Leptidea sinapis

Last updated

Wood white butterfly
Wood white (Leptidea sinapis) P.jpg
Kampinos Forest, Poland
Senfweissling, Leptidea sinapis 1.JPG
Sennwald, Switzerland
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Lepidoptera
Family: Pieridae
Genus: Leptidea
Species:
L. sinapis
Binomial name
Leptidea sinapis

Leptidea sinapis, or the wood white butterfly of the family Pieridae, is a small white butterfly that is mainly found in England, Ireland, and Northern Europe. [1] The butterfly has white wings with grey or yellow markings near the center or tip of the wing. [2] It flies slowly and low over its shrubbery habitat. [3] Males initiate courtship with females and can mate multiply, while females tend to only mate once in their lifetime. [3] [4]

Contents

The wood white was added to the UK BAP Priority Species list in 2005 due to a substantial decline in the population, especially in England. This decline has been attributed to changes in woodland regions, including increased shade due to tree planting, and the failure to maintain woodland rides in a satisfactory way for wood whites to oviposit. Conservation efforts are currently striving to understand how to best maintain woodland regions and are examining the effect of climate change (particularly during the winter months) on egg survival. [1] [5]

Taxonomy

There are several subspecies of L. sinapis. These subspecies are all found in nearby regions, and thus geographical variation is slight. The following subspecies are recognized:

These subspecies, although they look similar, are different in the physiology of their genitals and are reproductively isolated from the wood white due to female conspecific mating choice.

Geographic Range

The wood white is found in Europe and eastwards across the Caucasus, Asia Minor, the Middle East, Middle Asia, Kazakhstan and south Siberia to the Baikal region.

Within Europe, the wood white is unevenly distributed across the Midlands and Southern England, as well as Northern Europe and Ireland. [1] Since the species is currently depleting in size throughout England, it is primarily found in woodland pockets, such as the Haugh and Wigmore Woods of Herefordshire. [6] L. sinapis is also found in Slovakia, the Czech Republic, Sweden, France, Spain and Ireland.

Habitat

The wood white is found in the midlands and southern parts of the United Kingdom, largely in the clearings among woodlands or nearby shrubbery. They can often also be found in areas where there is substantial shelter, such as abandoned railway tracks and cliffs near the sea shore, as well as meadows, forest edges and sparse forests up to 2,500 m above sea level. One of the most consistently populous regions of England in terms of L. sinapis is in Herefordshire, particularly the Haugh Wood and Wigmore Rolls woodlands. The wood white requires habitats with substantial vegetation and shrubbery in order to lay eggs and pupate, however they are very particular about the amount of shade in their habitat. Substantial habitat loss for wood whites occurs as a result of too much shrubbery or shade in their living environments. [7] They select very specific food-plants within these habitats. [6]

Parental Care

Ovipositioning

The female wood white flies near woodland areas with substantial shrubbery, and lays its eggs on tall food-plants. There are several preferred plants on which L. sinapis have been observed to lay their larva. These include Lotus pedunculatus, Lathyrus pratensis, and Lotus corniculatus. Researchers hypothesize that the height of the plant may influence the number of larva laid there—the taller the plant, the more eggs expected. [6] They tend to select these taller plants, and lay eggs on the underside of leaves in a single row. [4]

Host plant learning and selection for egg laying

Female wood whites lay the eggs on very specific food-plants (such as Lotus pedunculatus, Lathyrus pratensis, and Lotus corniculatus ) that they select through chemoreception via receptors on their feet. They fly low and slowly over the shrubbery and test several plants by landing on them and using their chemoreceptors. [4]

Wood white egg Leptidea sinapis egg.jpg
Wood white egg
Figs.3 larva after 4th moult 3a adult larva 3b pupa The larvae of the British butterflies and moths BHL41107785.jpg
Figs.3 larva after 4th moult 3a adult larva 3b pupa

Life Cycle

Egg

Eggs hatch after 10–20 days, after which the larvae remain on the food plant and feed on its leaves.

Caterpillar

The development of the larvae is temperature-dependent, with a range of 35–60 days spent developing. There are, on average, four larval instars, which all tend to stay on the food-plant during development, eating the leaves of the plant onto which they hatched. The larvae are green and well camouflaged on their food plant.

Pupa

When the larvae are ready to pupate, they wander for a variable amount of time (minimum 1 hour, maximum a few days) until they find a location to pupate. The resulting pale green or brown pupae are generally found on grass stems and on rose plants.

Adult

After pupation, this species re-hatch into full grown wood white butterflies. [3] The species is bivoltine, meaning that two generations hatch per year, during the months of late May through August.

Genetics

Speciation

Leptidea sinapis is one of three species in a cryptic species complex. The other members of the cryptic species complex are L. reali and L. juvernica . [8] Similar species are L. morsei , L. duponcheli and L. amurensis . The two other related species that have been classified (L. reali and L. juvernica) do not exhibit cross-mating. DNA and mitochondrial studies have shown that the two taxa are definitively different; although they appear the same in wing coloration and external appearance, they can be differentiated by their genitalia. A population genetic study of male L. sinapis, L. reali and L. juvernica individuals showed no evidence for gene flow after divergence. [9] L. reali is found in Italy, Spain, and France, while L. juvernica is found more in England and Ireland, and other Nordic countries. They appear to be niche separated—they utilize and inhabit different habitats. [10] Male members of the two species try and mate with females of both species with equal frequency, but the females only mate with members of their own species. Researchers are attempting to understand the reason for the niche-separation of the two subspecies. The two species tend to lay eggs on the same plants, causing researchers to hypothesize that host-plant selection is not the primary reason for niche-separation and later speciation. The choice of host plant did not affect survival rates of either species to any significant degree, but the most common host plant for both larvae was L. pratensis. [4] A newly hypothesized explanation for this habitat separation, or existence of mosaic habitats is the long courtship rituals that these butterflies have. A female would not want to be subjected to the long courtship ritual only to bear the cost of having hybridized offspring, so there is niche separation to prevent heterospecific mating. [10]

A female wood white Wood white (Leptidea sinapis) female 2.jpg
A female wood white

Migration

There is no local or regional migration of the wood white. The wood white is a bivoltine species, meaning that there are two generations of eggs that hatch in one year. The two generations of butterflies emerge and fly in May through June and secondly in July through August. Egg laying, hatching of the larvae, and pupation occur during the winter (over-wintering). Studies about how climate changes during the winter months affect pupation are being conducted to help develop conservation plans. [5]

Mating

Female-male interactions

Mate choice

There are two reproductively isolated species of wood white called L. sinapis and L. reali. These two species can mate with each other (heterospecific mating), but it is in their best interest, for the viability and fecundity of their offspring, that they mate only within their species (conspecific mating). Male members of the two species try and court or mate with females of both species with equal frequency, but the females only mate with members of their own species. This female choice has caused the two species to diverge and become reproductively isolated. There is a time and energy cost that the females bear when males of the opposite species attempt to mate with them—this cost has led to females occasionally acquiescing and mating with these males, leading to some degree of between-species hybridization. [4]

Courting

There is an elaborate courtship ritual between wood whites, initiated by the male. They begin by wagging their head from one side to another, extending their proboscis towards the female. The female, with her antennae pulled back, would be unmoving if already mated and would immediately move their abdomen towards the male if not. [3]

Two wood whites courting Balzende Senfweisslinge, Leptidea sinapis 01.JPG
Two wood whites courting

Copulation and number of mates

Females mate only once in nature, while males can mate several times. [3] This can be explained by the competing pressures that each sex faces. wood white males would need to mate with as many conspecific females as possible to maximize the number of viable offspring, while females benefit from only mating once, since the egg-laying process of choosing the best food-plant on which to oviposit is so time and energy intensive—mating multiple times would not be a good use of resources. [11]

Physiology

Flight

Adult wood whites fly slowly, and they appear to flutter. Males spend the majority of their lifetime flying low over shrubbery to find possible mates. [3]

Appearance

Wood white butterflies have white wings, sometimes with small grey or yellowish markings towards the middle or edge of the wing. [2] Males have white-tipped antennae, while females have brown-tipped antennae. [3] They have a 36-44mm wingspan.

As parasites

It had been long held that butterfly species feeding on nectar had served as pollinator vectors, but the L. sinapis demonstrates that this is not always the case. An analysis of the relationship between the Phlox-Coliasis pollination system and the L. sinapis which feeds on the nectar, displays that the pollination efficiency is around 1%, extremely low for the need to successfully pollinate the host population. Thus, rather than being considered a mutualistic relationship, the L. sinapis is considered a parasite to the flowers from which they feed. [12]

Threats

Predators

Predators of the wood white eggs are largely unknown, but lead to 90-98% of all egg deaths. [3]

Parasites

Wasps in the family Trichogrammatidae parasitize the wood white eggs and account for only a small percentage of egg death. The larvae are parasitized by Cotesia vitripennis and Cotesia anchisiades , which are two braconid wasp species. [3]

Habitat fluctuations

Rapid changes in shade (tree-cover, buildings, etc.) in the woodlands where the butterflies lay their eggs and moist or colder weather during ovipositing season contribute to the lower quantities of adult wood whites during the months of June through August. [3]

Conservation

Habitat loss

The wood white butterfly was named a UK BAP Priority Species candidate in 2005, due to the substantial drop in population size in the last quarter century. There are several habitat-related reasons behind the drop in wood white butterfly. Researchers hypothesize that this could be due to the changing treatment of woodland areas, including over-planting of trees. Many of the woodlands where wood whites colonize were replanted in the last 50 years, leading to a large increase in the amount of shade over the woodland rides and shrubbery. Very little is understood about how to upkeep woodland areas so that they are sufficient for wood white colonization; this is the main area of research on conversation presently. [1]

Conservation efforts

There have been efforts to recolonize areas of the United Kingdom as part of a 10-year plan to reintroduce more wood whites into the area. This recolonization involves maintaining woodland ride areas to minimize loss of vegetation and dispersing the butterflies strategically into woodland ride areas in Britain. Another major point of interest for the conservation effort is to examine how weather and climate change, particularly in the winter, affects pupation, since this process largely takes place over winter (called overwintering of the pupae). [5]

See also

Related Research Articles

<span class="mw-page-title-main">Green-veined white</span> Species of butterfly

The green-veined white is a butterfly of the family Pieridae.

<i>Papilio troilus</i> Species of butterfly

Papilio troilus, the spicebush swallowtail or green-clouded butterfly, is a common black swallowtail butterfly found in North America. It has two subspecies, Papilio troilus troilus and Papilio troilus ilioneus, the latter found mainly in the Florida peninsula. The spicebush swallowtail derives its name from its most common host plant, the spicebush, members of the genus Lindera.

<span class="mw-page-title-main">Small heath (butterfly)</span> Species of butterfly

The small heath is a butterfly species belonging to the family Nymphalidae, classified within the subfamily Satyrinae. It is the smallest butterfly in this subfamily. The small heath is diurnal and flies with a noticeable fluttering flight pattern near the ground. It rests with closed wings when not in flight. It is widespread in colonies throughout the grasslands of Eurasia and north-western Africa, preferring drier habitats than other Coenonympha, such as salt marshes, alpine meadows, wetlands, and grasslands near water. However, habitat loss caused by human activities has led to a decline in populations in some locations.

<i>Anthocharis cardamines</i> Species of butterfly in the family Pieridae

Anthocharis cardamines, the orange tip, is a butterfly in the family Pieridae, which contains about 1,100 species. A. cardamines is mainly found throughout Europe and temperate Asia (Palearctic) The males feature wings with a signature orange pigmentation, which is the origin of A. cardamines' common name.

<i>Gonepteryx rhamni</i> Species of butterfly

Gonepteryx rhamni, commonly named the common brimstone, is a butterfly of the family Pieridae. It lives throughout the Palearctic zone and is commonly found across Europe, Asia, and North Africa. Across much of its range, it is the only species of its genus, and is therefore simply known locally as the brimstone. Its wing span size is 60–74 mm (2.4–2.9 in). It should not be confused with the brimstone moth Opisthograptis luteolata.

<i>Polygonia c-album</i> Species of butterfly

Polygonia c-album, the comma, is a food generalist (polyphagous) butterfly species belonging to the family Nymphalidae. The angular notches on the edges of the forewings are characteristic of the genus Polygonia, which is why species in the genus are commonly referred to as anglewing butterflies. Comma butterflies can be identified by their prominent orange and dark brown/black dorsal wings.

<i>Lotus pedunculatus</i> Species of legume

Lotus pedunculatus, the big trefoil, greater bird's-foot-trefoil or marsh bird's-foot trefoil, is a member of the pea family (Fabaceae).

<span class="mw-page-title-main">Small blue</span> Species of butterfly

The small blue is a Palearctic butterfly in the family Lycaenidae. Despite its common name, it is not particularly blue. The male has some bluish suffusion at the base of its upper wings but is mostly dark brown like the female. The species can live in colonies of up to several hundred and in its caterpillar stage is cannibalistic.

<span class="mw-page-title-main">High brown fritillary</span> Species of butterfly

Fabriciana adippe, the high brown fritillary, is a large and brightly colored butterfly of the family Nymphalidae, native to Europe and across the Palearctic to Japan. It is known for being Great Britain's most threatened butterfly and is listed as a vulnerable species under the Wildlife and Countryside Act 1981. Like other fritillaries it is dependent on warm climates with violet rich flora.

<span class="mw-page-title-main">Grayling (butterfly)</span> Species of butterfly

The grayling or rock grayling is a species in the brush-footed butterfly family Nymphalidae. Although found all over Europe, the grayling mostly inhabits coastal areas, with inland populations declining significantly in recent years. The grayling lives in dry and warm habitats with easy access to the sun, which helps them with body temperature regulation.

<i>Battus philenor</i> Species of butterfly

Battus philenor, the pipevine swallowtail or blue swallowtail, is a swallowtail butterfly found in North America and Central America. This butterfly is black with iridescent-blue hindwings. They are found in many different habitats, but are most commonly found in forests. Caterpillars are often black or red, and feed on compatible plants of the genus Aristolochia. They are known for sequestering acids from the plants they feed on in order to defend themselves from predators by being poisonous when consumed. The adults feed on the nectar of a variety of flowers. Some species of Aristolochia are toxic to the larvae, typically tropical varieties. While enthusiasts have led citizen efforts to conserve pipevine swallowtails in their neighborhoods on the West coast, the butterfly has not been the subject of a formal program in conservation or protected in legislation. The butterfly is however of "Special Concern" in Michigan, which is on the Northern limit of its range.

<i>Leptidea reali</i> Species of butterfly

Leptidea reali, the Réal's wood white, is a butterfly of the family Pieridae.

<i>Leptidea</i> Butterfly genus in family Pieridae

Leptidea is a genus of butterflies of family Pieridae, the whites and yellows. They live in Europe and Asia.

<span class="mw-page-title-main">Variable checkerspot</span> Species of butterfly

The variable checkerspot or Chalcedon checkerspot is a butterfly in the family Nymphalidae. It is found in western North America, where its range stretches from Alaska in the north to Baja California in the south and extends east through the Rocky Mountains into Colorado, Montana, New Mexico and Wyoming. The butterfly is usually brown or black with extensive white and yellow checkering and some red coloration on the dorsal wing. Adult wingspan is 3.2–5.7 cm (1.3–2.2 in). Adult butterflies feed on nectar from flowers while larvae feed on a variety of plants including snowberry (Symphoricarpos), paintbrush (Castilleja), Buddleja, Diplacus aurantiacus and Scrophularia californica.

<span class="mw-page-title-main">Edith's checkerspot</span> Species of butterfly

Edith's checkerspot is a species of butterfly in the family Nymphalidae. It is a resident species of western North America and among the subspecies, entomologists have long been intrigued by their many phenotypic variations in coloration, wing length, and overall body size. Most populations are monophagous and rely on plants including Plantago erecta and Orthocarpus densiflorus as their host species in developing from eggs through to larvae, pupae, and mature butterflies. Males exhibit polygyny whereas females rarely mate more than once. Males devote most of their attention to mate acquisition, and such mate locating strategies such as hilltopping behavior have developed. Climate change and habitat destruction have impacted certain subspecies. Three subspecies in particular, Euphydryas editha quino, Euphydryas editha bayensis and Euphydryas editha taylori, are currently under protection via the Endangered Species Act.

<i>Lycaena feredayi</i> Species of butterfly

Lycaena feredayi, the glade copper, is a butterfly of the family Lycaenidae. It is endemic to New Zealand.

<i>Synemon theresa</i> Species of moth

Synemon theresa, the cryptic sun-moth, is a species of day-flying moth of the family Castniidae. It was described by Edward Doubleday in 1846. It has a wingspan of 26-40mm, and is mostly grey-brown with orange hindwings. Native to Australia, this species is extinct in Victoria, and is now only known from a relatively small area of South Australia near Adelaide. It uses Themeda triandra and Rytidopserma spp. as larval food plants. Adults can be found from November to February. They only live for a few days, as they do not have a feeding proboscis. Despite becoming extinct over much of its former range, the cryptic sun-moth is not listed as a threatened species in South Australia.

<i>Carterocephalus palaemon</i> Species of butterfly

Carterocephalus palaemon, the chequered skipper or arctic skipper, not to be confused with the large chequered skipper, is a species of woodland butterfly in the family Hesperiidae. This butterfly can live in grasslands. The upperside of the butterfly is brown with orange spots and on its underside the chequered skipper is orange with brown spots. Chequered skippers are found in Great Britain and other European regions, but seen locally in Japan and in North America. The size of the chequered skipper ranges from 19 to 32 mm with females being larger. In the 1970s, the chequered skipper went extinct in England due to the new management of the woodlands.

<i>Callophrys xami</i> Species of butterfly

Callophrys xami, commonly referred to as the xami hairstreak or green hairstreak, is a butterfly included in the subgenus Xamia and the genus Callophrys in the family Lycaenidae. It was described by Tryon Reakirt in 1867. Other common names for this species, depending on the region, include green hairstreak and elfin. C. xami is considered to be a very rare species of butterfly, and its typical range is in southern Arizona and Texas including down south to Guatemala. The juniper hairstreak and the silver-banded hairstreak butterflies are similar species, but both differ significantly from C. xami in regards to the postmedian white line running across the butterfly wings.

References

  1. 1 2 3 4 Joy, Jenny (July 2006). "Wood White (Leptidea sinapis)" (PDF). Shropshire Biodiversity Action Plan.
  2. 1 2 Lelo, Suvad (September 2002). "Variation in exogenous and endogenous (genitalia) characteristics of butterflies of the species Leptidea sinapis linnaeus, 1758 (Pieridae, Dismorphiinae) within populations from the area around Sarajevo". Natura Croatica. 11: 293–319.
  3. 1 2 3 4 5 6 7 8 9 10 Warren, M.S. and Bourne, N.A.D. (1998). "Wood White (Leptidea sinapis)". Butterfly Conservation Project.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  4. 1 2 3 4 5 Friberg, Magne; Wiklund, Christer (2009-02-01). "Host plant preference and performance of the sibling species of butterflies Leptidea sinapis and Leptidea reali: a test of the trade-off hypothesis for food specialisation". Oecologia. 159 (1): 127–137. Bibcode:2009Oecol.159..127F. doi:10.1007/s00442-008-1206-8. ISSN   0029-8549. PMID   19002503. S2CID   158128.
  5. 1 2 3 Jeffcoate, Stephen; Joy, Jenny (2011-12-01). "Evidence-based National Recovery Plan for Leptidea sinapis (wood white butterfly) in Southern Britain". Journal of Insect Conservation. 15 (6): 759–763. doi:10.1007/s10841-010-9374-3. ISSN   1366-638X. S2CID   45261112.
  6. 1 2 3 Clarke, S. A.; Green, D. G.; Joy, J.; Wollen, K.; Butler, I. (2011-04-01). "Leptidea sinapis (Wood White butterfly) egg-laying habitat and adult dispersal studies in Herefordshire". Journal of Insect Conservation. 15 (1–2): 23–35. doi:10.1007/s10841-010-9300-8. ISSN   1366-638X. S2CID   32175494.
  7. Warren, M. S. (1985-01-01). "The influence of shade on butterfly numbers in woodland rides, with special reference to the wood white Leptidea sinapis". Biological Conservation. 33 (2): 147–164. doi:10.1016/0006-3207(85)90101-6.
  8. Dincă, Vlad; Lukhtanov, Vladimir A.; Talavera, Gerard; Vila, Roger (2011). "Unexpected layers of cryptic diversity in wood white". Nature Communications. 2: 324. doi: 10.1038/NCOMMS1329 . PMID   21610727.
  9. Talla, Venkat; Johansson, Anna; Dincă, Vlad; Vila, Roger; Friberg, Magne; Wiklund, Christer; Backström, Niclas (2019). "Lack of gene flow: Narrow and dispersed differentiation islands in a triplet of Leptidea butterfly species". Molecular Ecology. 28 (16): 3756–3770. doi:10.1111/mec.15188. hdl: 10261/206810 . ISSN   1365-294X. PMID   31325366. S2CID   198132945.
  10. 1 2 M. Freiberg, O. Leimar, C. Wiklund (2013). "Heterospecific courtship, minority effects and niche separation between cryptic butterfly species". Journal of Evolutionary Biology. 26 (5): 971–979. doi:10.1111/jeb.12106. PMID   23480828. S2CID   24629945.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  11. Wiklund, C. (1977). "Courtship Behaviour in Relation to Female Monogamy in Leptidea sinapis (Lepidoptera)". Oikos. 29 (2): 275–283. doi:10.2307/3543614. JSTOR   3543614.
  12. Wiklund, Christer; Eriksson, Torsten; Lundberg, Hans (1979). "The Wood White Butterfly Leptidea sinapis and Its Nectar Plants: A Case of Mutualism or Parasitism?". Oikos. 33 (3): 358–362. doi:10.2307/3544323. JSTOR   3544323.
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.