General diet All their nutrients come directly or indirectly from pollen and nectar. Pollen is the main source of protein, required for growth, so it is consumed mostly during the larval stage, while nectar provides sugar, which provides the energy adults and larvae need throughout their life. Most species show medium degrees of specialisation for native flowering plants and trees. However, many species in New Zealand have been recorded visiting
kiwifruit flowers, This plasticity varies between species as some studies have shown to be more willing to feed from introduced species than others.
Foraging behaviour Leioproctus species show almost no territorial behaviours, and often nest and feed within close proximity of each other. They can show a range of distance and foraging time between individuals as well as species. Although a common theme to all species is that they typically nest close to a large food source (<10m) such as a large
Leptospermum tree (
Mānuka) which are common in New Zealand and east Australia.
Pollination Most species are somewhat specialised often to a particular genus or family, which is beneficial to plants as specialised pollinators increases the likelihood of pollen being spread to the correct species. The males are relatively short lived and have little impact on pollination, but the females intentionally collect pollen by accumulating pollen in the hairs around the head and thorax while feeding on nectar before moving it to the scopae.
Leioproctus are particularly important pollinators for many endangered native plants, such as rare
Proteas in Australia, many of which are strictly self-incompatible and rely on pollinators for survival. Multiple studies on
Persoonia (geebungs) found that
Leiproctus was the most common genus of pollinators at their study sites. Lots of these species live in dry woodlands on acidic sandy soils that are suited to
Leioproctus as they are mining bees and can tolerate these harsh environments. Research has gone into using native bees for commercial pollination and found positive results and successful trials of nest removal and re-establishment. Because they nest individually, they would be more resistant to spread of disease, like
Varroa mites or
AFB, which is of increasing interest in agriculture.
Impact from introduced honeybees The effect introduced bees have had on native plants and bees is still unclear, but some ecologists have concerns about the effect being negative. Introduced honeybees have been recorded visiting many of the species previously associated with native bees. For most native plant species this is atypical and unintentional of beekeepers, but due to the high demand for
Mānuka honey,
Leioproctus bees are now seeing high competition in some places. Because domestic honeybees live in mobile hives, beekeepers can move these hives into high resource areas and then remove them once the nectar and pollen are depleted, forcing the sessile
leioproctus bees to travel far distances to find resources. Although
Leiproctus species feed from species other than Mānuka, many still rely on this food source to support them over the summer, so this increased competition could reduce
leioproctus populations which could then affect the other native plants they pollinate. == Habitat ==