Pesticides and pollinators

WHAT WE SHOULD KNOW

Why pollinators matter

Pollinators play a vital role in healthy ecosystems and global food production. Bees, butterflies, birds, bats and other pollinating species help produce around one-third of the food we eat while supporting the reproduction of countless flowering plants.

Australia is home to more than 2,000 species of native bees, most of which are solitary and found nowhere else in the world. These native pollinators have evolved alongside Australia's unique plants over thousands of years and are essential to maintaining biodiversity.

When pollinator populations decline, the impacts extend far beyond agriculture. Native plants struggle to reproduce, reducing food and habitat for birds, insects and small mammals. Over time, entire ecosystems can become less resilient.

Scientists around the world have reported significant declines in both managed honeybee colonies and wild pollinator populations, a phenomenon now known as Colony Collapse Disorder (CCD). Research points to a combination of habitat loss, climate change, disease and pesticide exposure as key contributing factors.

The impact of pesticides

Pesticides are designed to kill or control pests, but many can also affect beneficial insects, including bees and other pollinators.

A growing body of scientific evidence has linked some pesticides to reduced pollinator health, impaired navigation and foraging behaviour, lower reproductive success and increased vulnerability to disease and environmental stress.

Pollinators can be exposed to pesticides through direct spraying, contaminated pollen and nectar, treated seeds, soil and water. Even low-level exposure can have cumulative impacts over time.

Reducing the use of harmful pesticides is one of the most effective actions governments, organisations, communities and gardeners can take to support pollinator populations.

Understanding neonicotinoids

Neonicotinoids, often called "neonics", are among the most widely used insecticides in the world.

Unlike many pesticides that remain on the surface of a plant, neonicotinoids are systemic chemicals. They are absorbed throughout the plant's tissues, including its leaves, flowers, pollen and nectar.

This means pollinators may be exposed whenever they feed on treated plants.

Many agricultural crops and ornamental plants are grown from neonicotinoid-treated seed. As a result, pollinators may be exposed whenever they feed on treated plants.

Research has shown that neonicotinoids can affect bees' ability to navigate, forage, learn and reproduce. They may also increase susceptibility to pests, diseases and other environmental pressures.

Particular concern has been raised about products containing the active ingredients:

  • Imidacloprid
  • Clothianidin
  • Thiamethoxam

These chemicals have been restricted or banned for some uses in a number of countries due to concerns about their impact on pollinators.

In Australia, the Australian Pesticides and Veterinary Medicines Authority (APVMA) is currently reviewing neonicotinoid chemicals as part of an ongoing regulatory assessment. Publication of the proposed regulatory decisions for individual neonicotinoid actives is expected by October 2026.

Before purchasing any pesticide, review the list of common neonicotinoid pesticide brand names and check active ingredients on packaging. Avoid products known to be harmful to bees and other pollinators.

Safer ways to manage garden pests

Supporting pollinators does not mean accepting pest damage in the garden. Many effective alternatives can reduce the need for broad-spectrum pesticides.

These include:

  • companion planting to improve plant health and deter pests naturally
  • Integrated Pest Management (IPM), which combines monitoring, prevention and targeted interventions
  • encouraging beneficial insects such as ladybirds, lacewings and predatory wasps
  • physical controls such as hand removal, barriers and traps
  • natural repellents including garlic or chilli-based sprays where appropriate
  • improving soil health to grow stronger, more resilient plants
  • biodynamic preparations may help to improve the vitality of soil, help plants become more resistant to pests and diseases and to increase the nutritional value of food.
  • diatomaceous earth - a natural pesticide made from fossilised shells and deters a variety of garden pests when dusted on plants or applied to soil
  • when purchasing plants, ask the retailer whether they have been treated with neonicotinoids.

Can cities save bees?

Cities are often viewed as places where nature has been pushed aside. However, research suggests that urban environments can provide important refuges for pollinators when they include diverse green spaces, flowering plants and reduced pesticide use.

Parks, gardens, nature strips, green roofs and community gardens can all contribute valuable habitat. In some cases, cities may support surprisingly high levels of pollinator diversity.

Researchers and urban ecologists increasingly recognise that cities have an important role to play in pollinator conservation through thoughtful planning, habitat creation and reduced chemical use.

Why bee-friendly cities are the key to food security

Protecting pollinators is not just about conserving biodiversity. It is also about safeguarding the systems that support food production.

Pollinators contribute billions of dollars to global agriculture each year and are essential for many fruits, vegetables, nuts and seeds. Without healthy pollinator populations, food production becomes more difficult, more expensive and less resilient.

Around the world, cities and local governments are taking action through bee-friendly initiatives that reduce pesticide use, expand pollinator habitat and increase community awareness.

Programs such as Bee City USA have demonstrated how local governments can make practical commitments to support pollinators through:

  • reducing or eliminating harmful pesticide use in public spaces
  • planting pollinator-friendly native species
  • creating connected habitat corridors
  • supporting community education and engagement
  • integrating biodiversity into urban planning.

Bee-friendly cities are helping to create healthier environments for people and wildlife alike. By protecting pollinators today, we can strengthen biodiversity, improve urban resilience and help secure the future of our food systems.

Learn more

Explore the resources below to learn more about pollinators, pesticides and bee-friendly communities.

Why pollinators matter

Pollinator decline: understanding the challenge

Pesticides and pollinator health

Creating bee friendly cities and communities

Taking action for pollinators