Bombus polaris | |
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Secure (NatureServe) |
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Scientific classification | |
Kingdom: | Animalia |
Phylum: | Arthropoda |
Class: | Insecta |
Order: | Hymenoptera |
Family: | Apidae |
Genus: | Bombus |
Subgenus: | Alpinobombus |
Species: | B. polaris |
Binomial name | |
Bombus polaris Curtis, 1835 |
Bombus polaris is a common Arctic bumblebee species.B. polaris is one of two bumblebees that live above the Arctic Circle. The other is its social parasite Bombus hyperboreus.B. polaris is a social bee that can survive at near freezing temperatures. It has developed multiple adaptations to live in such cold temperatures. B. polaris has a thicker coat of hair than most bees, utilizes thermoregulation, and makes insulated nests.
Bombus polaris is part of the family Apidae, which is part of the larger class of Insecta. Apidae is the largest family of bees, including several species of bees used by humans for honey consumption. B. polaris is part of the subgenus Alpinobombus along with Bombus alpinus, Bombus balteatus, Bombus hyperboreus, and Bombus neoboreus.Alpinobombus bees occur in arctic and high alpine regions. It is of the Bombini tribe, which feeds on pollen or nectar.
Bombus polaris has a thicker coat of hair than temperate bees in order to slow heat loss. Although the coloration of this bee is variable, the thorax is usually black with orange-yellow edges, while most of the abdomen is orange-yellow with a black tip.B. polaris also has a higher abdominal temperature than its temperate cousins.
The variation in the color of the pubescence is noticeable variable. The pubescence of the apical dorsal abdominal segments varies from deep rust color to a dull yellow color. There is also a considerable variation in the size of the workers. Some can be scarcely 10 mm in length, while others can be much larger.
Additionally, B. polaris has a bio-mechanical method of bringing its body to a much higher abdominal temperature than its temperate relatives. The ability of B. polaris to fly in deep cold is due to a process called thermoregulation, which allows it to raise its internal body temperature to temperatures as high as 38 °C. For this reason B. polaris is likely to outcompete any temperate bumblebee species that might seek to expand to the northern range.