Bombus hypnorum

Last updated

Bombus hypnorum
Tree bumblebee (Bombus hypnorum).jpg
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Hymenoptera
Family: Apidae
Genus: Bombus
Subgenus: Pyrobombus
Species:
B. hypnorum
Binomial name
Bombus hypnorum
B. hypnorum Bombus hypnorum Zurich 2014 3.jpg
B. hypnorum
A tree bumble bee queen feeding Bombus hypnorum-a.jpg
A tree bumble bee queen feeding
Male B. hypnorum with many phoretic mites. Male Bombus hypnorum male with phoretic mites, Botevgrad, Bulgaria 02.jpg
Male B. hypnorum with many phoretic mites.

The tree bumblebee or new garden bumblebee (Bombus hypnorum) 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. [1]

Contents

Description

Bombus hypnorum has a short proboscis and a rounded head. The thorax is usually of a uniformly ginger color (but examples with a darker, or even black thorax occur), the abdomen is covered in black hair, and the tail is always white. In workers, the first tergite (abdominal segment) is black-haired, but a proportion of males may have ginger hairs intermixed with the black hair, both on the face and on the first abdominal tergum. On the European continent, individuals with extended yellow coloration exist. [2] Workers are often (but not always) small, while drones are much bigger in comparison. The queens vary in size. [3]

Taxonomy and phylogeny

Bombus hypnorum is part of the genus Bombus . Its closest genetic relatives are B. jonellus and B. sichelli . [4]

Distribution

B. hypnorum is a common bumblebee species in continental Europe and northern Asia, from northern France to Kamchatka in the east, and from the Pyrenees to the mountains in northern Europe. In the Balkans it is found in northwestern Greece. [1] [5] It is not found, though, in the Mediterranean, or the steppes of eastern Europe, only in the mountains of the Iberian Peninsula and not south of Tuscany in Italy. [6] The bumblebee was first observed in United Kingdom on 17 July 2001 close to the village of Landford in Wiltshire and has since been spreading widely. [2] In August 2008, B. hypnorum was found in Iceland, and new queens have been found each year since. It is likely that it will continue to stay in Iceland and prosper in close living with humans near dense settlements, such as Reykjavík, but will most probably not venture into the more rural and colder parts of Iceland. [7] [8] In the U.K., it has now spread from England up to the north of Scotland [9] and Wales. It reached Ireland in 2017. [10]

Habitat

This bumblebee often lives near human settlements. It prefers to build its nest above ground and often inhabits bird boxes. [11] B. hypnorum likes to live in forests, but in places where there are not as many trees, it favours human dwellings. It likes to live in holes and walls in the trees unlike other members of the Bombus species. B. hypnorum does not stay in areas where there is a high amount of rapeseed cover.

Nest

The nest is quite large, with 150 workers or more (according to some authorities up to 400). This species stores pollen in separate cells, and feeds each larva individually. It visits an enormous range of flowering plants such as Rhododendron , cherry, grape hyacinth and, in the north, blueberry and Vaccinium . [2] It is also an important visitor to raspberry ( Rubus idaeus ) and bramble ( Rubus fruticosus agg.).

Nest usurpation

There have been dead queens around colonies that are established, so this may have been a result of one queen usurping another colony and keeping some of the workers of the original colony. [12]

Colony cycle

The tree bumblebee has a short breeding cycle. Nests are begun by single queens in March. These queens produce a brood of workers, then queens and males. The first cycle is completed from mid-May to early July (depending on the season). A smaller second generation is produced in late summer in favorable years. Larger colonies have heavier queens. [13]

Colony life

Development of larvae into a queen or a worker is determined by the amount of food that was given to them. Workers have a shorter development time than the queens. The queens have a higher amount of juvenile hormone than the workers as larvae. [14]

Caste system

Compared to Bombus terrestris, B. hypnorum has a weaker caste system in addition to a smaller overall colony. An important determinant in caste hierarchy is how much food the larva receive during its development. When they are older, they are seen to organize themselves by using the information they obtain from cues in odor pattern and arrange themselves into groups this way. [15]

Worker groups

There are three worker groups in the colony. They are dominant workers, subordinate workers, and foragers. Dominant workers were aggressive towards other workers by attacking and sometimes even biting others. They can show this dominance without fighting by giving off a certain odor that is similar to the queen's. [15]

Breeding

Queens in this species can be polyandrous. Multiple mating is not common in bumblebees. In this species it is related to short matings, possibly with little sperm transferred. Because of multiple mating, sisters in a colony may have different fathers. [12]

Behaviour

Mating behaviour

There are two parts to mating: approach and copulation. First there is the approach part where the male checks out the female. The male would approach a queen and then hover in the air for a few seconds using his antennae to inspect the female. If this male is the same species, then he will land and continue inspection using his antennae. The male mounts her by using his front legs on her abdomen and then mounts from the rear. Then he attempts to copulate with her. Females have a mandibular gland that releases a pheromone that the males react to so that they will know of their receptiveness. Males use their legs to tap on the abdomen of the female for a few seconds in ten second intervals. Males of B. hypnorum copulate for about 20-40 min. [16]

Mating frequency and duration

Females in this species are unlike other species where they usually only mate once. B. hypnorum can mate 2-3 times in their lifetime; however, this is not always the case. [17] It has been observed that a female can mate up to 6 times. When looking at the second mating, it does not seem to be shorter or longer than the first mating, but they are usually shorter than the females that have mated only once in their lifetime. This can be due to the fact that the mating plugs disappear relatively quickly, in 6–12 hours. [18] However observed matings may not be the same as actual sperm transfer, though from this also, it is clear that multiple mating occurs in this species.

Conflict

Bombus hypnorum Bombus hypnorum (2010-06-02) 04.jpg
Bombus hypnorum

Queen–worker conflict

Social bees are of the order Hymenoptera. The female workers are more genetically related to each other than to their brothers because males are haploid, giving an identical set of chromosomes to their daughters. [12]

Worker–worker conflict

There seems to be a hierarchy around the egg-laying workers in the nest. While the queen was alive, this bee would eat any other workers that were laying eggs in the nest. If this worker dies, the next in the hierarchy would start up this act as well and at the same time defend her own eggs. [19]

Genetic relatedness within colonies

The relatedness from sister to sister is 75% and from sister to brother is 25%. This is because females are diploid and males are unfertilized haploid. The Queen has equal genetic relatedness to both her sons and daughters so she wants to lay an equal ratio of children. Since B. hypnorum also can mate with more than one male, then the colony has groups of related females. [19] In these colonies, the queen has sex ratio control so the offspring are equally male and female. [13]

Interactions

Bombus norvegicus Bombus norvegicus.jpg
Bombus norvegicus

They maintain a symbiotic relationship with phoretic mites, which they transport, and which probably feed on mushrooms or nest parasites.

Social parasite

B. norvegicus is a social parasite that affects B. hypnorum. B. norvegicus can produce a repellant to combat invading workers. This is very strong on B. hypnorum workers that have not had food yet. The biggest component of this repellant, dodecyl acetate, together with other compounds, repels B. hypnorum which makes B. hypnorum take longer to get to food and slower to get there. This makes it harder for B. hypnorum to commit nest usurpation in their nests. [20]

Diet

B. hypnorum has the biggest preference for the flowering trees Crateagus monogyna and Prunus spinosa compared to other types of bumble bees. Also compared to other bees, B. hypnorum has less of a preference for Brassica naptus, Glechoma hederacea and Lamium album . [1]

Olfactory senses

Workers and males have similar responses to chemical stimuli; however, the males are just slightly more responsive. Queens have the highest response overall. [21]

Humans

The tree bumblebee is generally quite docile, but if disturbed, it can defend its nest proactively and it has been known to sting people whom it perceives as a threat.

Related Research Articles

<span class="mw-page-title-main">Bumblebee</span> Genus of insect

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.

<i>Bombus terrestris</i> Species of bee

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 monandrous which means she mates with only one male. B. terrestris workers learn flower colours and forage efficiently.

<i>Bombus ternarius</i> Species of insect

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.

<span class="mw-page-title-main">Early bumblebee</span> Species of bee

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.

<i>Bombus lapidarius</i> Species of bee

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.

<i>Bombus citrinus</i> Species of bee

Bombus citrinus is a species of bumblebee known commonly as the lemon cuckoo bumblebee due to its lemon-yellow color. It is native to eastern North America.

<i>Bombus sylvestris</i> Species of bee

Bombus sylvestris, known as the forest cuckoo bumblebee or four-coloured cuckoo bee, is a species of cuckoo bumblebee, found in most of Europe and Russia. Its main hosts are Bombus pratorum, Bombus jonellus, and Bombus monticola. As a cuckoo bumblebee, Bombus sylvestris lays its eggs in another bumblebee's nest. This type of bee leaves their young to the workers of another nest for rearing, allowing cuckoo bumblebees to invest minimal energy and resources in their young while still keeping the survival of their young intact.

<i>Bombus bohemicus</i> Species of bee

Bombus bohemicus, also known as the gypsy's cuckoo bumblebee, is a species of socially parasitic cuckoo bumblebee found in most of Europe with the exception of the southern Iberian Peninsula and Iceland. B. bohemicus practices inquilinism, or brood parasitism, of other bumblebee species. B. bohemicus is a generalist parasite, successfully invading several species from genus Bombus. The invading queen mimics the host nest's chemical signals, allowing her to assume a reproductively dominant role as well as manipulation of host worker fertility and behavior.

<i>Bombus hortorum</i> Species of bee

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.

<i>Bombus pensylvanicus</i> Species of bee

Bombus pensylvanicus, the American bumblebee, is a threatened species of bumblebee native to North America. It occurs in eastern Canada, throughout much of the Eastern United States, and much of Mexico.

Two-spotted bumble bee Species of bee

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.

<i>Bombus vosnesenskii</i> Species of bee

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.

<i>Bombus occidentalis</i> Species of bee

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.

<i>Parasitellus</i> Genus of mites

Parasitellus is a genus of mites in the family Parasitidae which are obligatory parasites of bumblebees. These mites can be found clinging to the carapace, sometimes in large numbers. Mites in this genus hibernate in the deutonymphal stage. In the tritonymph stage they can actively transfer from bumblebee to bumblebee from flowers, where they can survive up to 24 hours. After they arrive in a bumblebee nest, they will moult into adults. Whilst it is not known what factors trigger the mite to molt, in laboratory conditions P. fucorum were found to moult after eating fresh pollen, although overall moulting success was low. They are kleptoparasitic or neutral to beneficial, depending on life stage; females and deutonymphs feed on provisioned pollen, while other stages are predators of small arthropods.

<i>Bombus impatiens</i> Species of insect

Bombus impatiens, the common eastern bumble bee, is the most commonly encountered bumblebee across much of eastern North America. They can be found in the Eastern temperate forest region of the eastern United States, southern Canada, and the eastern Great Plains. Because of their great adaptability, they can live in country, suburbs, and even urban cities. This adaptability makes them a great pollinator species, leading to an increase in their commercial use by the greenhouse industry. This increase consequently led to their farther spread outside their previous distribution range. They are considered one of the most important species of pollinator bees in North America.

Nosema bombi is a microsporidian, a small, unicellular parasite recently reclassified as a fungus that mainly affects bumble bees. It was reclassified as Vairimorpha bombi in 2020. The parasite infects numerous Bombus spp. at variable rates, and has been found to have a range of deleterious effects on its hosts.

<i>Bombus muscorum</i> Species of bee

Bombus muscorum, commonly known as the large carder bee or moss carder bee, is a species of bumblebee in the family Apidae. The species is found throughout Eurasia in fragmented populations, but is most commonly found in the British Isles. B. muscorum is a eusocial insect. The queen is monandrous, mating with only one male after leaving a mature nest to found its own. Males mate territorially and the species is susceptible to inbreeding and bottlenecks. The species builds its nests on or just under the ground in open grassland and forages very close to the nest. In recent years, populations have significantly declined due to loss of natural habitat. B. muscorum is currently listed as vulnerable in Europe by the European Red List of Bees.

<i>Bombus terricola</i> Species of bee

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.

<i>Bombus pauloensis</i> Species of bee

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.

<i>Bombus vancouverensis</i> Species of bee

Bombus vancouverensis 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.

References

  1. 1 2 3 Crowther, Liam P.; Hein, Pierre-Louis; Bourke, Andrew F. G. (September 2014). "Habitat and Forage Associations of a Naturally Colonising Insect Pollinator, the Tree Bumblebee Bombus hypnorum". PLOS ONE. 9 (9): e107568. Bibcode:2014PLoSO...9j7568C. doi: 10.1371/journal.pone.0107568 . PMC   4178030 . PMID   25259579.
  2. 1 2 3 Benton, Ted (2006). "Chapter 9: The British Species". Bumblebees. London, UK: HarperCollins Publishers. pp. 348–350. ISBN   978-0007174515.
  3. Hill, Clive. "Introducing the tree bumblebee" (PDF). Bumblebee Conservation (pdf). Archived from the original (PDF) on 2013-06-27. Retrieved 2013-06-21.
  4. Koulianos, Stella; Schmid-Hempel, Paul (March 2000). "Phylogenetic Relationships among Bumble Bees (Bombus, Latreille) Inferred from Mitochondrial Cytochrome b and Cytochrome Oxidase I Sequences". Molecular Phylogenetics and Evolution. 14 (3): 335–341. doi:10.1006/mpev.1999.0621. PMID   10712839.
  5. Anagnostopoulos, Ioannis Th. (2009). "New records of bumble bees from the Northwestern mountainous region of Greece (Hymenoptera, Apidae)" (PDF). Entomofauna. 30: 445–449.
  6. Pierre Rasmont. "Bombus (Pyrobombus) hypnorum (L., 1758)". Université de Mons. Archived from the original on 25 March 2016. Retrieved 12 January 2013.
  7. Icelandic Ministry for the Environment News of arrival
  8. Icelandic Ministry for the Environment Archived 2013-07-31 at the Wayback Machine Article on Bombus hypnorum
  9. "The Highland Biological Recording Group".
  10. "Track expansion in two bumblebees » All-Ireland Pollinator Plan". All-Ireland Pollinator Plan. Retrieved 22 November 2022.
  11. "Common bumblebees:Tree bumblebee Bombus hypnorum". Bumblebee Conservation Trust. BCT. Archived from the original on 4 July 2013. Retrieved 30 June 2013.
  12. 1 2 3 Paxton, R. J.; Thorén, P. A.; Estoup, A.; Tengö, J. (2001). "Queen–worker conflict over male production and the sex ratio in a facultatively polyandrous bumblebee, Bombus hypnorum: the consequences of nest usurpation". Molecular Ecology. 10 (10): 2489–2498. doi:10.1046/j.0962-1083.2001.01377.x. PMID   11742549. S2CID   89447898.
  13. 1 2 Brown, M. J. F.; Schmid-Hempel, R.; Schmid-Hempel, P. (2003). "Queen-controlled sex ratios and worker reproduction in the bumble bee Bombus hypnorum, as revealed by microsatellites" (PDF). Molecular Ecology. 12 (6): 1599–1605. doi:10.1046/j.1365-294x.2003.01840.x. hdl: 2262/24919 . PMID   12755887. S2CID   12514187.
  14. Strambi, Alain; Strambi, Colette; Röseler, Peter-Frank; Röseler, Ingenorg (1984). "Simultaneous determination of juvenile hormone and ecdysteroid titers in the hemolymph of bumblebee prepupae (Bombus hypnorum and B. terrestris)". General and Comparative Endocrinology. 55 (1): 83–88. doi:10.1016/0016-6480(84)90131-x. PMID   6745633.
  15. 1 2 Ayasse, M.; Marlovits, T.; Tengö, J.; Taghizadeh, T.; Francke, W. (1995-01-01). "Are there pheromonal dominance signals in the bumblebee Bombus hypnorum L. (Hymenoptera, Apidae)?". Apidologie. 26 (3): 163–180. doi: 10.1051/apido:19950301 .
  16. van Honk, C. G. J.; Velthius, H. H. W.; Röseler, P. F. (July 1978). "A sex pheromone from the mandibular glands in bumblebee queens". Cellular and Molecular Life Sciences. 34 (7): 838–839. doi:10.1007/bf01939651. S2CID   39943444.
  17. Schmid-Hempel, R.; Schmid-Hempel, P. (2000). "Female mating frequencies in Bombus spp. from Central Europe". Insectes Soc. 47: 36–41. doi:10.1007/s000400050006. S2CID   40487899.
  18. Brown, M.J.F.; Baer, B.; Schmid-Hempel, R.; Schmid-Hempel, P. (2002). "Dynamics of multiple-mating in the bumble bee Bombus hypnorum". Insectes Soc. 49 (4): 315–319. doi:10.1007/pl00012654. S2CID   34914439.
  19. 1 2 Paxton, R. J.; THORÉN, P. A.; ESTOUP§, A.; TENGÖ*, J. (2001). "Queen–worker conflict over male production and the sex ratio in a facultatively polyandrous bumblebee, Bombus hypnorum: the consequences of nest usurpation". Molecular Ecology. 10 (10): 2489–2498. doi:10.1046/j.0962-1083.2001.01377.x. PMID   11742549. S2CID   89447898.
  20. Zimma, B. O.; Ayasse, M.; Tengö, J.; Ibarra, F.; Schulz, C.; Francke, W. (October 2003). "Do social parasitic bumblebees use chemical weapons? (Hymenoptera, Apidae)". J Comp Physiol A. 189 (10): 769–775. doi:10.1007/s00359-003-0451-x. PMID   12955437. S2CID   24441556.
  21. Fonta, Caroline; Masson, Claudine (1984). "Comparative study by electrophysiology of olfactory responses in bumblebees (Bombus hypnorum and Bombus terrestris)". Journal of Chemical Ecology. 10 (8): 1157–1168. doi:10.1007/bf00988546. PMID   24318903. S2CID   30323213.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.