Larger patches of diverse floral resources increase insect pollinator density, diversity, and their pollination of native wild flowers

Native wildflower plantings can be used to provide nutritional resources to support pollinating insects, yet the effects of planting size and bloom richness on the density, diversity, and function of these insects are not well understood. We established stands of twelve native flowering perennial plant species in replicated plots ranging in size from 1 to 100 m(2). These plots were sampled for insect pollinators, bloom richness, and seed production by three wild flower species. Honeybees, wild bees, and hoverflies all responded positively to increasing flower richness, whereas particular insect pollinator groups responded differently to the size of the flowering plant area. The density of honeybees and hoverflies was not affected by increasing flowering patch size, whereas in general, wild bees were observed at higher density and diversity in the 30 and 100 m(2) patches. Increasing wildflower patch size, and thus wild bee density, resulted in greater seed set in the sampled wild flowers. These results indicate that wild bees are sensitive to the area and richness of floral resources in patches, even at relatively small scales. Therefore, larger wildflower plantings with more diverse flower species mixes are more suitable for the conservation of wild pollinators and reproduction of sown species. 1439-179/(c) 2014 Gesellschaft fur Okologie. Published by Elsevier GmbH, All rights reserved.