Bembidion lampros

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Bembidion lampros
Bembidion lampros (Herbst, 1784) (4014426584).jpg
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Coleoptera
Family: Carabidae
Genus: Bembidion
Species:
B. lampros
Binomial name
Bembidion lampros
(Herbst, 1784)

Bembidion lampros is a species of ground beetle native to Europe. [1] It is a generalist predator, yet depending on what it consumes their fecundity and larval development time can change. [2]

Contents

Description

Bembidion lampros resides within the classification of the order, Coleoptera, and the family, Carabidae. This is evident as this beetle exhibits many distinguishing morphological characteristics such as having the forewings form an elytra which is leathery or hard. Additionally, this elytra meets down the middle of the abdomen in a straight line.

Habitat preference [3] [4] [5]

This beetle is known to thrive on the edge of arable fields in winter, before they move into the center of the fields in early spring to reproduce. [6] An interesting study looked at their movement between different fields of alfalfa and maize under different conditions. [3] It was found that this beetle moved from fields of maize, towards fields of alfalfa, indicating their preference for low crop density, as they prefer to reside on bare ground. [4] [5] Interestingly, in fields of maize, abundance of this beetle is positively correlated with the amount of grassy strips that exist surrounding the maize fields. [3] This is widely suggested to be the case as these grassy boundaries allow for refuge and protection from adverse effects of agricultural activities. [3]

Behaviour [5]

Overall, the Bembidion lampros is found to be rather inactive in colder temperatures when compared to warmer temperatures. [5] A study observing the behaviour of this beetle under natural and experimental conditions has found these beetles to be inactive at temperatures under 9-10 degrees celsius. [5] This is evident as they were unable to catch any in pitfall traps when temperatures dropped below this threshold. [5] An interesting finding is that in the cabbage plots this study used to observe beetles, they were found to prefer to reside on the bare ground, in between plants. [5] It is possible that because of their inactivity in cold temperatures, they seek the space in between plants such that they are not in the shade and can feel the warmth of the sun to maintain internal temperature. [5]

Morphological adaptations

Antennal sensilla [7]

An interesting adaptation in this beetle is the different types of antennal sensilla which are present on the long filiform antennae, which fulfill diverse purposes, such as olfactory or mechanoreception functions. [7] This beetle's 1.6 to 1.8 mm long antenna may be small, but it contains more than 13 types of antennal sensilla fulfilling a diverse set of functions from olfaction, to chemoreception, as well as mechanoreception. [7] It is also mentioned that the functions of quite a few of these sensilla are yet to be discovered, meaning that they may serve even more functions than currently understood. [7] Both male and female beetles have been shown to exhibit the same antennal sensilla, which help them navigate and gather information from the world around them. [7]

Wing dimorphism [8]

A study in Newfoundland conducted has discovered that this species of beetle has three different wing phenotypes. [8] Two having short wings, and one having long wings. It is suggested that at least three alleles, or two genes are responsible for the variation in wings, as breeding studies were conducted which indicates that macropterous individuals had macropterous progeny, and brachypterous individuals had progeny with small wings, and mixed parents had mixed offspring. [8] What is interesting is that while there were no flight muscles present in any of the beetles with the short winged phenotype, only 5.9% of individuals with the large wing phenotype had flight muscles. [8] It is predicted that this is due to some genetic factor, rather than flight muscle autolysis, or degeneration. However, it was found that despite the presence of large wings and some having flight muscles, macropterous individuals were not any more responsible for being the primary dispersal agent in this species than brachypterous individuals. [8]

Reproductive fecundity and survivability during development [9] [10]

Bembidion lampros reproduction is univoltine, meaning that only one generation of these beetles are born each year. [10] They prefer to reproduce in arable fields as they are able to feed on cereal aphids. [9] These beetles have low overall lifetime fecundity, as female beetles are only able to lay about 10 eggs in their life. [9] Considering their low lifetime fecundity, the survivability/mortality of developing juveniles is incredibly important for this beetles population dynamics. [9]

When it comes to juvenile survival, it was found that only 34% of beetles in their first instar survived, regardless of soil types. [9] This can be detrimental to populations of this beetle, as less than half of offspring survive the developmental phase. [9]

Overwintering and early spring survival

Overwintering survival

Diapause [11]

In order to survive the harsh winters, this beetle undergoes diapause, where they suspend metabolic activities until conditions improve. [11] Interestingly, it was found that the survival of these beetles were higher in harsh winters with constant subzero temperatures compared to temperate winters, and this is due to the fact that in temperate winters, these beetles may die before conditions get cold enough for them to enter diapause to freeze and survive. [11] In harsh winter conditions where they undergo diapause, it is found that they are able to maintain their weight, though this alone is unlikely to explain winter mortality or survivability. Rather, they found that when it comes to harsh winters, food quality may be of utmost importance to survival due to differences in fat reserves due to different diets. [11]

The impact of gender, population density, and habitat [6] [4]

When it comes to the impact that population density of this beetle has on winter survivability, it was found that higher population densities caused higher percentages of overwinter survival. [6] This is interesting because population density was found to not have any impact on beetle body condition such as weight. Rather, it seems to lead to increased survival as it increased their overall protection against predators that may be present. [6]

It was also found that the location of overwintering impacted the survival. [6] In experimental conditions, beetles who were placed into the center of a field had significantly higher survivability than beetles that were places in the grassy boundary of the field. This is interesting and contrary to expectation, as this beetle typically shows preference for field boundaries compared to field interiors. [4] It is typical for these beetles to overwinter in the grassy edges of the field, before moving into the field center in spring where their reproduction occurs. [4]

Gender also had an effect on overwintering in these beetles, but not on survival as expected. Rather, it was found that female beetles body conditions compared to males after overwintering. [6] Additionally, in a starvation experiment they conducted, they had found that female beetles were able to live on average ten days longer than the males. The reason for female beetles superior body condition following overwintering and their superior survivability against starvation has been attributed to their large size. [6] It is stated that larger individuals are more efficient in their energy usage, and this would explain why starved females were able to survive for longer in the starvation experiments. [6]

Early spring survival [12]

These beetles are able to survive incredibly long when dealing with starvation. [12] When fed consistently, they had a fat content of about 23%, and only die to starvation weeks later when their fat content drops to 7%. [12] Based off of these findings, and how beetles lose very little weight during diapause, it is concluded that these beetles do not suffer from high mortality due to food shortage in early spring. [12]

Role in pest control [13]

Bembidion lampros is incredibly beneficial when it comes to agricultural production, as they are predators to pest species. [13] To be specific, the this beetle is integral in controlling and decreasing the high aphid populations which are known to cause large amounts of damage to agricultural fields. [13] This is likely because this beetle is one of the first species to move in the spring, which allows them to be more effective in aphid pest control as opposed to late moving species of beetles. [13] When it comes to the efficacy of using these beetles for pest control, a study indicated that these beetles use hedgerows as preferred dispersal routes. [13] With this in mind, it is possible to utilize the beetles preferred path of dispersal to fully reap the benefits of this incredibly important species ability to control pests. [13]

Related Research Articles

<span class="mw-page-title-main">Diapause</span> Response delay in animal dormancy

In animal dormancy, diapause is the delay in development in response to regular and recurring periods of adverse environmental conditions. It is a physiological state with very specific initiating and inhibiting conditions. The mechanism is a means of surviving predictable, unfavorable environmental conditions, such as temperature extremes, drought, or reduced food availability. Diapause is observed in all the life stages of arthropods, especially insects.

<i>Hippodamia convergens</i> Species of beetle

Hippodamia convergens, commonly known as the convergent lady beetle, is one of the most common lady beetles in North America and is found throughout the continent. They tend to live a variety of habitats, including grasslands and forests.

<span class="mw-page-title-main">Overwintering</span> Process by which some organisms pass through or wait out the winter season

Overwintering is the process by which some organisms pass through or wait out the winter season, or pass through that period of the year when "winter" conditions make normal activity or even survival difficult or near impossible. In some cases "winter" is characterized not necessarily by cold but by dry conditions; passing through such periods could likewise be called overwintering.

<i>Culex pipiens</i> Species of fly

Culex pipiens is a species of mosquito commonly referred to as the common house mosquito or northern house mosquito. Native to Africa, Asia and Europe, it is now widely distributed in temperate regions on every continent except Antarctica and is one of the most common mosquitoes found in human habitats in temperate parts of the northern hemisphere. A major vector of some viruses, it can be abundant in cities, especially those with poor wastewater management. It is the most common mosquito to the northern regions of the US. Culex pipiens is the type species for the genus Culex.

<i>Nebria brevicollis</i> Species of beetle

Nebria brevicollis, belonging to the Carabidae family, is a ground beetle. With nearly 500 species and over 100 subspecies, N. brevicollis is the most diverse genus within the Nebriini tribe of ground beetles. Members of the genus occupy a wide range of habitats. Nebria brevicollis is native to Europe and the Near East but has been introduced to the western United States and Canada. Its rapid expansion in North America is characteristic of an invasive species. Due to the variation in habitat, their diet consists of small arthropods including Collembola, Diptera, earthworms, mites, and spiders.

<i>Chrysomela populi</i> Species of beetle

Chrysomela populi is a species of broad-shouldered leaf beetle belonging to the family Chrysomelidae, subfamily Chrysomelinae.

<i>Anchomenus dorsalis</i> Species of beetle

Anchomenus dorsalis is a species of ground beetle in the subfamily Platyninae. It is found in Europe, North Africa, the Middle East and Central Asia.

Phenacoccus manihoti is a mealybug insect species.

Bembidion nigropiceum is a small, fast-moving water beetle in the Trechinae subfamily.

<i>Diabrotica balteata</i> Species of beetle

Diabrotica balteata is a species of cucumber beetle in the family Chrysomelidae known commonly as the banded cucumber beetle. It occurs in the Americas, where its distribution extends from the United States to Colombia and Venezuela in South America. It is also present in Cuba. It is a pest of a variety of agricultural crops.

<i>Phoracantha semipunctata</i> Species of beetle

Phoracantha semipunctata, the Australian Eucalyptus longhorn, is a species of beetle in the family Cerambycidae. Native to Australia, it has now spread to many parts of the world, including practically all countries where tree species of Eucalyptus have been introduced. It has been classified as an invasive pest species of Eucalyptus outside Australia.

<i>Bruchus rufimanus</i> Species of beetle

Bruchus rufimanus, commonly known as the broadbean weevil, broadbean beetle, or broadbean seed beetle is a leaf beetle which inhabits crops and fields, as well as some homes. It is a pest of faba beans. The adult beetles feed on pollen, while their larvae tunnel in seeds destroying crops and moving on to new ones once they dry out. The adult beetle, being one of the biggest of its genus, ranges from 3 to 5 mm in length.

<i>Sitona lineatus</i> Species of beetle

Sitona lineatus, commonly known as the pea leaf weevil is a species of weevil with a Palearctic distribution. It is a common pest of beans, peas, and other plants in the family Fabaceae. Adult beetles of S. lineatus measure 3.4-5.3 mm in length. They are characterized by a series of colored scales arranged in alternating lines (striae) on the elytra; it is from this characteristic where the species gets its name lineatus meaning 'lined' or 'striped'. The head and pronotum also have fine pointed setae amongst the scales. The antennae are clubbed, pointed and preceded by 7 segments. The femora is dark, but tibiae and tarsi are red. As a member of Order Coleoptera (beetles) their forewings are modified to form hardened covers over the thorax and abdomen, with the hindwings for flight underneath.

<i>Pterostichus melanarius</i> Species of ground beetle

Pterostichus melanarius, the rain beetle, is a type of carabid of the genus Pterostichus. It is native to Europe but is increasingly found in North America after being introduced to the region in the 1920s. It is a predatory beetle that eats other invertebrates, which makes it a valuable pest control agent in agricultural settings. Additionally, the beetle has wing dimorphism which has contributed to its increasing distribution across North America.

<i>Cucujus clavipes</i> Species of beetle

Cucujus clavipes is known as the flat bark beetle. It is found throughout North America. These are generally found near tree line under bark of dead poplar and ash trees. C. clavipes are described as phloem-feeding and often predators of other small insects, such as wood-boring beetles, and mites. These are usually seen during spring-summer seasons. Having a cold habitat, these beetles must go through several physiological mechanisms to survive; they are recognised for their ability to change their overwintering mechanisms.

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<i>Calleida viridipennis</i> Species of ground beetle

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<i>Pardosa pseudoannulata</i> Species of arachnid

Pardosa pseudoannulata, a member of a group of species referred to as wolf-spiders, is a non-web-building spider belonging to the family Lycosidae. P. pseudoannulata are wandering spiders that track and ambush prey and display sexual cannibalism. They are commonly encountered in farmlands across China and other East Asian countries. Their venom has properties that helps it function as an effective insecticide, and it is, therefore, a crucial pesticide control agent.

Colaphellus bowringi is a species of leaf beetle. It was first characterized by English entomologist Joseph Sugar Baly in 1865 and is primarily found in southeastern China, as well as other areas of Asia.

<i>Orius minutus</i> Species of minute pirate bug

Orius minutus is a Palearctic species of minute pirate bug in the family Anthocoridae. Orius minutus is naturally distributed throughout Europe, western Russia, North Africa, China, Japan, and Siberia The predatory bug was accidentally introduction into North America through plant material commerce and regular dispersal; the introduction of Orius minutus is generally considered beneficial to the agricultural industry. Orius minutus is an important addition to the predator complex of many crops, and its role as a non-commercialized biological control agent highlights its unique contribution to pest management strategies.

References

  1. Carl H. Lindroth 1974 Coleoptera. Carabidae. Handbooks for the Identification of British Insects Vol 4 Part 2. Royal Entomological Society, London pdf Archived 2014-11-12 at the Wayback Machine
  2. Bilde, Trine; Axelsen, JOrgen A.; Toft, SOren (August 2000). "The value of Collembola from agricultural soils as food for a generalist predator". Journal of Applied Ecology. 37 (4): 672–683. doi:10.1046/j.1365-2664.2000.00527.x. ISSN   0021-8901.
  3. 1 2 3 4 Madeira, F., & Pons, X. 2016. Rubidium marking reveals different patterns of movement in four ground beetle species (Col., Carabidae) between adjacent alfalfa and maize. Agricultural & Forest Entomology, 18(2), 99–107.
  4. 1 2 3 4 5 Petersen, M. K. 1999. The timing of dispersal of the predatory beetles Bembidion lampros and Tachyporus hypnorum from hibernating sites into arable fields. Entomologia Experimentalis et Applicata, 90(2), 221–224.
  5. 1 2 3 4 5 6 7 8 Mitchell, B. 1963. Ecology of two carabid beetles, Bembidion lampros (Herbst) and Trechus quadristriatus (Schrank). Journal of Animal Ecology, 32(3), 377–392.
  6. 1 2 3 4 5 6 7 8 Knapp, M., & Saska, P. 2012. The effects of habitat, density, gender and duration on overwintering success in Bembidion lampros (Coleoptera: Carabidae). Journal of Applied Entomology, 136(3), 225–233.
  7. 1 2 3 4 5 Merivee, E., Ploomi, A., Rahi, M., Luik, A., & Sammelselg, V. 2000. Antennal sensilla of the ground beetle Bembidion lampros Hbst (Coleoptera, Carabidae). Acta Zoologica, 81(4), 339–350.
  8. 1 2 3 4 5 Langor, D. W., & Larson, D. J. 1983. Alary polymorphism and life history of a colonizing ground beetle, Bembidion lampros Herbst (Coleoptera: Carabidae). The Coleopterists Bulletin, 37(4), 365–377.
  9. 1 2 3 4 5 6 Petersen, M. K. 1998. Fecundity and juvenile survival of Bembidion lampros and Tachyporus hypnorum. Entomologia Experimentalis et Applicata, 87(3), 301–309.
  10. 1 2 Wallin, H. 1989. Habitat selection, reproduction and survival of 2 small carabid species on arable land – a comparison between Trechus secalis and Bembidion lampros. Holarctic Ecology, 12(3), 193–200.
  11. 1 2 3 4 Petersen, M., Ekbom, B., & Ravn, H. 1996. Temperature dependent winter survival of Bembidion lampros and Tachyporus hypnorum. Journal of Insect Physiology, 42(11–12), 997–1005.
  12. 1 2 3 4 Petersen, M. K. 1999. Capacity of Bembidion lampros and Tachyporus hypnorum to survive periods of starvation in early spring. Entomologia Experimentalis et Applicata, 90(2), 207–214.
  13. 1 2 3 4 5 6 Marchi, C., Andersen, L. W., & Loeschcke, V. 2013. Effects of land management strategies on the dispersal pattern of a beneficial arthropod. PLoS ONE, 8(6), 1–7.