trap nests for above-ground nesting solitary bees (mainly aimed at attracting mason bees). The growers’ perspective on solitary bees was especially striking, 70.9% of the growers mentioned that these species are important but only 16.6% provide trap nests for solitary bees in their orchards (Table 1C,D). The latter is contrary to the fact that that wild pollinators are instrumental in achieving adequate sweet cherry yields [14,18], and that solitary bees are very efficient pollinators of sweet cherry compared to bumble bees and honey bees [24]. Thus, there seems to be a gap between growers’ view on the role of bumble bees and solitary bees in crop pollination, and their efforts to manage or attract these species. When this was discussed with growers, they often mentioned that they did not know much about these species. Similarly, Park et al. [16] also found that apple growers lacked detailed knowledge about wild pollinators. Training growers and staff members about the importance of solitary bees and other wild pollinators and what measures to take to increase their nesting opportunities, could therefore improve crop pollination.
Regarding the growers’ investments in crop pollination, we found that most of the growers pay for honey bee hives while all growers that place bumble bee nests must pay for them (Table 1E). None of the growers rent or buy solitary bees (mason bees in this specific case), and the four growers who managed mason bees used trap nests that they made themselves. The number of honey bee hives and bumble bee nests that are placed in the orchard during sweet cherry bloom varies considerably, from 2 to 8 honey bee hives per ha (4.6 ± 1.2) and from 3 to 12 bumble bee nests per ha (7.1 ± 2.6). In total, growers pay from zero to 1000 euro for pollinating insects per hectare (390 ± 284 euro per hectare). This clearly indicates the willingness of growers to commit financial resources in order to facilitate insect pollination. However, supporting and attracting wild pollinator communities in and around orchards requires a long-term approach [25,26], unlike ordering honey bees for a few weeks.
With regard to the measures taken to support pollinating insects, 70.8% of the growers indicated that they implement one or more measures to support pollinators (Table 2A). Reducing their pesticide usage was the most commonly applied measure; even though this was only applied by one out of three growers in our sample. However, this is an important measure, as pesticide application can have negative effects on pollinator communities in orchards even if the crop is not blooming [27]. Therefore, it is necessary to stress the importance of the vulnerability of pollinators to pesticide applications throughout the growing season. A total of nine growers applied measures that directly promote floral or nesting resources for pollinators (flower strips, trees and shrubs and nesting sites, see Table 2A). These were also the most common answers when additional measures were discussed (a total of 12 growers, see Table 2B). Reduced mowing of the herbaceous ground vegetation between the trees was also mentioned by some growers (Table 2A,B). Studies have found that an abundance of flowering plants in the ground vegetation has a positive effect on the abundance and diversity of wild pollinators that are foraging on the crop during bloom [10,14]. Half of the growers did not have any additional suggestions about what could be done to further promote pollinators in and around their orchards (six of these 12 growers also indicated they currently had not implemented any measures, as shown in Table 2A).
Subsequently, we asked the growers what would motivate them or what would prevent them from applying measures to promote floral resources such as applying an extensive mowing regime or implementing flower strips and the establishment of hedgerows. Both extensive mowing and flower strips as well as hedgerows were clearly regarded by growers as being beneficial to bees and insects (Table 2C,E). At the same time, some growers argued that attracting pests and diseases and diverting pollinators from the cherry blossoms are possible reasons for not taking measures to increase the floral resources in and around their orchards (Table 2C,E). Opinion on this issue was clearly divided. Based on the literature, the majority of the research on increasing floral resources in or around fruit orchards by means of an extensive mowing regime, flower strips or hedgerows has a positive effect on both insect predators [28,29] and pollinating insects [10,25,26,30,31,32]. Nevertheless, some studies have concluded that there is no positive effect on insect pollinators in fruit orchards during full bloom [11,18]. The effect of a certain measures largely depends on the biology of the target pollinator, the target crop and the landscape characteristics of the studied area [28,33]. In addition, for the majority of growers it is difficult to combine both extensive mowing management and flower strips with overnight frost protection in spring because herbaceous vegetation between the rows of trees in orchards is kept very short when frost is forecast in early spring. No data or literature is available on this issue; however, it is recognized by the fruit cultivation industry and is a clear barrier to implementing flower strips or an extensive mowing regime before and during full bloom of the crop. According to the growers, an additional positive effect of enhancing floral resources is their beautiful appearance, and some growers also considered hedgerows to be positive because they act as windbreaks (Table 2C,E). The wind protection role and the esthetics of such measures have already been acknowledged repeatedly [15,17]. Most growers indicated that the logistics (i.e., space requirements, time and financial commitments) required to establish and maintain extensive mowing regimes, flower strips and hedgerows are one of the main obstacles to future implementation of such measures (Table 2C,E). However, it is notable that for some growers this was seen as an advantage, because maintenance was more convenient and costs were reduced. From our discussions with growers about the motivation for these floral enhancing measures it emerged that uncertainty about the possible effects of floral enhancements on crop yield was an important point on which they had too little information [15,16,17]. This suggests that future research should focus on evaluating a selection of measures and provide an accompanying strategy for managing plant species with traits favorable to both natural enemies and key pollinators. Providing such targeted and knowledge-based advice ensures that measures to promote pollinators are likely to appeal to a number of growers who will recognize that they are rewarding in terms of effort.
Hardly any of the growers that apply measures to manage pollinators also apply for governmental subsidies for adopting these measures (Table 2G). In particular, the conditions imposed and the administrative paperwork were seen as the main obstacles to applying for subsidies by many growers (8 out of the 17 growers). Previous research has also found that growers were discouraged from implementing subsidized conservation measures on their farms because of the amount of paperwork involved [15]. Despite the multiple channels that are used to acquire information, most of the growers indicated that the available information is not sufficient (Table 2H,I). In this context, many growers stressed that research and policy (i.e., subsidies) must be aligned to practice and that relevant research results must be disseminated to practitioners.

4. Conclusions

We suggest that the growers’ knowledge about pollination and the obstacles to implementing targeted measures revealed in this study should be used in activities to promote wild pollinator communities in and around sweet cherry orchards. In addition, future research should focus on the identification of feasible management strategies that can be included in current orchard management schemes that favor key crop pollinators. This will only be successful if growers are aware of the added value of these measures, and at present there is clearly a lack of information and targeted guidelines being disseminated from scientists to the growers. It is therefore crucial that scientists, government and other stakeholders work together to communicate scientific evidence on this topic to growers. Organized study days and workshops, communication via mass media and through the information channels that growers already use offer the ideal tools to achieve this. Given the similarities between sweet cherry and other fruit crops (apple, almond, pear, etc.) in terms of pollination biology and orchard layout, our findings are also likely to be applicable to these other pollination dependent crop systems.

Author Contributions

All authors designed the study; data was collected by M.E. and analyzed by M.E., L.B. and I.M.; M.E. prepared the first draft. All authors have read and agreed to the published version of the manuscript.

Funding

M.E. was funded by the Research Foundation Flanders PhD grant 1S71416N. This research was partly supported as part of BEESPOKE, an Interreg project supported by the North Sea Programme of the European Regional Development Fund of the European Union.

Acknowledgments

We gratefully acknowledge Ann-Lara Aernoudts, Ruben Deceukelier, Sarah Hertecant and Olivier Pinto-Maeso for their assistance with the interviews. We also thank the growers for participating in the interviews.

Conflicts of Interest

The authors declare no conflict of interest.

References

  1. Klein, A.-M.; Vaissière, B.E.; Cane, J.H.; Steffan-Dewenter, I.; Cunningham, S.A.; Kremen, C.; Tscharntke, T. Importance of pollinators in changing landscapes for world crops. Proc. Biol. Sci. 2007, 274, 303–313. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  2. Aizen, M.A.; Aguiar, S.; Biesmeijer, J.C.; Garibaldi, L.A.; Inouye, D.W.; Jung, C.; Martins, D.J.; Medel, R.; Morales, C.L.; Ngo, H.; et al. Global agricultural productivity is threatened by increasing pollinator dependence without a parallel increase in crop diversification. Glob. Chang. Biol. 2019, 25, 3516–3527. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  3. Garibaldi, L.A.; Steffan-Dewenter, I.; Winfree, R.; Aizen, M.A.; Bommarco, R.; Cunningham, S.A.; Kremen, C.; Carvalheiro, L.G.; Harder, L.D.; Afik, O.; et al. Wild Pollinators Enhance Fruit Set of Crops Regardless of Honey Bee Abundance. Science 2013, 339, 1608–1611. [Google Scholar] [CrossRef] [PubMed]
  4. Dainese, M.; Martin, E.A.; Aizen, M.A.; Albrecht, M.; Bartomeus, I.; Bommarco, R.; Carvalheiro, L.G.; Chaplin-kramer, R.; Gagic, V.; Garibaldi, L.A.; et al. A global synthesis reveals biodiversity-mediated benefits for crop production. Sci. Adv. 2019, 5, eaax0121. [Google Scholar] [CrossRef] [Green Version]
  5. Carvalheiro, G.S.; Kunin, W.E.; Keil, P.; Aguirre-Gutie, J.; Ellis, W.N.; Fox, R.; Groom, Q.; Hennekens, S.; Van Landuyt, W.; Maes, D.; et al. Species richness declines and biotic homogenisation have slowed down for NW-European pollinators and plants. Ecol. Lett. 2013, 16, 870–878. [Google Scholar] [CrossRef] [Green Version]
  6. Powney, G.D.; Carvell, C.; Edwards, M.; Morris, R.K.A.; Roy, H.E.; Woodcock, B.A.; Isaac, N.J.B. Widespread losses of pollinating insects in Britain. Nat. Commun. 2019, 10, 1018. [Google Scholar] [CrossRef]
  7. Garibaldi, L.A.; Carvalheiro, L.G.; Leonhardt, S.D.; Aizen, M.A.; Blaauw, B.R.; Isaacs, R.; Kuhlmann, M.; Kleijn, D.; Klein, A.M.; Kremen, C.; et al. From research to action: Enhancing crop yield through wild pollinators. Front. Ecol. Environ. 2014, 12, 439–447. [Google Scholar] [CrossRef] [Green Version]
  8. Free, J. Crop Pollination by Insects, 2nd ed.; Academic Press: London, UK, 1993. [Google Scholar]
  9. Rollin, O.; Garibaldi, L.A. Impacts of honeybee density on crop yield: A meta-analysis. J. Appl. Ecol. 2019, 56, 1152–1163. [Google Scholar] [CrossRef]
  10. Alomar, D.; González-Estévez, M.A.; Traveset, A.; Lázaro, A. The intertwined effects of natural vegetation, local flower community, and pollinator diversity on the production of almond trees. Agric. Ecosyst. Environ. 2018, 264, 34–43. [Google Scholar] [CrossRef]
  11. Martins, K.T.; Gonzalez, A.; Lechowicz, M.J. Pollination services are mediated by bee functional diversity and landscape context. Agric. Ecosyst. Environ. 2015, 200, 12–20. [Google Scholar] [CrossRef] [Green Version]
  12. Monzon, V.; Bosch, J.; Retana, J. Foraging behavior and pollinating effectiveness of Osmia cornuta (Hymenoptera: Megachilidae) and Apis mellifera (Hymenoptera: Apidae) on “Comice” pear. Apidologie 2004, 35, 575–585. [Google Scholar] [CrossRef] [Green Version]
  13. Willmer, P.G.; Bataw, A.A.M.; Hughes, J.P. The superiority of bumblebees to honeybees as pollinators: Insect visits to raspberry flowers. Ecol. Entomol. 1994, 19, 271–284. [Google Scholar] [CrossRef]
  14. Eeraerts, M.; Smagghe, G.; Meeus, I. Pollinator diversity, floral resources and semi-natural habitat, instead of honey bees and intensive agriculture, enhance pollination service to sweet cherry. Agric. Ecosyst. Environ. 2019, 284, 106586. [Google Scholar] [CrossRef]
  15. Gaines-Day, H.R.; Gratton, C. Understanding barriers to participation in cost-share programs for pollinator conservation by wisconsin (USA) cranberry growers. Insects 2017, 8, 79. [Google Scholar] [CrossRef] [Green Version]
  16. Park, M.G.; Joshi, N.K.; Rajotte, E.G.; Biddinger, D.J.; Losey, J.E.; Danforth, B.N. Apple grower pollination practices and perceptions of alternative pollinators in New York and Pennsylvania. Renew. Agric. Food Syst. 2018, 1–14. [Google Scholar] [CrossRef] [Green Version]
  17. Penvern, S.; Fernique, S.; Cardona, A.; Herz, A.; Ahrenfeldt, E.; Dufils, A.; Jamar, L.; Korsgaard, M.; Kruczyńska, D.; Matray, S.; et al. Farmers’ management of functional biodiversity goes beyond pest management in organic European apple orchards. Agric. Ecosyst. Environ. 2019, 284, 106555. [Google Scholar] [CrossRef] [Green Version]
  18. Holzschuh, A.; Dudenhöffer, J.H.; Tscharntke, T. Landscapes with wild bee habitats enhance pollination, fruit set and yield of sweet cherry. Biol. Conserv. 2012, 153, 101–107. [Google Scholar] [CrossRef]
  19. Jacquemin, F.; Violle, C.; Rasmont, P.; Dufrêne, M. Mapping the dependency of crops on pollinators in Belgium. One Ecosyst. 2017, 2, 1–9. [Google Scholar] [CrossRef] [Green Version]
  20. Statbel. Landbouwcijfers 2018. 2019. Consulted on 31 May 2019. Available online: https://statbel.fgov.be/nl/themas/landbouw-visserij/land-en-tuinbouwbedrijven#figures (accessed on 31 May 2019).
  21. Quinet, M.; Jacquemart, A.L. Differences between pollination and parthenocarpy in the ‘Conference’ pear. Acta Hortic. 2015, 1094, 359–366. [Google Scholar] [CrossRef]
  22. Lech, W.; Małodobry, M.; Dziedzic, E.; Bieniasz, M.; Doniec, S. Biology of sweet cherry flowering. J. Fruit Ornam. Plant Res. 2008, 16, 189–199. [Google Scholar]
  23. Hedhly, A.; Hormaza, J.I.; Herrero, M. Warm temperatures at bloom reduce fruit set in sweet cherry. J. Appl. Bot. Food Qual. 2007, 81, 158–164. [Google Scholar]
  24. Eeraerts, M.; Vanderhaegen, R.; Smagghe, G.; Meeus, I. Pollination efficiency and foraging behaviour of honey bees and non-Apis bees to sweet cherry. Agric. For. Entomol. 2020, 22, 75–82. [Google Scholar] [CrossRef]
  25. Morandin, L.A.; Kremen, C. Hedgerow restoration promotes pollinator populations and exports native bees to adjacent fields. Ecol. Appl. 2013, 23, 829–839. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  26. Blaauw, B.R.; Isaacs, R. Flower plantings increase wild bee abundance and the pollination services provided to a pollination-dependent crop. J. Appl. Ecol. 2014, 51, 890–898. [Google Scholar] [CrossRef]
  27. Park, M.G.; Blitzer, E.J.; Gibbs, J.; Losey, J.E.; Danforth, B.N. Negative effects of pesticides on wild bee communities can be buffered by landscape context. Proc. R. Soc. B Biol. Sci. 2015, 282, 20150299. [Google Scholar] [CrossRef] [Green Version]
  28. Simon, S.; Bouvier, J.C.; Debras, J.F.; Sauphanor, B. Biodiversity and pest management in orchard systems. A review. Agron. Sustain. Dev. 2010, 30, 139–152. [Google Scholar] [CrossRef] [Green Version]
  29. Herz, A.; Cahenzli, F.; Penvern, S.; Pfiffner, L.; Tasin, M.; Sigsgaard, L. Managing floral resources in apple orchards for pest control: Ideas, experiences and future directions. Insects 2019, 10, 247. [Google Scholar] [CrossRef] [Green Version]
  30. Saunders, M.E.; Luck, G.W.; Mayfield, M.M. Almond orchards with living ground cover host more wild insect pollinators. J. Insect Conserv. 2013, 17, 1011–1025. [Google Scholar] [CrossRef]
  31. Dainese, M.; Montecchiari, S.; Sitzia, T.; Sigura, M.; Marini, L. High cover of hedgerows in the landscape supports multiple ecosystem services in Mediterranean cereal fields. J. Appl. Ecol. 2017, 54, 380–388. [Google Scholar] [CrossRef] [Green Version]
  32. Campbell, A.J.; Wilby, A.; Sutton, P.; Wäckers, F. Getting more power from your flowers: Multi-functional flower strips enhance pollinators and pest control agents in apple orchards. Insects 2017, 8, 101. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  33. Scheper, J.; Holzschuh, A.; Kuussaari, M.; Potts, S.G.; Rundlöf, M.; Smith, H.G.; Kleijn, D. Environmental factors driving the effectiveness of European agri-environmental measures in mitigating pollinator loss - a meta-analysis. Ecol. Lett. 2013, 16, 912–920. [Google Scholar] [CrossRef] [PubMed]
Insects 11 00372 g001 550
Figure 1. Map of Flanders in Belgium that shows the location of the 24 sweet cherry growers (circles) that took part in the study.
Figure 1. Map of Flanders in Belgium that shows the location of the 24 sweet cherry growers (circles) that took part in the study.
Insects 11 00372 g001
Table
Table 1. Questions about knowledge of pollination, pollinators and current practices that were covered during the semi-structured interviews with sweet cherry growers. The number of growers that gave a certain answer per question is given (percentage and actual number).
Table 1. Questions about knowledge of pollination, pollinators and current practices that were covered during the semi-structured interviews with sweet cherry growers. The number of growers that gave a certain answer per question is given (percentage and actual number).
TopicOptionAffirmative Answer
AFor which orchard tree crops is insect-mediated pollination important for crop yield?Apple57.1%(8/14)
Pear20.0%(3/15)
Sweet cherry95.8%(23/24)
BWhich factors influence pollination of sweet cherry?Weather95.8%(23/24)
Pollinating insects75.0%(18/24)
Pollinizer cultivars70.8%(17/24)
Air humidity58.3%(14/24)
Spring frost33.3%(8/24)
Tree vigor16.7%(4/24)
Tree diseases8.3%(2/24)
Competing flowers4.2%(1/24)
Site location4.2%(1/24)
Pesticides during bloom4.2%(1/24)
CWhich insect species contribute significantly to the pollination of sweet cherry?Honey bees95.8%(23/24)
Bumble bees87.5%(21/24)
Solitary bees70.9%(17/24)
Flies16.6%(4/24)
Hover flies8.3%(2/24)
DWhich pollinator do you actively manage during sweet cherry bloom? Honey bees100.0%(24/24)
Bumble bees54.2%(13/24)
Solitary bees16.6%(4/24)
EFor which pollinators that you apply do you pay?Honey bees69.6%(16/24)
Bumble bees100.0%(13/13)
Solitary bees0.0%(0/4)
For each specific answer, the total number does not necessarily equal 24, for example, the opinions about the importance of insect-mediated pollination in apple cultivation of growers who do not grow apples are not taken into account here.
Table
Table 2. Questions about management measures to promote crop pollinators that were covered during the semi-structured interviews with sweet cherry growers. The number of growers that gave a certain answer to each question is given (percentage and actual number).
Table 2. Questions about management measures to promote crop pollinators that were covered during the semi-structured interviews with sweet cherry growers. The number of growers that gave a certain answer to each question is given (percentage and actual number).
TopicOptionAffirmative Answer
AWhich measures to promote pollinating insects do you implement at present?Reduce pesticide use33.3%(8/24)
Reduce mowing20.8%(5/24)
Plant trees and shrubs16.6%(4/24)
Nesting sites for solitary bees16.6%(4/24)
Sow flower strips8.3%(2/24)
Nothing29.2%(7/24)
BIn addition, what do you think are good measures to promote pollinating insects?Plant trees and shrubs33.3%(6/18)
Sow flower strips27.3%(6/22)
Nesting sites for solitary bees20.0%(4/20)
Reduce pesticide use19.3%(3/16)
Reduce mowing4.3%(1/23)
NA50.0%(12/24)
CWhat motivates/would motivate you to adopt an extensive mowing regime or to plant flower strips?Support for pollinators66.7%(16/24)
Attract other beneficial insects33.3%(8/24)
Logistics *25.0%(6/24)
Esthetics16.7%(4/24)
Buffer for drought and heat stress12.5%(3/24)
DWhat prevents/would prevent you to adopt an extensive mowing regime or to plant flower strips?Frost damage in spring75.0%(18/24)
Logistics62.5%(15/24)
Wildflowers attract to many pollinators41.7%(10/24)
Tidiness of field33.3%(8/24)
Attraction of pests and diseases29.2%(7/24)
Pesticide residues on wildflowers12.5%(3/24)
EWhat motivates/would motivate you to plant a hedgerow or tree row?Support for pollinators45.8%(11/24)
Attract other beneficial insects33.3%(8/24)
Wind protection25.0%(6/24)
Esthetics16.7%(4/24)
Logistics4.2%(1/24)
FWhat prevents/would prevent you to plant a hedgerow or tree row?Logistics66.7%(16/24)
Attraction of pests and diseases37.5%(9/24)
Wildflowers attract to many pollinators12.5%(3/24)
GDo you make use of subsidies to implement measures to promote pollinators?Yes5.9 %(1/17)
No94.1%(16/17)
HWhere do you acquire the knowledge to optimize your crop pollination management?Research institutes58.3%(14/24)
Literature, internet29.2%(7/24)
Agronomic advisors20.8%(5/24)
Beekeepers16.6%(4/24)
Colleagues16.6%(4/24)
IIs there enough information available for you to optimize your crop pollination management?Yes41.7%(10/24)
No58.3%(14/24)
* i.e., space requirements, time and financial commitment.

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MDPI and ACS Style

Eeraerts, M.; Borremans, L.; Smagghe, G.; Meeus, I. A Growers’ Perspective on Crop Pollination and Measures to Manage the Pollination Service of Wild Pollinators in Sweet Cherry Cultivation. Insects 2020, 11, 372. https://doi.org/10.3390/insects11060372

AMA Style

Eeraerts M, Borremans L, Smagghe G, Meeus I. A Growers’ Perspective on Crop Pollination and Measures to Manage the Pollination Service of Wild Pollinators in Sweet Cherry Cultivation. Insects. 2020; 11(6):372. https://doi.org/10.3390/insects11060372

Chicago/Turabian Style

Eeraerts, Maxime, Lieve Borremans, Guy Smagghe, and Ivan Meeus. 2020. "A Growers’ Perspective on Crop Pollination and Measures to Manage the Pollination Service of Wild Pollinators in Sweet Cherry Cultivation" Insects 11, no. 6: 372. https://doi.org/10.3390/insects11060372

APA Style

Eeraerts, M., Borremans, L., Smagghe, G., & Meeus, I. (2020). A Growers’ Perspective on Crop Pollination and Measures to Manage the Pollination Service of Wild Pollinators in Sweet Cherry Cultivation. Insects, 11(6), 372. https://doi.org/10.3390/insects11060372

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