View allAll Photos Tagged Insecta
is a small butterfly of the family Pieridae , stuck to the Jamaican blue spike
Insecta
Lepidoptera
Pieridae
Leptosia
. nina
This nymph (false) katydid or bush-cricket, ~2-3cm, looks like a giant ant (mimicry);
however, ants (Hymenoptera) neither have such - long - antennae nor such strong hind-legs (femur)!
The colouration supports the mimicry: the dark colour of antennae is interrupted by a broad white part, hence they seem to be short like the ones of ants. The same happens with the colourful neon-stripes that legs seem thin and the body seems constricted... like a real ant!
please compare (Nymph from Africa): en.wikipedia.org/wiki/File:Macroxiphus_sp_cricket.jpg
Subfamily: Phaneropterinae BURMEISTER, 1838 (false katydids)
[det. Brigitte Helfert, 2013, based on this photo]
Family: Tettigoniidae KRAUSS, 1902
(bush-crickets or katydids, Laubheuschrecken)
[det. "shadowshador", 2013, based on this photo]
Superfamily: Tettigonioidea KRAUSS, 1902
Suborder: Ensifera (crickets, katydids and bush-crickets, Langfühlerschrecken)
Order: Orthoptera (Heuschrecken & Grillen)
Infraclass: Neoptera (Neuflügler)
Subclass: Pterygota
Class: Insecta (insects, Insekten)
Subphylum: Hexapoda
Phylum: Arthropoda (Gliederfüßer)
taxonomical info: orthoptera.speciesfile.org/Common/basic/Taxa.aspx?TaxonNa...
and: www.biolib.cz/en/taxontree/id87/
Indonesia, W-Papua, vic. Manokwari: Gunung Meja (Table mountain NP), ca. 100m asl., 11.08.2010
(IMG_3684)
Insecta: Lepidoptera
Cossidae, Zeuzerinae
Polyphagozerra coffeae
(=Zeuzera coffeae)
Tai Yeung Che, Lam Tsuen Valley, Tai Po, New Territories, Hong Kong
The whistling thorn acacia protects itself with pairs of long thorns up to 3 inches long. Interspersed with these are modified thorns, called stipular spines, which are joined at the base by hollow bulbous swellings about 1 inch in diameter. These are home to four different kinds of stinging ants who pierce these swollen thorns with tiny holes. When the wind blows it turns old and abandoned spines into tiny whistling flutes, which gives the tree its name. From www.blueplanetbiomes.org/whistling_thorn.htm
Scientific classification
Kingdom:Animalia
Phylum:Arthropoda
Class:Insecta
Order:Lepidoptera
Family:Nymphalidae
Genus:Lasiommata
Species:L. megera
Binomial name
Lasiommata megera
Orange and brown, often basks on walls, stones and bare ground.
Found in northern and western Britain and southern Scotland, and on coast. Similar size and colour to Gatekeeper, but Wall is much more heavily patterned.
The Wall is aptly named after its habit of basking on walls, rocks, and stony places. The delicately patterned light brown undersides provide good camouflage against a stony or sandy surface. In hot weather, males patrol fast and low over the ground, seeking out females. In cooler weather, they will bask in sunny spots and fly up to intercept females, or to drive off other males.
The Wall is widely distributed, but rarely occurs in large numbers. Over the last decade, it has declined substantially in many inland areas of central England and Northern Ireland.
Size and Family
Family – Browns
Medium Sized
Wing Span Range (male to female) - 44-46mm
Conservation status
Listed as a Section 41 species of principal importance under the NERC Act in England
Listed as a Section 42 species of principal importance under the NERC Act in Wales
Classified as a Northern Ireland Priority Species by the NIEA
UK BAP status: Priority Species (for research only)
Butterfly Conservation priority: High
European threat status: Not threatened
Caterpillar Foodplants
Various grasses are used, including Tor-grass (Brachypodium pinnatum), False Brome (B. sylvaticum), Cock's-foot (Dactylis glomerata), bents (Agrostis spp.) Wavy Hair-grass (Deschampsia flexuosa), and Yorkshire-fog (Holcus lanatus).
Distribution
Countries – England, Scotland, Wales and Ireland
Widespread in England, Wales and Ireland, but increasingly scarce inland
Habitat
Short open grassland where turf is broken or stony. It is found on dunes and other coastal habitats but can also be found on on; disused quarries, derelict land, farm tracks, railway embankments and cuttings, gardens and field edges.
Insecta: Lepidoptera
Erebidae, Arctiinae, Lithosiini
Cyana alborosea ♀
Tai Yeung Che, Lam Tsuen Valley, Tai Po, New Territories, Hong Kong
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Odonata
Family: Calopterygidae
Genus: Calopteryx
Species: C. virgo
Binomial name
Calopteryx virgo
The male usually has much more extensive pigmentation on the wings than other Calopteryx species in its range: in the south east of its range (the Balkans and Turkey) the wings are entirely metallic blue while in other areas, there are clear areas at the base and tip of the wing. Immature insects often have much paler, browner wings. They have metallic blue-green bodies and blue-green eyes.
The female has dark brown iridescent wings, a white patch near the tip of the wings (called a pseudopterostigma) and a metallic green body with a bronze tip of the abdomen
Females lay up to 300 eggs at a time on emergent or floating plants, often on water-crowfoot. Like the banded demoiselle, they often submerge to do so. The eggs hatch after around 14 days. Again, like the banded demoiselle, the larva is stick-like with long legs and develops over a period of two years in submerged vegetation, plant debris or roots. They usually overwinter in mud or slime.
The larvae of the beautiful demoiselle develop over 10 to 12 stages, each of which takes place between a molt. The body length is variable and highly dependent on environmental conditions. The final stage (F-0-stage) larvae are 3.5 to 4.6 millimeters and weigh about 4 milligrams, slightly below the banded demoiselle. Apart from the larvae of the demoiselles are difficult to distinguish from each other, the apparent differences lie mainly in the bristles and the severity of the tracheal gills on their abdomen. Compared to other damselflies demoiselles larvae fall immediately on the other hand, due to their much shorter mean gill lamella.
The body of the larvae shows only a relatively small adjustment to the fast-flowing waters of their habitat. The body is not flattened but very slim and turning around, the legs are long and have its end with strong claws, with which it can be stated in the vegetation. Because they reside within the water body, but mainly in the quieter areas, the danger of being swept with the flow, is relatively low. If this happens, they clearly its long body and legs stretched as far as possible to get in touch with the vegetation or the substrate to come.
The distribution of the beautiful demoiselle covers all of Europe with the exception of the southwestern Iberian Peninsula, the Balearic Islands and Iceland. In the north it extends to the Arctic polar sea, and thus much further north than that of the banded demoiselle. On the North African Mediterranean coast, its southern populations in Morocco and Algeria can be found.[1] The northern boundary in Asia following the 13-°C July isotherm, it is therefore not in the areas where the average temperature in summer below 13 °C falls, otherwise they are met with in temperate and cool regions in the entire continent with the exception of deserts and the mountains of. The eastern subspecies of C. v. japonica found on the Japanese islands is under debate as to whether it is a separate species. The beautiful demoiselle is mostly found in lowland locations. Regular findings come from areas up to a maximum height of 980 m above sea level. Occasionally they may be found up to 1,200 meters in altitude, such as in the Alps.
The blue-winged demoiselle lives mainly near small to medium sized streams and creeks. They prefer a relatively low water temperature and a moderate to fast flow. The water must not be nutrient rich (eutrophic). In the northern part of their range, such as in Norway and Finland, it is also found near medium-sized rivers or even larger streams. The waters are usually in the immediate vicinity of forests.
The larvae live in the streams mentioned before and are mainly dependent on the water plants. The larvae need the stems and leaves, especially in areas with stronger currents to hold on. Hence it is extremely rare to find them in barren locations, flat expiring banks, or areas with a smooth stone floor. They also live in small natural lakes or ponds characteristic for limestones bedrock. They live in quieter areas between alluvial leaves or on exposed roots of the vegetation. They can be found on submerged plants such as waterweed (Elodea sp.), floods for water crowfoot (Ranunculus fluitans) or other plants,submerged from a few centimetres to several decimetres. Compared with the larvae of the banded demoiselle the larvae of the blue-wing demoiselle prefer quieter areas of the water, since slower flow causes a more effective absorption of oxygen under water. Only in very rare cases the larvae are present in stagnant water. The substrate of the river has only a very minor importance, because the larvae reside mainly in the vegetation. An important factor for the occurrence of blue-wing demoiselles is the oxygen in the water. The larvae is much more sensitive to oxygen deficiency than the larvae of the banded demoiselle, hence it needs a sufficient oxygen saturation of the water. Waters with high levels of sediment and sludge, which is consumed by bacterial decomposition of oxygen are, accordingly not as a habitat for the larvae. This sensitivity qualifies it in water chemistry as a bioindicator for the assessment of water quality. Thus they will be an indication of value in the saprobic assigned of 1.9, which represents a low to moderately polluted waters type (β-mesosaprob) and a water quality class from I to II does. Another key factor for the occurrence of the larvae of the blue-wing demoiselle is the temperature of the water. This species prefers unlike the banded demoiselle, mainly the cooler and shadier areas of the water. The optimal temperature is a summer average 13 to 18 °C. At temperatures above 22 °C were often injuries of larvae observed and also a reduced hatch ability of eggs. The main reason is the oxygen content under higher temperatures. Individual populations may get used to permanently higher temperatures.
The habitat that the adults occupy, corresponds to the nearby larval habitat. Unlike the adults of the banded demoiselle you meet those of the beautiful demoiselle but also in forest clearings, but very rarely on the banks of larger ponds. As resting places, the animals need trees and shrubs, often resting on high herbaceous plants such as the large nettle ( Urtica Dioica ). The breeding habitats are similar to the Larval habitat, these are cool, shady water-courses largely with a more or less strong current and near-natural vegetation and bank structure. This is mostly meadow and pasture streams in the area, they rarely pass through the forest. A distinct riparian vegetation also plays a role as a windbreak. Due to their broad wings the beautiful demoiselle can be blown away by the wind more easily than other species of dragonflies.
Males are territorial, perching in bankside plants and trees. They chase passing insects, often returning to the same perch. Males can stray well away from water, females live away from water unless egg-laying or seeking a mate.
As with the banded demoiselle is also in the blue wing-demoiselle a pronounced territorial behavior of sexually mature males. These days occupy territories that they defend against other males. The defense consists mostly in threatening gestures. For this they spread their wings and put them on display so clearly visible, there is also Drohflügen and in rare cases to air combat between rival males. Optimal areas correspond to the optimal nesting places for the females and are characterized by a normally increased flow and a suitable oviposition substrate in the potential breeding sites from. The size of the spots and their distance apart is the density of the population dependent as well as the occurrences of the water and may be between several meters and a few decimetres. Males who do not occupy spots can keep themselves in the vegetation on the shore and try to mate with fly to females or to fill vacant spots. Especially when only a few males are present, the territorial defense is very aggressive, with a higher number of competing male aggression but decreases significantly. The males sit in their areas mostly in exposed places in the vegetation, which extends over the water, sometimes on vegetation or rocks cushions amid the waters. This seat is waiting at the same time the center of the district they do their gaze primarily on the aquatic center and will show a behavior that is referred to as "wingclapping" and in which the wings beat quickly down and slowly lifted. It is believed that it is mainly used for communication, it also supports the ventilation in the thorax and accordingly probably also plays a role in thermoregulation of the animals
Insecta: Lepidoptera
Sphingidae, Macroglossinae
Theretra boisduvalii
Tai Yeung Che, Lam Tsuen Valley, Tai Po, New Territories, Hong Kong
[Calopteryx Leach 1815: 42 (IT: 3) spp]
REFERENCES
G. Okude & R. Futahashi 2021: Odonata pigmentation.
S.M. Bybee & al. 2021: Odonata phylogeny.
C.J. Van der Kooi & al. 2020: Insect color vision evolution.
D.R. Paulson 2019: Odonata natural history.
R. Khelifa & al. 2017: A century on from Biology of dragonflies.
H. Rajabi & al. 2016: Odonata basal wing complex & venation.
H. Rajabi & al. 2016: Multiple vein microjoints in Odonata wings.
H. Ren & al. 2013: Odonata dynamic performances.
R. Huai-Hui & al. 2012: Odonata wing biomechanics.
J. Van Kleef & al. 2008: Directional selectivity in insect ocelli.
Shared slab - multiple notonectid water bugs; red arrow indicates 90021; scale bar: 5 mm with 0.1 mm div.
Size approx 28mm.
Superdomain: Neomura
Domain: Eukaryota
(unranked): Opisthokonta
(unranked) Holozoa
(unranked) Filozoa
Kingdom: Animalia
Subkingdom: Eumetazoa
Clade: Bilateria
Clade: Nephrozoa
(unranked): Protostomia
Superphylum: Ecdysozoa
(unranked): Panarthropoda
(unranked): Tactopoda
Phylum: Arthropoda
Clade: Pancrustacea
Subphylum: Hexapoda
Class: Insecta
Subclass: Pterygota
Infraclass: Neoptera
Superorder: Condylognatha
Order: Hemiptera
Suborder: Heteroptera
Infraorder: Cimicomorpha
Superfamily: Reduvioidea
Family: Reduviidae
Subfamily: Reduviinae
Genus: Platymeris
Species: P. biguttatus
Size approx 2cm.
Superdomain: Neomura
Domain: Eukaryota
(unranked): Opisthokonta
(unranked) Holozoa
(unranked) Filozoa
Kingdom: Animalia
Subkingdom: Eumetazoa
Clade: Bilateria
Clade: Nephrozoa
(unranked): Protostomia
Superphylum: Ecdysozoa
(unranked): Panarthropoda
(unranked): Tactopoda
Phylum: Arthropoda
Clade: Pancrustacea
Subphylum: Hexapoda
Class: Insecta
Subclass: Pterygota
Infraclass: Neoptera
Superorder: Dictyoptera
Order: Blattaria
Superfamily: Blaberoidea
Family: Blaberidae
Subfamily: Blaberinae
Genus: Blaptica
Species: B. dubia