Pesticides, disease and habitat loss all contribute to loss of important insects
By Summit Voice
FRISCO — While the stunning decline in honeybee populations has made widespread headlines in recent years, other pollinating insects are also under pressure from multiple threats, according to a new study published in the scientific journal Frontiers in Ecology and the Environment.
The loss of those insects could have profound environmental, human health and economic consequences, considering that insects pollinate about 75 percent of crop species and enable reproduction in up to 94 percent of wild flowering plants. Pollination services provided by insects each year worldwide are valued at over $200 billion.
The research was carried out by an international team of 40 scientists from 27 institutions involved in the UK’s Insect Pollinators Initiative (IPI), a £10M research program investigating the causes and consequences of pollinator decline.
“There is no single smoking gun behind pollinator declines, instead there is a cocktail of multiple pressures that can combine to threaten these insects,” said Dr Adam Vanbergen from the UK’s Centre for Ecology & Hydrology. “For example, the loss of food resources in intensively-farmed landscapes, pesticides and diseases are individually important threats, but are also likely to combine and exacerbate the negative impacts on pollinators.”
The review concluded that:
- Pollinator populations are declining in many regions, threatening human food supplies and ecosystem functions
- A suite of interacting pressures are having an impact on pollinator health, abundance, and diversity. These include land-use intensification, climate change, and the spread of alien species and diseases
- A complex interplay between pressures (e.g. lack of food sources, diseases, and pesticides) and biological processes (e.g. species dispersal and interactions) at a range of scales (from genes to ecosystems) underpins the general decline in insect-pollinator populations
- Interdisciplinary research and stakeholder collaboration are needed to help unravel how these multiple pressures affect different pollinators and will provide evidence-based solutions
- Current options to alleviate the pressure on pollinators include establishment of effective habitat networks, broadening of pesticide risk assessments, and the development and introduction of innovative disease therapies.
“Pollinators are the unsung heroes of the insect world and ensure our crops are properly pollinated so we have a secure supply of nutritious food in our shops,” said co-author Professor Simon Potts, with the University of Reading. “The costs of taking action now to tackle the multiple threats to pollinators is much smaller than the long-term costs to our food security and ecosystem stability. Failure by governments to take decisive steps now only sets us up for bigger problems in the future.”
“A major challenge is going to be understanding the whole ecosystem effects of the specific threats faced by specific pollinators. Complicated as this is, this is nevertheless what we need to do if we want to predict overall impacts on pollination services,” Professor Graham Stone, with Edinburgh University’s Institute of Evolutionary Biology.