Mikko Tiusanen, MSc, investigated in his doctoral dissertation the structure and functioning of plants and their pollinators in Arctic regions.
“Up north, there are very few apids, such as bees and bumblebees, so other insect groups bear the main responsibility for pollination,” explains Tiusanen.
In his study, Tiusanen found that relatives of the ubiquitous housefly had a central role. These members of the Muscidae family are important pollinators, whose abundance impacts the seed production of northern plants.
The mountain avens hoards pollinators
Flowering in the Arctic occurs in the few weeks after the snow has melted. The subsequent profusion of flowers causes intensive competition for the pollination services provided by insects.
The abundant mountain avens with its attractive flowers hoards most of the pollinator visits, which leaves the pollination of rare and less attractive flowers particularly inadequate. At the height of mountain avens’ blooming time, even their own seed production suffers from the competition for pollinators within the species itself.
During the flowering peak, pollinators insufficient for everyone
In the doctoral study, Arctic pollinator communities were found to be dominated by a few plant and insect species, resulting in insufficient pollinator numbers at the height of flowering.
“This is probably due to a decrease in pollinators. The number of Muscidae, the most important pollinators, has been in decline for the past twenty years. Additionally, plants and pollinators react differently to the warming climate, shifting their occurrence to different stages of the growing season,” Tiusanen explains.
Are pollinator services sufficient elsewhere?
Global changes in habitats result in declining biodiversity, which disrupts ecosystems and their ability to produce ecosystem services. For example, the decline in insect populations, pollinators in particular, may have significant effects on food production and, thus, the entire human race.
“Arctic communities are not the only pollinator communities dominated by a handful of species. Agricultural environments with their crops and western honey bees comprise a structurally similar community,” notes Tiusanen.
As climate change and other human-induced environmental changes intensify, insect-pollinated plants and their pollinator communities must adapt to new conditions in both Arctic and southern regions.
Further information:
Mikko Tiusanen
University of Helsinki
Faculty of Biological and Environmental Sciences and Faculty of Agriculture and Forestry
Spatial Foodweb Ecology Group