Protecting & Supporting Pollinators

In our cropping systems, the greatest risks to pollinators are probably forage and nesting habitat loss and pesticide usage (insecticide, fungicide and herbicide). While the impact of habitat loss is more straight forward, the risk of pesticides to insect pollinators, particularly the honey bee, has been studied around the world for decades. Yet it’s important to note that these studies often are not specifically conducted under Manitoban or even Canadian conditions, and our understanding of these complex relationships is not complete.

The risk that an insecticide poses to pollinators varies greatly between products, and such risk should be considered when any field that has flowering crops or flowering weeds is to be sprayed. Because an insecticide has a decreased risk to pollinators such as bees does not necessarily make it less effective at controlling targeted pest insects. The mode of action of the insecticide can be one reason for insecticides being of less risk to bees. Additionally, because bees feed primarily on pollen and nectar, and many crop pests feed on vegetation or plant sap, there are some insecticides that when applied properly can be highly effective at controlling potential pests, but with reduced risk to bees and many pollinators. Fungicides are currently believed to have relatively low toxicity to honey bees on their own, but some fungicides have been found to have a negative impact on solitary bees (2,3).

 

All levels of government have taken steps to try to protect pollinators. Pesticide product labels are approved by Health Canada and users are required to follow the label; “the label is the law”, as they say. The label for any pesticide registered in Canada can be found at: http://pr-rp.hc-sc.gc.ca/ls-re/index-eng.php.  These labels will have a section titled “Environmental Hazards”. Here it usually states whether a pesticide is safe to apply to flowering plants, should only be applied to flowering plants when bees are not foraging (such as in the evening), or should not be applied to flowering plants. Where such wording is absent and there is flexibility in application, the following is generally recommended:

 

 

 

Wild bees need nesting sites especially in the ground and in wood cavities. The majority of wild bees make their nest in the ground. These include many species of sweat bees (Lasioglossum), mining bees (Andrena), plasterer bees (Colletes), and others (4). Many other bees nest in cavities in wood such as trees or plant stems. These include masked bees (Hylaeus), small carpenter bees (Ceratina), and lesser mason-bees (Hoplitis). Some ground-nesting bees are known to live in sandy or loamy soils. The nests may be in natural unmanaged locations, fields, or even residential yards.

 

Nesting structures can be made to encourage localized pollinator activity. There are various ways to construct above-ground nests, but natural biodegradeable construction is generally preferred by the pollinator, better for the environment, and reduces longer-term disease build-up issues. Nests can be made as bundles or blocks. Keeping the constructed nest off the ground, such as by mounting it on a post, will minimize attack by ants and other non-flying enemies, and prevent extra moisture from seeping into the wood.

 

    

Left: The entrance of a wild bee (Colletes) ground nest in a lawn; Centre left: Wild bee nest (Hoplitis; adult and cocoons) in raspberry cane pith; Centre right: Wild leafcutter bee cocoons (2) (Megachile) in a raspberry branch; Right: Various constructed nests that were submitted as part of a University of Manitoba international “bee house” competition in 2016.

Tillage of the soil that houses ground-nesting bees destroys the nests and potentially the adults and their offspring; therefore leave some areas untilled if possible. Untilled land may include hedgerows or shelterbelts, field margins and corners, river or stream banks. Generally speaking, mowing has less of an impact on wild ground-nesting bees than burning, and burning less of an impact than tilling. Bees and other pollinators can often survive infrequent, smaller area, low intensity burns, and such burns can also improve pollinator habitat in the longer term (5).

 

Appropriate management of non-cropped areas to encourage wild pollinators may prove to be a cost-effective means of maximizing crop yield. Hedgerows and field margins with trees and shrubs, flowering vegetation, well-drained soil, a variety of pithy stems, snag trees, or dead branches, provide forage, habitat, and refuge for wild pollinators and bees. Hedgerows on the north side of a field can provide shelter from prevailing winds for pollinators on that field. Where a hedgerow is restored within an intensive agricultural landscape, the result has been found to be positive for more specialised and less mobile insect pollinators (6). Larger bees tend to be more mobile and able to fly further (6), and so for these bees, the broader regional habitat is even more important than the field margin habitat (2). For row crops, some pollinators tend to move further down rows than across rows.

 

A habitat with an abundance of diverse floral sources is ideal for insect pollinators like bees. A wider variety of flowering plants generally supports a wider variety of bees, and early, mid and late season bloom promotes more pollinator activity. Many beneficial parasites of crop pests also feed on nectar as adults, so floral diversity can also enhance biological control. Pollinators also need fresh, clean water which can come from rain, dew, or a nearby stream.

 

The monarch butterfly is a pollinator of wild plants and some crops. They’re also very recognizable and a favourite of many gardeners and landowners.  Larvae feed on milkweed species.    Above: (L) An adult monarch butterfly. (R) A monarch butterfly caterpillar on a milkweed plant.

The focus of this summary is on protecting and supporting pollinators, a critical part of our agro-ecosystem. However, for some there can be issues and a reminder that insect pollinators are resourceful and present in a healthy environment. Bees, in particular, are usually busy “in the background” and not really noticed, but the following can be problematic:

 

If you have ground-nesting bees in an undesirable location, repeatedly dousing the area with water may be enough to persuade them to move. For situations where honey bees have swarmed and are clustered in an undesirable location, contact your local agriculture office or a beekeeper to see if the swarm can be safely removed.

(1) Radera, R.,  Bartomeus, I., Garibaldi, L.A., et al. 2016.  Non-bee insects are important contributors to global crop pollination. Proceedings of the National Academy of Sciences 113(1): 146-151.

 

(2) Park M.G., Blitzer E.J., Gibbs J., Losey J.E., and B. N. Danforth. 2015 Negative effects of pesticides on wild bee communities can be buffered by landscape context. Proc. R. Soc. B 282: 20150299.

 

(3) Artz D.R. and T.L. Pitts-Singer (2015) Effects of Fungicide and Adjuvant Sprays on Nesting Behavior in Two Managed Solitary Bees, Osmia lignaria and Megachile rotundata. PLoS ONE 10(8): e0135688. doi:10.1371/journal.pone.0135688

 

(4) Sheffield, C. S., S. D. Frier, and S. Dumesh. 2014. The Bees (Hymenoptera: Apoidea, Apiformes) of the Prairies Ecozone, with Comparisons to other Grasslands of Canada. In Arthropods of Canadian Grasslands (Volume 4): Biodiversity and Systematics Part 2. Edited by D. J. Giberson and H. A. Cárcamo. Biological Survey of Canada. pp. 427-467. © 2014 Biological Survey of Canada.

 

(5) U.S. Department of Agriculture and U.S. Department of Interior. 2015. Pollinator-Friendly Best Management Practices for Federal Lands. 52 pp.

 

(6) Kremen, C. and L. K. M’Gonigle. 2015. Small-scale restoration in intensive agricultural landscapes supports more specialized and less mobile pollinator species. Journal of Applied Ecology. 52, 602–610 doi: 10.1111/1365-2664.12418