Bombus frigidus | |
---|---|
Stikine Region, B.C., 2023 | |
Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Arthropoda |
Class: | Insecta |
Order: | Hymenoptera |
Family: | Apidae |
Genus: | Bombus |
Subgenus: | Pyrobombus |
Species: | B. frigidus |
Binomial name | |
Bombus frigidus | |
Bombus frigidus, the frigid bumblebee, is a rare species of bumblebee largely found in Canada and parts of the United States.
These bees have adapted to their cold environment by being able to keep their internal temperature within a certain range while also being able to expel heat to keep the colony warm. An additional adaptation to the cold is their reduced length of copulation. Also, B. frigidus has developed a relationship with Mertensia paniculata so that the flowers' color signals to the bees when to obtain nectar.
Bombus frigidus was described in 1854 by Frederick Smith in the Catalogue of hymenopterous insects in the collection of the British Museum. [3] Some species from the Appalachians have been included with this species in the past, but not in newer sources. This bee can be confused with Bombus mixtus and Bombus balteatus . Bees in the family Apidae consist of honey bees, bumblebees, and stingless bees. [1]
Bombus frigidus have a yellow thorax and T1–T2. T1–T5 refers to the dorsal abdomen of the bee with T1 being closer to the thorax-abdomen division. A black band is present between the wings (the band may not be there for some males). The T4–T5 are orange or yellow. [4] The hair of the face is black for females (can be black or yellow for males). The corbicular fringe (pollen sack near the back of the bee) is pale orange. The hair length is long, and the males are roughly half the size of the queen. The hair on the legs for both sexes is black. [4]
Bombus frigidus is a rare bee that is found from Alaska to the eastern shore of Canada, and as far south as Colorado. There have been erroneous reports of the bee being spotted in California, Ohio, Tennessee, North Carolina and Virginia. These arctic bees live in cold, high latitude or altitude areas. [1] Their colonies are formed either in small burrows or on the ground. Despite being rare, their populations are not decreasing like other bumblebees, and they are considered of “Least Concern” in terms of conservation status. [1]
Like most bumblebees, B. frigidus has a eusocial seasonal colony in which the queen lives for a year. During the winter, the queen will stay in a small chamber in the ground, which she had previously found or dug for herself, called a hibernaculum. As soon as the snow melts around mid May, the queen will begin to search for a nest site. B. frigidus queens tend to leave their hibernacula earlier than other arctic bees. Also, arctic bees have ovaries which develop faster than those of temperate bees. This allows arctic bees to start their colonies faster, which is necessary due to the shorter time between winters in arctic regions. [5] The queens fly close to the ground, often stopping to examine a potential nesting site. While the queen is searching, she will not carry any pollen. Once a suitable site is found, she will begin to collect pollen to make a brood clump and feed the brood. She will also start to build a wax cup, called a honey pot, to store the pollen and nectar. When the nest is ready, she will lay eggs on the brood clump and incubate them with her abdomen. The queen will remain in the nest until she needs more food or until the eggs hatch. [4] The eggs will hatch about four days after being laid, but it takes about four weeks for the first workers to become adults. The colony will continue to grow during the summer, and the queen will continue to produce eggs, rarely leaving the nest. The workers will supply her with nectar, maintain the colony, and help her produce a group of male offspring. New queens are produced shortly thereafter. The reproductive bees will leave the colony to mate around early September. After mating, the males will die and the new queens will obtain nectar for a short time before finding a new hibernaculum for the winter. [4] [6]
Bombus frigidus differs from most bumblebees mating behavior in length of copulation time. These bees take approximately ten minutes to copulate, which is significantly shorter than the thirty to eighty minutes of other bees. The male will place a scent on prominent objects and will fly on a route until he finds a mate. [1] The pheromone is produced by a pair of glands in the labial gland. The male will grab onto the females thorax to get into position. The queen will then move her stinger aside if she wants to copulate with him. After the sperm has been transferred, the male will secrete a sticky mixture into the female. When the mixture has hardened, other males won't be able to copulate with the female. This increases the chance that this particular male's genes will be passed on. [7] Once the male has mated, he will die shortly thereafter. [8]
Larger bees are able to better conserve heat at low temperatures than smaller bees. This is because surface area increases at a smaller rate than volume, thus larger bees with more volume are able to conserve metabolically generated heat. B. frigidus bees are one of the larger types of bumblebees, with an estimated dry mass of 0.257 grams and volume of 40.3 mm3 for the queens. Worker bees have an estimated mass of 0.130 grams and volume of 27.9 mm3. The average thoracic temperature for both queens and workers is 36.2 degrees C. [9] This allows them to survive at temperatures and altitudes that would kill smaller bees. The larger size does have a drawback: increasing size leads to the need for greater thoracic temperatures to initiate flight. In other words, there is an upper limit to how large the bees should become. If the bee is too large, it won't be able to reach the necessary internal temperature to fly, which would leave it vulnerable to predators and unable to procure nutrition. Therefore, it would die and not pass on its genes, and natural selection would thus prevent these larger bees from being propagated. [9]
Bombus frigidus also seem to be able to transfer heat from the thorax to the abdomen. They can do this in order to keep the colony at a certain temperature. To replace the heat that is transferred from the thorax to the abdomen to be radiated to the colony, the bee can shiver by using the flight muscles in the thorax. [10]
Bombus frigidus has been observed to preferentially breed with non-nestmates by recognizing naturally borne cues. The exact cues are unknown, but they could be specific ways of flying, a pheromone, or a specific sound. When compared with other bumblebees, B. frigidus spends significantly less time copulating and has fewer copulations overall, while still garnering the same reproductive success as other bumblebees. [11] This saves the bees’ time and energy and protects the bees from predators (less time copulating means less time in the open, vulnerable to predators). On the rare occasions when two nestmate bees copulate, the time is shown to be very brief which means that sperm may not have been transferred. [11]
When males and females of a bee species often encounter one another without environmental recognition cues, natural selection is likely to favor a mechanism of naturally borne cues. In addition, sexually active males and females often fail to disperse during the mating season and will thus encounter one another. This failure to disperse makes the recognition of naturally born cues vital for the success of a hive's genes. [11]
This bumblebee is known to be one of at least two species of bumblebees that have a mechanism against inbreeding (the other species being Bombus bifarius ). When fertile queens and drones from the same colony meet during the mating period, they tend to avoid each other. [12] In other bees inbreeding is avoided because females and males from the same colony are not so likely to encounter each other. In general, inbreeding is not common in bees.
Bombus frigidus feed on the nectar of plants with their medium short tongue. For bees on the eastern half of North America, the nectar usually comes from Cirsium (thistles), Epilobium , Geranium , Mertensia (bluebells), Taraxacum officinale (dandelion), and Trifolium (clovers). For bees on the western half, the plants are Epilobium, Lupinus , Geranium, Symphoricarpos , Trifolium, and Achillea . [4] This nectar is brought back to the colony for the larvae to feed on. [6]
Bombus frigidus is predominantly parasitized by mites of the genus Pneumolaelaps including: longanalis, richardsi, and sinahi. The mites are predominantly found on honey pots or in pollen cylinders. When the mites are on the bees themselves, they are found mostly on queen and male bees but not on worker bees. This can be explained by the fact that only the queen bees (and the mites attached to them) have a chance to live until the next spring. Male bees commonly enter the nests of their own and other species, giving the mites the chance to spread to another colony or to another queen. [13]
At first glance, the relationship between B. frigidus and Mertensia paniculata (bluebells) may look as if the bees simply steal the nectar without helping the flower to pollinate, but this is only half of the story. This particular flower has two stages: young flowers are pink and produce pollen and older flowers are blue and produce nectar. When a bee encounters a pink flower, it will climb into the mouth of open flowers or open closed flowers to get to the pollen. [14] When a bee encounters a blue flower, it will bypass the mouth and go straight for the corolla which contains the nectar. This plant has flowers which bloom sequentially. This means that any particular plant is likely to have both pink and blue flowers. The blue flowers attract bees to that plant where the bees obtain both nectar and pollen. It was found that plants with blue and pink flowers were twice as likely to be visited by a bee when compared to plants with just pink flowers. So the usual mutualistic exchange of food for pollination is still there; it just exists in a different format. [14]
The largest threat facing B. frigidus is climate change, as these bees inhabit a specialized climate. As temperature rises, the bees may be driven either farther north or to extinction. With increasing temperatures, snow does not pack as tightly. This leads to earlier melting, and during the summer, water isn't as readily available. This causes the habitat to dry out and fewer plants bloom, thus reducing nectar supply for the bees. [1]
High-elevation cold habitats also tend to have fewer species in them and thus contain less diversity and more straightforward food webs. This means that if B. frigidus feels the effects of climate change, then the other species which interact with the bees will be negatively impacted as well. Ergo, the overall result will be more pronounced. [1]
Less important (but still significant) threats include loss of habitat, use of pesticides, diseases from managed pollinators (diseases which come from human raised insects like honey bees and ant farm ants), and competition with bees that are moving north due to warmer temperatures and lost habitats. [1]
To increase pollination and production of the lowbush blueberry plant in Newfoundland, Canada, non-native bee species have been imported. Since these bees are not from the area and are farm raised, they are infected by diseases and parasites that the native bees don't have a defense against. [15] This has caused a decline in all Bombus species in the area and unfortunately, many of the indigenous plants rely on these native species for pollination. With the decrease in natural pollinators, these plants may end up being replaced by plants that are favored by the imported bees. This change in plant life may in turn decrease the diversity of birds and mammals. [15]
A bumblebee is any of over 250 species in the genus Bombus, part of Apidae, one of the bee families. This genus is the only extant group in the tribe Bombini, though a few extinct related genera are known from fossils. They are found primarily in higher altitudes or latitudes in the Northern Hemisphere, although they are also found in South America, where a few lowland tropical species have been identified. European bumblebees have also been introduced to New Zealand and Tasmania. Female bumblebees can sting repeatedly, but generally ignore humans and other animals.
Bombus terrestris, the buff-tailed bumblebee or large earth bumblebee, is one of the most numerous bumblebee species in Europe. It is one of the main species used in greenhouse pollination, and so can be found in many countries and areas where it is not native, such as Tasmania. Moreover, it is a eusocial insect with an overlap of generations, a division of labour, and cooperative brood care. The queen is monogamous which means she mates with only one male. B. terrestris workers learn flower colours and forage efficiently.
Bombus ternarius, commonly known as the orange-belted bumblebee or tricolored bumblebee, is a yellow, orange and black bumblebee. It is a ground-nesting social insect whose colony cycle lasts only one season, common throughout the northeastern United States and much of Canada. The orange-belted bumblebee forages on Rubus, goldenrods, Vaccinium, and milkweeds found throughout the colony's range. Like many other members of the genus, Bombus ternarius exhibits complex social structure with a reproductive queen caste and a multitude of sister workers with labor such as foraging, nursing, and nest maintenance divided among the subordinates.
The early bumblebee or early-nesting bumblebee is a small bumblebee with a wide distribution in most of Europe and parts of Asia. It is very commonly found in the UK and emerges to begin its colony cycle as soon as February which is earlier than most other species, hence its common name. There is even some evidence that the early bumblebee may be able to go through two colony cycles in a year. Like other bumblebees, Bombus pratorum lives in colonies with queen and worker castes. Bombus pratorum queens use aggressive behavior rather than pheromones to maintain dominance over the workers.
The tree bumblebee or new garden bumblebee is a species of bumblebee common in the European continent and parts of Asia. Since the start of the twenty-first century, it has spread to Great Britain. These bumblebees prefer habitats that others do not, allowing them to pollinate flowers in areas that many other species do not get to.
Bombus lapidarius is a species of bumblebee in the subgenus Melanobombus. Commonly known as the red-tailed bumblebee, B. lapidarius can be found throughout much of Central Europe. Known for its distinctive black and red body, this social bee is important in pollination.
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 hyperboreus is a species of Arctic bumblebee with a circumpolar distribution. The species is primarily found in the arctic areas of Greenland, northern Scandinavia, and Russia. In 2015 the nearctic species, Bombus natvigi, was separated from this species, based on genetic analysis. Accordingly, Bombus hyperboreus is limited to the Palaearctic, despite older literature listing this species as occurring in the Nearctic.
Bombus hortorum, the garden bumblebee or small garden bumblebee, is a species of bumblebee found in most of Europe north to 70°N, as well as parts of Asia and New Zealand. It is distinguished from most other bumblebees by its long tongue used for feeding on pollen in deep-flowered plants. Accordingly, this bumblebee mainly visits flowers with deep corollae, such as deadnettles, ground ivy, vetches, clovers, comfrey, foxglove, and thistles. They have a good visual memory, which aids them in navigating the territory close to their habitat and seeking out food sources.
Bombus lucorum, the white-tailed bumblebee, is a species of bumblebee, widespread and common throughout Europe. This name has been widely used for a range of nearly identical-looking or cryptic species of bumblebees. In 1983, Scholl and Obrecht even coined the term Bombus lucorum complex to explain the three taxa that cannot be easily differentiated from one another by their appearances. A recent review of all of these species worldwide has helped to clarify its distribution in Europe and northern Asia, almost to the Pacific. B. lucorum reaches the Barents Sea in the North. However, in southern Europe, although found in Greece it is an upland species with its distribution never quite reaching the Mediterranean.
The two-spotted bumble bee is a species of social bumble bee found in the eastern half of the United States and the adjacent south-eastern part of Canada. In older literature this bee is often referred to as Bremus bimaculatus, Bremus being a synonym for Bombus. The bee's common name comes from the two yellow spots on its abdomen. Unlike many of the other species of bee in the genus Bombus,B. bimaculatus is not on the decline, but instead is very stable. They are abundant pollinators that forage at a variety of plants.
Bombus vosnesenskii, the yellow-faced bumblebee, is a species of bumblebee native to the west coast of North America, where it is distributed from British Columbia to Baja California. It is the most abundant species of bee in this range, and can be found in both urban and agricultural areas. Additionally, B. vosnesenskii is utilized as an important pollinator in commercial agriculture, especially for greenhouse tomatoes. Though the species is not currently experiencing population decline, urbanization has affected its nesting densities, and early emergence of the B. vosnesenskii has been implicated in the increasing lack of bee diversity on the West coast.
Bombus occidentalis, the western bumblebee, is one of around 30 bumblebee species present in the western United States and western Canada. A recent review of all of its close relatives worldwide appears to have confirmed its status as a separate species.
Bombus fervidus, the golden northern bumble bee or yellow bumblebee, is a species of bumblebee native to North America. It has a yellow-colored abdomen and thorax. Its range includes the North American continent, excluding much of the southern United States, Alaska, and the northern parts of Canada. It is common in cities and farmland, with populations concentrated in the Northeastern part of the United States. It is similar in color and range to its sibling species, Bombus californicus, though sometimes also confused with the American bumblebee or black and gold bumblebee. It has complex behavioral traits, which includes a coordinated nest defense to ward off predators. B. fervidus is an important pollinator, so recent population decline is a particular concern.
Bombus ruderatus, the large garden bumblebee or ruderal bumblebee, is a species of long-tongued bumblebee found in Europe and in some parts of northern Africa. This species is the largest bumblebee in Britain and it uses its long face and tongue to pollinate hard-to-reach tubed flowers. Bumblebees are key pollinators in many agricultural ecosystems, which has led to B. ruderatus and other bumblebees being commercially bred and introduced into non-native countries, specifically New Zealand and Chile. Since its introduction in Chile, B. ruderatus has spread into Argentina as well. Population numbers have been declining and it has been placed on the Biodiversity Action Plan to help counteract these declines.
Bombus affinis, commonly known as the rusty patched bumble bee, is a species of bumblebee endemic to North America. Its historical range in North America has been throughout the east and upper Midwest of the United States, north to Ontario, Canada, where it is considered a "species at risk", east to Quebec, south to Georgia, and west to the Dakotas. Its numbers have declined in 87% of its historical habitat range. On January 10, 2017, the United States Fish and Wildlife Service placed B. affinis on the list of endangered species, making the rusty patched bumblebee the first bee to be added to the list in the continental United States.
Bombus terricola, the yellow-banded bumblebee, is a species of bee in the genus Bombus. It is native to southern Canada and the east and midwest of the United States. It possesses complex behavioral traits, such as the ability to adapt to a queenless nest, choose which flower to visit, and regulate its temperature to fly during cold weather. It was at one time a common species, but has declined in numbers since the late 1990s, likely due to urban development and parasite infection. It is a good pollinator of wild flowers and crops such as alfalfa, potatoes, raspberries, and cranberries.
Bombus pauloensis is a neotropical bumblebee, formerly known as Bombus atratus, that is found throughout regions of South America, including Colombia, Ecuador, Brazil, and Argentina. It lives in social colonies that include a founder queen/queens, workers and brood. B. pauloensis is somewhat unusual because of its potential to oscillate between polygynous and monogynous nesting cycles. Bombus pauloensis was the first species in the genus Bombus that was discovered to display such polygynous nesting patterns. The polygynous nesting cycles lead to certain specific types of behavior including queen-queen aggression. Nests can also be perennial, which is a characteristic rarely found in other bumblebees. B. pauloensis can be helpful to agricultural because of their ability to pollinate different species of plants. B. pauloensis has been found to occupy a range of geographic areas and climates throughout South America. Colonies have the ability to thermoregulate nests and keep them a little bit warmer than the outside environment. Foraging workers use muscle contractions to maintain stable temperatures and coupe with seasonal and daily fluctuations in temperature.
Bombus vancouverensis, the Vancouver Island Bumblebee, is a common species of eusocial bumblebee of the subgenus Pyrobombus. B. vancouverensis inhabits mountainous regions of western North America, where it has long been considered as a synonym of Bombus bifarius, and essentially all of the literature on bifarius refers instead to vancouverensis. B. vancouverensis has been identified as one of the two species of bumblebee observed to use pheromones in kin recognition. The other is the frigid bumblebee, Bombus frigidus.
Bombus hypocrita, also known as the short-tongued bumblebee, is a Japanese bumblebee commonly used in commercial pollination. These short-tongued bumblebees have a proboscis about 7-9mm long, which is folded under their head when flying. Bumblebees are a small fuzzy insect with yellow and black banding along their abdomen. They are round and covered in pile, the hair-like structures that give them their distinct fuzzy appearance.
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