Rheintaler Ribelmais, Rheintaler Ribel or Türggenribel is a ground product that is made from a traditional type of maize grown in the Swiss Rhine Valley and Liechtenstein. Since summer 2000, Rheintaler Ribel AOP (formerly AOC) has been the only Swiss cereal product with a protected geographical indication.[1] The name Ribelmais comes from the traditional dish, Ribel, from which it is made.

Milled Rheintaler Ribelmais, so-called Ribelmehl.
Rheintaler Ribelmais - AOC package (AOP since 2013)

History

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Maize plays an important role in the Rhine valley, including three regions from different countries: in municipalities in the cantons of St. Gallen & Grisons (Switzerland), Principality of Liechtenstein and Vorarlberg (Austria). The rhine valley, which runs from south to north here, is influenced by Foehn wind and thus has a milder climate than the surrounding area, which is why maize could establish there. Maize is important in all three regions in their culture as well as in their economic history.

Rheintaler Ribelmais has a large genetic diversity, since the best cobs were used in small-scale cultivation for new crops and, through centuries of artificial selection, varieties have been chosen that are optimally adapted to local conditions. In general, Ribelmais is characterised by the fact that it grows much better in spring under cool conditions than today's silage maize, which is why it has been used in recent years in Switzerland for producing new varieties.

History and tradition in Switzerland and in the Principality of Liechtenstein

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The cultivation of maize in Rhine valley is first reported in 1571 in Altstaetten. At that time, it was thought that it came from the Balkans, which is why the name Türggen or Türggenkorn (Turkish corn) became used for maize.[2] After maize was established in the Rhine valley, it was eaten as a porridge breakfast dish “Ribel”. That's what it's called until today and where the name Rheintaler Ribelmais comes from. The cultivation of Ribelmais in Liechtenstein was first mentioned in a note from 1713, which said that maize had been first cultivated in 1680 in Liechtenstein. In 1871 60% of the arable land in Liechtenstein were cultivated with Maize. Maize and potatoes were the staple food of the people.[3]

Traditionally every family grew its own maize in the garden or on the field. After harvest, the husks of the maize cobs had to be removed in order that the cob could dry well. For this occasion, it was tradition, that the whole family would meet and did this together. After the cobs were peeled down to two or four husks, the remaining husks were tied together, so the cobs could be hung in the screed to dry for a few months. This event, which is called “Usschellete” or “Hülschete” (depending on region) was one of the most important events in the whole year.[4]

The cultivation land of Ribelmais decreased significantly from the 1960s to 1990s, until there were only about 4 ha left in the 1990s.[5] In 1998 an association of different producers, processors and farmers was founded which had the aim to promote the cultivation of Rheintaler Ribelmais again. They also want to ensure high quality of products and seed, strengthen the food value chain in the region, and preserve the tradition and the genetic diversity. Through the efforts of the association there are nowadays again 65 ha of land cultivated with Rheintaler Ribelmais. The association produces the seeds and distributes them to the farmers.[4]

To ensure the high quality of the product the Rheintaler Ribelmais were labelled as AOP (Appellation d’Origine Protégée) in 2000. This label stands for traditional products and has a defined area where it can be produced.

Growing areas

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The area where Ribelmais is grown is limited to the north-south Rhine valley above Lake Constance:

Processing

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After the harvest, which begins in mid-September, the grains are transported to the storehouses. The only operating storehouse for Rheintaler Ribelmais is the Lütolf AG in St. Margrethen (SG). After arrival, the grains are hot-air dried at about 50 °C for a day, this is the main difference to the traditional processing, where the whole cobs usually get air-dried on racks. From now on, the grains can be stored for up to two years. For further processing the grains are transferred to the “Meyerhans Mühlen AG” in Rheineck (SG) where the grains are milled into different degrees of grinding. An important aspect in the production of Ribelmais flour is, that the germ bud is milled together with the endosperm. This results in a distinct, nutty, flavor enhancement.[6][7]

Use and Products

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Rheintaler Ribelmais is used for the preparation of food. In the Rhine Valley it is used for traditional maize dish of the same name. Sometimes it is also used to make polenta. Care must be taken to allow the Ribelmais to swell longer than other varieties. It is further used in a variety of products.

Bramata flour

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This flour variety is produced by the company of “Meyerhans Mühlen AG” in Rheineck (SG) and distributed by “Lütolf Spezialitäten AG”, it differs from the original Ribelmais flour by a larger grain size.[8]

Chips

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The company “Lütolf Spezialitäten AG” produces wholegrain chips made entirely out of Ribelmais, the only other ingredients are Swiss sunflower oil and salt.[9]

Corn whiskey

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The production of whiskey containing Ribelmais started in 1999, after the production of spirits out of grains was no longer prohibited in Switzerland. The master brewer of Sonnenbräu in Rebstein (SG), Arnold Graf, decided to start the production. The resulting whiskey is marketed under the name “Ribel Swisslander Whisky”.[10]

Beer

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To celebrate the 100th anniversary of the Sonnenbräu brewing company in 1991, the company announced a new type of beer made with Ribelmais. Since 2008 the beer is distributed as a registered trademark under the name of “Ribelgold”. The Ribelgold is a light beer with an EBC of 8.5 and an average alcohol content of 5.0%. The mash consists of brewing barley and Rheintaler Ribelmais.[11]

Corn poultry

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The company of “Geflügel Gourmet AG” cooperates with local farmers in the rhine valley to produce a variety of poultry like geese, poulards and guinea fowl, which are mainly feed on Ribelmais. The resulting poultry is recognizable by its distinct yellowish skin and meat colour as well as its intense aroma.[12]

The Rheintaler Ribelmais within the Swiss maize landraces

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Importance of landraces

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Landraces were the common form for many crops before new breeding techniques were used to develop today's crop varieties, which are grown commercially all over the world. For centuries, crop landraces were the principal focus for agricultural production, where farmers have sowed, harvested and saved seed to use again for the upcoming year. This workflow has enriched the genetic pool through intra-specific diversity.[13] There is a vast heterogeneity within the landraces, which is contrary to the modern hybrid corn varieties, where every plant has the same genetic material. Due to the adaption of modern, high-yielding varieties, which have allowed the world population to grow and evolve during the Green Revolution, landraces have been abandoned and lost in some cases. This has also led to a loss in genetic diversity and genetic material for further breeding. This type of loss is also called as genetic erosion[14] and is also embedded within the UN sustainability goals.[15] In the face of Climate change, the adaption of important staple crops, such as corn, Rice and Wheat to a changing climate is as important as ever to feed a growing world population. Finding and conserving landraces all over the world is therefore important for enhancing the genetic pool to breed adapted and robust varieties.

Swiss Landraces

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Switzerland has a broad genetic diversity of maize landraces, which are also distinguishable to the genetic pools of neighbouring countries. Technically, the landraces such as the Rheintaler landrace are not separated and independent varieties but a collection or pool of maize plant populations grown in the same region. Genetic analysis from the defined Swiss core collection for maize[16] from Swiss regions with ancient maize production, such as the Ticino, the Rhine valley, Valais, posterior Rhine and the Posciavo valley have shown the geographical diversity of Swiss maize landraces. Furthermore, some region-specific allele were found, also indicating some genetic differences between the regions and thus partly a genetic separation within the Swiss landraces. This means that Swiss maize landraces cannot only be distinguished by the region, where they are grown but also, at least partly, genetically. However, there is also evidence that a strong genetic exchange through trade between the regions has happened. In the case of the “Rheintaler” landrace this exchange is likely to have happened with the adjacent region of the Linth valley but also along the southern parts of the alpine Rhine Valley. Between the northern and the southern landraces as well as the landraces from the Valais, a clearer separation of the genetic pools has been observed.[17] More recent phylogenetic analysis has even identified two northern clusters.[18] Upon these findings, three main groups of Swiss landraces can be distinguished; the northern landraces containing the Rheintaler landrace amongst others, southern landraces and landraces from Valais, which build an intermediate cluster. The genetic differentiation of the Swiss landraces are thus in good accordance with the geographic separation caused by the Swiss Alps.[18]

If the Swiss landraces are put into an international context, the southern Swiss landraces from the Ticino are most similar to the Italian-Orange-Flint pool, whereas northern landraces are closely related to the Northern American flints,[18] which is remarkable considering that corn was first brought to Europe from the American continent in the late 15th century after the exploration of America by the Europeans.[19]

The “Rheintaler” landrace

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The products of the Rheintaler Ribelmais exclusively use maize produced from the Rheintaler landrace. It belongs to the Flint corn variant, which has hard corns with lower water content and is thus suitable for grinding and milling but not for cob- or popcorn production. Many landraces in Switzerland were named after the colour of their cobs (e.g. weisser Rheintaler). In the Rhine valley, the cobs often have a light-yellowish colour, but also other colour-variants are known, whereas also a small (Kleiner Rheintaler) and big (grosser Rheitnaler) landrace type was defined. The two types differ in the count of the rows (8, 12 or 16) and the size of the corn.[20]

The colour of the cobs varies across the Swiss landraces and can even change over time due to the high diversity within the landraces and the random fertilisation of the open-flowering plants within the field.[21] The sprinkled corns on the cobs, which can also occur on the cobs of the Rheintaler landrace long were a mystery until American scientist and Nobel Prize winner Barbara McClintock discovered the mechanism of the “jumping genes” Transposons in maize, which were responsible for the sprinkled corns.

Because of its white cobs, it is assumed that the white-corn varieties, which can be found south of Venice may have been introduced to the Rhine valley and influenced the colour of the cobs by crossing with the original landraces in the Rhine valley. Through phylogenetic analysis it is today known that the Rheintaler Landrace originates from North American flint varieties, which were more suitable to the colder climate in northern and central Europe than the varieties from South America.[21]

Genetic Adaption

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Stress tolerance of landraces

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Rheintaler Ribelmais is a so-called landrace. A landrace differs in several ways from "normal" races. It is adapted genetically to a certain environment, which can include nutrient-poor soil conditions, traditional agriculture or other cultural practices. Furthermore, it has a higher genetic heterogeneity than a modern hybrid. These traits makes Rheintaler Ribelmais potentially more tolerant to stress. Genetically uniform plant species, such as hybrids have lost their natural resilience: If one plant becomes susceptible to a stress factor, as a consequence all of them will become susceptible.[22]

However, maize is a cross-pollinator. In countries with small scale agriculture, as it is the case in Switzerland, fields are comparatively small. With decreasing numbers of neighbouring plants, as it is the case on small fields, genetic diversity is reduced. This increases the risk of malformations. In recent years, Ribelmais has become more susceptible to pests, which were unproblematic in earlier days. This contradicts the common assumption mentioned before, that landraces are better adapted to local conditions. To ensure trait quality, nowadays Rheintaler Ribelmais needs to be observed and altered by breeding programmes. Modern varieties could therefore be better adapted than traditional landraces.[23]

Cold tolerance of Rheintaler Ribelmais

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Maize is a chilling-sensitive species, as it originates from the tropics.[24] To make maize cultivation possible in Europe, it is planted during late spring. To increase yield, breeding programs mainly select for early maturing maize. Another approach is to breed for increased chilling tolerance. This would make earlier sowing possible and elongate the vegetation period. Consequently, yield would increase.[25] Moreover, seedlings get more competitive against weeds.[22] However, there is no scientific evidence that Rheintaler Ribelmais is more cold tolerant compared to modern hybrids.[23]

References

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  1. ^ [dead link] Rheintaler Ribel (GUB) Schweizerische Eidgenossenschaft, Bundesamt für Landwirtschaft, Verfügung vom 7 August 2000
  2. ^ Koblet, R. (1965). Der landwirtschaftliche Pflanzenbau, unter besonderer Berücksichtigung der schweizerischen Verhältnisse. Basel: Birkhäuser Verlag.
  3. ^ Ospelt, Alois (1972). Wirtschaftsgeschichte des Fürstentums Liechtenstein im 19. Jahrhundert. Vaduz. p. 164.{{cite book}}: CS1 maint: location missing publisher (link)
  4. ^ a b "Ribelmais.ch". Rheintaler Ribelmais. Verein Rheintaler Ribelmais. Retrieved 8 November 2020.
  5. ^ Verein Rheintaler Ribelmais (2003). Das Ribel-Buch. Buchs SG: BuchsMedien AG.
  6. ^ "Kulinarisches Erbe der Schweiz Patrimoine culinaire". www.patrimoineculinaire.ch. Retrieved 2020-11-28.
  7. ^ "Rheintaler Ribelmais » Produktion". Retrieved 2020-11-28.
  8. ^ https://www.luetolf-spezialitaeten.ch/produkt gefunden am 03.10.2020
  9. ^ "Produkte". Lütolf Spezialitäten. Retrieved 2020-11-28.
  10. ^ "Ribel Swisslander – Swisslander" (in German). Retrieved 2020-11-28.
  11. ^ https://www.sonnenbraeu.ch/bier/ribelgold-maisbier/ gefunden am 07.10.2020
  12. ^ https://www.gefluegelgourmet.ch/produkte.html gefunden am 07.10.2020
  13. ^ Villa, Tania Carolina Camacho; Maxted, Nigel; Scholten, Maria; Ford-Lloyd, Brian (December 2005). "Defining and identifying crop landraces". Plant Genetic Resources. 3 (3): 373–384. doi:10.1079/PGR200591. ISSN 1479-2621. S2CID 5234510.
  14. ^ McLean-Rodríguez, Francis Denisse; Camacho-Villa, Tania Carolina; Almekinders, Conny J. M.; Pè, Mario Enrico; Dell’Acqua, Matteo; Costich, Denise E. (2019-12-01). "The abandonment of maize landraces over the last 50 years in Morelos, Mexico: a tracing study using a multi-level perspective". Agriculture and Human Values. 36 (4): 651–668. doi:10.1007/s10460-019-09932-3. ISSN 1572-8366. S2CID 159309334.
  15. ^ Martin (6 May 2019). "UN Report: Nature's Dangerous Decline 'Unprecedented'; Species Extinction Rates 'Accelerating'". United Nations Sustainable Development. Retrieved 2020-11-28.
  16. ^ Eschholz, Tobias W.; Peter, Roland; Stamp, Peter; Hund, Andreas (2008-11-01). "Genetic diversity of Swiss maize (Zea mays L. ssp. mays) assessed with individuals and bulks on agarose gels". Genetic Resources and Crop Evolution. 55 (7): 971–983. doi:10.1007/s10722-007-9304-8. hdl:20.500.11850/10051. ISSN 1573-5109. S2CID 24901265.
  17. ^ Eschholz, T. W.; Stamp, P.; Peter, R.; Leipner, J.; Hund, A. (January 2010). "Genetic structure and history of Swiss maize (Zea mays L. ssp. mays) landraces". Genetic Resources and Crop Evolution. 57 (1): 71–84. doi:10.1007/s10722-009-9452-0. hdl:20.500.11850/17325. ISSN 0925-9864. S2CID 21024061.
  18. ^ a b c Freitag, N; Schneider, D:, Mir, C; Stamp, P; Hund, A; Messmer, R (2012). "Swiss maize (Zea mays L) landraces. Their genetic diversity and distinctiveness in a global comparison". Maydica. 57: 226–235 – via https://journals-crea.4science.it/. {{cite journal}}: External link in |via= (help)CS1 maint: multiple names: authors list (link)
  19. ^ Tenaillon, Maud Irène; Charcosset, Alain (March 2011). "A European perspective on maize history". Comptes Rendus Biologies. 334 (3): 221–228. doi:10.1016/j.crvi.2010.12.015. PMID 21377617.
  20. ^ "NAP Dokumentation alpiner Kulturpflanzen. Durchsicht des Maisarchivs. Zwischenbericht. Peer Schilperoord Alvaneu Dorf - PDF Free Download". docplayer.org. Retrieved 2020-11-28.
  21. ^ a b Schilperoord, Peer (2017). "Kulturpflanzen in der Schweiz - Mais" (in German): 40 S. doi:10.22014/978-3-9524176-4-5.1. {{cite journal}}: Cite journal requires |journal= (help)
  22. ^ a b Schneider, Nathanael (2011). "Early growth and yield performance of Swiss maize landraces (Zea mays L.) in contrasting environments". Doectoral Dissertation, ETH Zurich.
  23. ^ a b Schilperoord, Peer (2014). "Le maïs". Verein für alpine Kulturpflanze.
  24. ^ Farooq, M., Aziz, T., Wahid, A., Lee, D. J., & Siddique, K. H. (2009). "Chilling tolerance in maize: agronomic and physiological approaches". Crop and Pasture Science. 60 (6): 501–516. doi:10.1071/CP08427.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  25. ^ Bhosale, S. U., Rymen, B., Beemster, G. T. S., Melchinger, A. E., & Reif, J. C. (2007). "Chilling tolerance of central European maize lines and their factorial crosses". Annals of Botany. 100 (6): 1315–1321. doi:10.1093/aob/mcm215. PMC 2759256. PMID 17881337.{{cite journal}}: CS1 maint: multiple names: authors list (link)
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Comparable products:

  NODES
Association 3
INTERN 1
Note 2