Red Apollo

The way to the Alps

A second distribution to the west took place below the 60th parallel via the forest steppes to the southern Urals . With its low mountains and passes, this did not constitute an obstacle to further expansion to the west via the western taiga to southern Scandinavia . There southern Finland, Sweden and Norway were settled. Another line spread south across the Caucasus to Turkey and then went northwest to the Rhodope Mountains in Bulgaria and west across the then dry Aegean Sea to Greece . From the Rhodopes it went north over the Balkan Mountains , the Southern Carpathians and northwest over the Carpathians . From there the expansion followed the mountains of the High Tatras , Giant Mountains , Ore Mountains , Fichtel Mountains , Franconian Alb , Swabian Alb to the west until it ended in the Black Forest . The Upper Rhine Plain was an unbridgeable obstacle and the line ended here. From the High Tatras to the southwest over the Little Carpathians and the Vienna Woods were Ostalpen reached. The northern Alps were then settled up to the Bregenz Forest . The route to the Southern Alps ran from the Rhodopes across the Western Balkans. The main Alpine ridge was an insurmountable obstacle and the two lines along the Alps only met again in the western Swiss Alps.

The Moselle, Italy and Spain

The French Alps or the Jura were the starting point for conquering other habitats in the north, west and south.

From the Jura to the north via the Burgundian Gate , the Vosges were populated, the mountains that run almost parallel to the Black Forest along the Upper Rhine Plain and were not populated from there. From here the species reached the Moselle region, in which a protected and stable population still exists today due to the rich occurrence of the forage plant sedum plant - especially in the slopes of the vineyards between the villages of Valwig and Bruttig-Fankel .

A line of propagation went over the French Alps and the adjoining Maritime Alps and Ligurian Alps over the Apennines to Calabria in southern Italy and to northern Sicily .

The settlement of Spain took place from the Jura to the west across the Massif Central . From there over the southern Cevennes to the eastern Pyrenees. In Spain, the spread was along the north coast over the Cantabrian Mountains and then south to the Castilian Scheidegebirge in central Spain. Finally, the Betic Cordilleras in the south were settled via a route that is still unknown today.

The influence of the ice ages on species development

The Red Apollo is a glacial immigrant from Asia who between 100,000 and 70,000 per cent, with the opening of the habitats after the Riss-Würm interglacial, rapidly expanded its area in a westerly direction. Phylogenetic signals can also suggest primary immigration during the Rift Age. At the glacial maxima, the new area in the west was separated from the original area in West Asia by inland freezing in Central and Northern Europe. At the same time, differentiation began in the southern populations. A second wave of area expansion began in southern Europe with the onset of Ice Age glacier maxima under fully glacial climatic and habitat conditions. The species could have been around 30,000 BC. H. penetrate into cold-arid landscapes that had resulted from the deterioration of the climate.

The Red Apollo expanded its range to southern regions during the Ice Ages. In the interglacials, this fragmented into mountain-island occurrences after its previous habitats were narrowed with the return of trees and the gradual expansion of the forest. The southernmost and most isolated populations are therefore most at risk today as small populations are prone to genetic impoverishment (bottleneck effect) and negative demographic trends. In addition, climatic changes are more pronounced in the southernmost distribution areas and the niches in which it still occurs today could completely disappear in the future.

After a similar distribution of the butterfly as today existed in the Upper Pliocene, the ice ages in the subsequent Pleistocene had wiped out the populations there through the glaciers in the Alps and the ice sheets in Northern Europe and Northern Asia. Southern Europe and the east of the distribution area were not affected by the four ice ages Elbe (Günz), Elster (Mindel), Saale (Riss) and Vistula ice ages (northern Germany), or the Würme ice age (Alpine region). There they could survive the entire period and differentiate themselves more strongly and form consolidated subspecies. The strongest glaciation took place during the Saale or Riss Ice Age, when the entire Alps were glaciated into the foreland and western Russia and the Urals. In the subsequent Würm Ice Age around 115,000 to 10,000 years ago, the valleys of the Eastern Alps were free of ice. In the following warm period, in which we still live today, ideal conditions for the spread of the species formed through forest steppes with the food plants of the caterpillars. However, this period is too short for established new subspecies to develop, so these must be in the affected Classify areas as semi-subspecies.

Hazard and protection

Postage stamp of the German Federal Post Office (1962)

Azerbaijani postage stamp (1995)

Kyrgyz postage stamp (2000)

The endangerment situation of this species is shown in some Red Lists of Endangered Species . The International Union for Conservation of Nature IUCN lists them as endangered (Vulnerable). The Red List of Germany sees it as threatened with extinction (Cat. 1), the Red List of Switzerland and also that of Austria shows the species as endangered (Cat. 3); the endangerment situation in the federal states of Austria is stated very differently and ranges from not endangered to extinct. The Apollo butterfly is critically endangered or critically endangered in many European regions.

The Red Apollo has been a nature reserve in Germany since 1936 . According to the Washington Convention on the Protection of Species , Appendix II, it is considered to be protected worldwide and is the only globally protected non-tropical butterfly species (as of 1990). In addition, this species is also listed in Appendix II of the Bern Convention , is also one of the few butterfly species in Appendix IV of the Fauna-Flora-Habitat Directive and is therefore designated as strictly protected. In Germany it is also classified as a national type of responsibility within the national strategy for biological diversity of the federal government.

In Germany, the Red Apollo is only found outside the Alps on the Moselle, the Swabian Alb and the Franconian Alb. In Baden-Württemberg , it lost all of over 60 sites around 1900 except for one in the Swabian Alb in 1988. After a decline to around a dozen moths at the end of the 1980s, the population of this occurrence has now recovered and stabilized, and a second population has even formed. It is no longer found in the Black Forest. Parnassius apollo ancile Fruhstorfer has been extinct in the Fichtel Mountains since 1909. Parnassius apollo posthumus Fruhstorfer 1925 has been extinct in the northern Franconian Forest and Saale Valley since 1905. In Bavaria it can be found in the Franconian Alb and there mainly in the Altmühltal and in the Bavarian Alps with a focus on the Berchtesgaden and Chiemgau Alps .

The Moselapollo was on the verge of extinction in the 1970s to the early 1980s due to the use of insecticides that were used in viticulture and sprayed with helicopters. The insecticides fell not only on the vineyards, but also on distant natural areas and killed the caterpillars. Land consolidation measures were also carried out during the same period , during which many of the old vineyard walls were removed with Sedum album . Unused vineyards fell into bush and the food plant disappeared through the shadows. Today it is forbidden to apply insecticides by helicopter. The habitats have been maintained since 1987 and kept free of bushes and perennials. The use of insecticides has declined sharply since the 1980s, because spraying is more targeted or, in the case of organic wine, no longer spraying at all. The populations have recovered and at airfields where only five to ten butterflies were seen in the early 1980s, 20 years later the figure was over 100. The deposits are advertised today in tourism and the approximately 7.5 kilometer long Apolloweg Valwig was set up for pedestrians in the local community of Valwig .

In Austria, Parnassius apollo cetius Fruhstorfer in particular is threatened as a subspecies in the lowlands in 1909, while the subspecies Parnassius apollo brittingeri Rebel & Rogenhofer 1893 in the mountains is significantly less endangered. The population on the Hohe Wand near Vienna is one of the populations of Parnassius apollo cetius that are still richest in individuals today . Occurrences outside the Alps, for example in Strudengau, have largely been extinct for many decades.

In France, Parnassius apollo meridionalis is extinct in the Vosges. Resettlement attempts failed here as well as in Forez and in the Massif de la Sainte-Baume . In contrast, a resettlement at the Puy de Dôme in the Massif Central was successful.

In Sweden the Red Apollo was widespread in the southern flatlands, today it can only be found on the east coast. In Finland, the decline began in the 1930s and 30 years later it had disappeared in many of the original areas. In recent years, the moth has spread again in the south-west of the country and has repopulated original areas with the islands between the island of Kemiö and the Hankoniemi peninsula . There seems to be a connection between the heavy metal contamination of the food crops and the extinction of the populations, since the caterpillars die when the food is contaminated. This has decreased in recent years and the caterpillars have better chances of survival again.

In Spain, the population of Parnassius apollo filabricus in the Sierra de los Filabres fell very sharply within 20 years, despite protection until 2005. The habitats in which the moths once flew by the thousands were either reforested with pine trees with the support of the nature conservation authorities or destroyed through intensive sheep grazing.

The main causes for the decline of the species are the destruction of the habitats by bushes or afforestation and the use of herbicides in agriculture and viticulture . Road and rail traffic also claims many victims, for example on the Moselle. Weak populations can be further weakened by natural predators such as tits and lizards, especially if additional nesting aids are offered for tits. The influence of foragers on weakened populations is not clear, but could have weakened threatened ones further. Today the danger posed by collectors is hardly relevant anymore. The species seems to be very sensitive to minor climatic changes.

swell

Individual evidence

1. ↑ ^{a b c d e} Edwin Möhn: Papilionidae XII: Parnassius apollo. Text . In: Erich Bauer and Thomas Frankenbach (eds.): Butterflies of the earth, day butterflies . tape 23 . Goecke & Evers, Keltern 2005, ISBN 3-937783-16-4 . 
2. ↑ Thomas C. Emmel: Wonderful and mysterious world of butterflies . Bertelsmann Lexikon-Verlag, Gütersloh and Berlin 1976, ISBN 3-570-00893-2 , p. 192 f . 
3. ^ Wolfgang Wagner 2005–2019 Parnassius apollo
4. ↑ ibid. Wolfgang Wagner 2005–2019
5. ^ Ibid. Wolfgang Wagner 2005–2019
6. ^ Parnassius Latreille, 1804 by Vazrick Nazari. In: Tree of Life Web Project. The University of Arizona College of Agriculture and Life Sciences and The University of Arizona Library, accessed October 8, 2007 . 
7. ↑ VALENTINA TODISCO *, PAOLO GRATTON, DONATELLA CESARONI and VALERIO SBORDONI 2010: Phylogeography of Parnassius apollo: hints on taxonomy and conservation of a vulnerable glacial butterfly invader. Biological Journal of the Linnean Society, 2010, 101, 169-183. (PDF)
8. ↑ VALENTINA TODISCO *, PAOLO GRATTON, DONATELLA CESARONI and VALERIO SBORDONI 2010: Phylogeography of Parnassius apollo: hints on taxonomy and conservation of a vulnerable glacial butterfly invader. Biological Journal of the Linnean Society, 2010, 101, 169-183. (PDF)
9. ↑ Federal Agency for Nature Conservation (Ed.): Red List of Endangered Animals in Germany . Landwirtschaftsverlag, Münster 1998, ISBN 3-89624-110-9 . 
10. ^ Federal Environment Agency Austria: Red List of Endangered Animal Species in Austria. In: Austrian Species Protection Information System OASIS. Retrieved January 1, 2010 . 
11. ↑ Species in particular responsibility of Germany on the homepage of the Federal Agency for Nature Conservation, accessed on June 3, 2016
12. ↑ Apollo butterfly. State Institute for the Environment, Measurements and Nature Conservation Baden-Württemberg, accessed on October 27, 2007 . 
13. ↑ ^{a b} Butterflies I (Knight's Butterfly (Papilionidae), Whiteflies (Pieridae), Edelfalter (Nymphalidae)) . In: Günter Ebert, Erwin Rennwald (eds.): The butterflies of Baden-Württemberg . tape 1 . Ulmer Verlag, Stuttgart 1993, ISBN 3-8001-3451-9 . 
14. ↑ Mark Schwibinger: Parnassius apollo (Apollo). In: The butterflies of Upper Bavaria. Retrieved October 22, 2007 . 
15. ↑ ^{a b} Helmut Kinkler: Insecta - magazine for entomology and nature conservation . Ed .: NABU Federal Technical Committee Entomology. No. 7 . NABU, 2001, ISSN  1431-9721 , p. 31 ( online [PDF; 3.5 MB ; accessed on October 24, 2007]). 
16. ↑ ^{a b} Naturschutzbund Österreich ( Memento of the original from September 22, 2007 in the Internet Archive ) Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice. @1@ 2Template: Webachiv / IABot / www.naturschutzbund.at
17. ↑ Research Community Lanius, Parnassius apollo project ( Memento of the original from February 1, 2014 in the Internet Archive ) Info: The archive link has been inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice. @1@ 2Template: Webachiv / IABot / www.lanius.at
18. ↑ Karl Puchberger, Thoughts on the desertification of the butterfly fauna of the Strudengau , Steyr Entomologenrunde - Contributions to the knowledge of the insect fauna of Upper Austria, 1984
19. ↑ Marko Nieminen, Pekka Nuorteva, Esa Tulisalo: The Effect of Metals on the Mortality of Parnassius Apollo Larvae (Lepidoptera: Papilionidae) . In: Journal of Insect Conservation . tape 5 , no. 1 . Springer Netherlands, March 2001, ISSN  1366-638X , p. 1-7 . 
20. ↑ Species protection. (No longer available online.) In: Butterflies and Wine, 5/2007. NABU, archived from the original on May 15, 2007 ; Retrieved October 27, 2007 . Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice. @1@ 2Template: Webachiv / IABot / www.nabu.de 
21. ^ Ministry for the Environment and Forests Rhineland-Palatinate (ed.): Apollofalter in Rhineland-Palatinate . 2003 ( PDF, 5 MB [accessed October 27, 2007]). 
22. ↑ Gerfried Deschka, Josef Wimmer: The butterfly fauna of the cross wall. , Contribution Naturk. Upper Austria, 2000, page 101 PDF

literature

• Tom Tolman, Richard Lewington: The butterflies of Europe and Northwest Africa , Franckh-Kosmos Verlags-GmbH & Co, Stuttgart 1998, ISBN 3-440-07573-7 .
• Hans-Josef Weidemann: Butterfly: observe, determine , Naturbuch-Verlag Augsburg 1995, ISBN 3-89440-115-X .

Web links

Commons : Red Apollo  album with pictures, videos and audio files

• www.lepiforum.de: Taxonomy and photos
• www.schmetterling-raupe.de
• funet.fi
• Moths and Butterflies of Europe and North Africa
• Natural history information system: Parnassius apollo brittingeri
• Parnassius apollo in the endangered Red List species the IUCN 2009. Posted by: Gimenez Dixon, 1996. Retrieved on January 1st of 2010.
• Parnassius apollo at Fauna Europaea