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Rosas Wasserfälle 3 a Rosas waterfalls: On May 7th, the members of the IG-Mitterbergstollen - Via Salis graveled the approximately 100 meter long path to the "pink waterfalls" in the Perneck district of Bad Ischl, set up the information board and the benches and installed the signposts. An extraordinarily attractive sight has thus been opened up for Perneck and Bad Ischl. Figure 1: Rosa's Waterfalls, 2021 IGM The naming of these cascades, known as "Rosa's waterfalls", is derived from Countess Rosa v. Kolowrat, who really enjoyed visiting this vantage point. As early as 1809, Johann August Schultes, in his travels through Upper Austria, described "The two waterfalls on the lschler Salzberg" as "a very rewarding game". pink v Kolowrat Countess Maria Rosa Johanna v. Kolowrat was born on May 23, 1780 as the daughter of Count Kinsky and married Count Franz Anton von Kolowrat-Liebsteinsky in 1801. The marriage remained childless, Countess Rosa Kolowrat died on March 16, 1842. Figure 2: Rosa von Kolowrat, Internet Wikipedia Franz Anton von Kolowrat Count Franz Anton von Kolowrat-Liebsteinsky, *01/31/1778, +04/04/1861, headed the finance section as Minister of State from 1827 and from 1835, together with Prince Clemens Metternich, was a permanent member of the secret state conference, which from 1836 to 1848 governed government affairs in the led the Habsburg Empire. After Metternich's resignation in 1848 he was the first constitutional prime minister. Figure 3: Franz Anton von Kolowrat, Internet Wikipedia The Kolowrat family in the Salzkammergut In 1830 the Minister of State acquired the "Schlössl am Wolfsbühel", which was called "Schloss Kolowrat" from then on. He was made an honorary citizen of lschl in 1831. The new brewhouse built in lschl in 1834 was named "Graf Kolowrat-Sudwerk". Today's "Adalbert-Stifter-Kai" was called "Kolowrat-Kai" at that time and today's Bahnhofstraße was called "Kolowrat-Allee" in 1837. Around 1835, Count Kolowrat built a "big Swiss house" on the Hoisenradalm and in 1836 he had a lookout tower built on the "Hohen Perneck". This existed from 1836 to 1863. Since then this mountain peak has been called "Kolowratshöhe". The connecting road between Strobl and Schwarzenbach, built in 1840, was named "Rosa-Straße" in honor of Countess Rosa von Kolowrat. Figure 4: Tower on the Kolowratshöhe, Internet Wikipedia Figure 5: Schweizerhaus Hoisnrad, 1835 JV Reim Figure 6: Rosas Waterfalls, 1809 Schultes travel through Upper Austria

Salzkammergut Salzbergbau Gipsbergbau

20 The Emperor Franz Josef – Erbstollen Stud Name: "Emperor Franz Josef Erbstollen" Emperor Franz Josef I, reign 1848 – 1916 Struck: December 4, 1895 / Barbara Day – Information board at Ulm near the mouth hole Completion: 1906 Length: 2,860m Altitude: 503 m As early as 1807, it was proposed to drive under the existing Pernecker mine from the Trauntal, which is 180 m below, but this was initially omitted due to the difficulties of the long tunnel drive. A manuscript prepared by Michael Kefer on May 27, 1825 to the "Hochlobliche kk Allgemeine Hofkammer" contains a suggestion about "The last main underpass tunnel, namely from Ischl (market, Teufelsmühle, former bakery Vocktenhuber), not far from the Brunnleiten or from the Anzenauer Mühlbach .” Subsequently, four possible impact points were examined more closely. From the Teufelsmühle in Ischl: length of the Erbstollen 5,289 m, going under the Leopold Stollen by 204 m From the Rettenbach valley near Ischl: length of the Erbstollen 3,507 m, going under the Leopold Adit by 151 m From Lauffen vis a vis the train station: length of the Erbstollen 3,460 m, undercutting the Leopold Stollen by 190 m From the Brunnleiten: length of the Erbstollen 3,450 m, going under the Leopold Adit by 195 m Art objects salvage 1944/45 Proposals for the Salzberg Bad Ischl underpass tunnel, Bad Ischl Salt Mine Archive The projects were initially on hold and it was only in 1868 that this matter started to move again, when the task was to carry out the geological investigations of the Imperial Geological Institute ordered by the Imperial and Royal Ministry of Finance on all Alpine salt mountains and to examine the depth of the salt deposits with regard to their richness . At the Ischler Salzberg, the Dunajewski exploratory shaft was sunk from the Rosenfeldkehr in the Leopold tunnel to a depth of 94 m and another 250 m deep borehole was drilled from the bottom of the shaft. This showed that the Pernecker salt deposit reached at least another 344 m in depth. This proven depth of the salt storage was decisive for the final decision in 1890 to excavate a new underpass construction. From the four impact points for the Erbstollen, taking into account the hydroelectric power near the wild Lauffen, this tunnel was struck not far from the market town of Lauffen on the western slope of the Anzenberg with a projected length of 2,847.7 m. With a bottom rise of 2 per mil (2 m over 1000 m length), the same should meet the Distler shaft lowered by the Leopold tunnel, so that from its bottom to the horizon of the Leopold tunnel there is a mineable salt dome of 180 m thickness and 6 floors of 30 m height would result. From December 4, 1895, the Emperor Franz Josef Erbstollen was excavated from Lauffen. On September 22, 1906, after 2700 m in the Bilinsky bend, the breakthrough took place with the Distler shaft, which had meanwhile been sunk to a depth of 180 m. Two impact drills from Siemens and two from Halske with 4.5 hp were used to drive the tunnel. These drilling machines are operated by four workers, who usually drilled and shot the entire tunnel profile of 5.75 m² through 19 to 20 boreholes with a depth of about 1 to 1.1 m in an eight-hour shift. About 10.5 kg of dynamite was needed per shot. The average tunneling performance per shift was 0.9 to 1.0 m in length. The tunnel was driven in a rectangular shape, with a width of 2.5 m and a height of 2.3 m, the profile area was 5.75 m². After the end of the hewn shift, seven man haulers were used to bring the mountains to the surface in another eight-hour shift with 0.75 m³ iron tipping hoists. A power station was set up in Lauffen to supply electricity to the impact drills. A 23 hp Jounval turbine could set two dynamo machines in motion. The axis of the Erbstollen was designed in such a way that it would have met the Ausseer Salzberg below the Ferweger shaft in a straight line. The project to the Ausseer Salzberg was not realized, although the underground distance would have been only approx. 5000 m. Shortly after leaving the Pernecker salt dome at 3,672 m, there was a massive inrush of water from the limestone floe of the Raschberg, which could only be managed with great effort in 1919. Due to the low gradient of the tunnel, the large water masses could not drain off. The design of the tunnel portal by Bergrat Karl Balz Edler von Balzberg takes up the motif of ancient commemorative arches in terms of form and gesture. If you consider the fact that Emperor Franz Josef I himself opened the Erbstollen in the 50th year of his reign, the design intention of this monument becomes understandable. The portal of the mouth hole is made of true-to-size ashlar masonry made of Karbach marble and is over 10 m high. During World War II, in December 1944, two chambers were blasted out in the heritage tunnel, namely at tunnel meters 250 and 280. Larger-format salvage goods from the Führer collection were to be stored there, as there was no space in Aussee for larger pieces. Incidentally, the two chambers only housed art treasures temporarily and only during the worst crisis, as they proved to be too damp. At the end of 1989, the new above-ground facilities at the Kaiser Franz Josef Erbstollen were put into operation. The Kaiser Franz Josef Erbstollen runs roughly in a W – E direction. The so-called Vorhauptlager is located at the beginning of the Erbstollen between 0 and 1030 m. This is very rich in large masses of anhydrite and gypsum, which have also been mined on an experimental basis. The salt dome of the Vorhauptlager, which geologically belongs to the "Buntsandsteinhaselgebirge", is still unleached. An anticline rupture of limestone from the Totengebirgs nappe follows the pre-main camp. Only at 2782 m in the Erbstollen can you find the deposit limit of the Pernecker main deposit. The boundary to the Hasel Mountains is formed by dark grey-brown, chert-bearing Oberalmer Limestone from the Jura. Only the workers Blaschke (until 1983) and Vogl (until 2011, dissolution up to II. civil engineering) and the borehole probe BL 1/E (until 2011) were operated in the tunnel. The BL 1/E borehole probe was converted into a lintel before it was decommissioned. In February 2011, the underground brine production in the Bad Ischl mine, which was last operated in the II. Two sulfur springs were found in the Erbstollen at 2,366 m and 2,526 m. The state health resorts currently draw around 30 m³ of healing water from the sulfur spring II, which emerges in the Erbstollen at 2525 m. It is a sodium - chloride - sulphate - sulfur spring (Glauber salt spring), which is processed in a medicinal water treatment plant installed by the state spa at the Erbstollen for the spa operation. Sources used: Carl Schraml "The Upper Austrian Salt Works from 1750 to the time after the French Wars", Vienna 1934 Carl Schraml "The Upper Austrian Salt Works from 1818 to the end of the Salt Office in 1850", Vienna 1936 Ischl home club "Bad Ischl home book 2004", Bad Ischl 2004 August Aigner "About the Emperor Franz Josef Erbstollen in Ischl", communications from the Natural Science Association of Styria, Vol. 41, Graz 1904 Friedrich Idam "Kaiser Franz Josef Erbstollen", manuscript Internet Leopold Schiendorfer "Perneck - A Village Through the Ages", Linz 2006 Leopold Schiendorfer, Thomas Nussbaumer "450 years of salt mining in Bad Ischl", Bad Ischl 2013 Katharina Hammer "Shine in the Dark", Altaussee 1996 This location is not currently open for visits as it is an active mining area.

Knappenkost and Knappendrink In addition to leftover food, clothing and equipment, human faeces that are up to 3000 years old have been preserved in the Alpine salt mountains. From the wealth of finds that have been made in recent years, especially in the Hallstatt salt mine, you can get a good picture of the eating habits of the Bronze Age miners. Findings of cooking spoons and shards of large pots indicate that cooking was carried out directly on site in the pit. Large charred pieces of wood show that powerful pit fires were maintained, which not only served as a source of light and cooking fires, but also warmed the pit weather and thus increased the weather draft. What was being prepared over the great cooking fires a good 3000 years ago? The remains of barley, millet and broad beans as well as splinters of gnawed animal bones can be found in the excrement of the Hallstatt miners. The main course of the Hallstatt miners was probably a hearty stew made from pulses and rinds of inferior meat, similar to today's Ritschert. They drank water or milk from small wooden vessels. Examination of the excrement also revealed that practically all miners were infested with intestinal worms. This led to abdominal pain, colic and diarrhea. The Hallstatt miners suffered from massive joint arthrosis because of the hard work. In addition, the carbohydrate-rich diet led to severe tooth decay. So the prehistoric Hallstatt miner was a nearly toothless miner bent over from work, constantly looking for a quiet place. Truly not a nice miner's life!!! The closest information about miner's diet comes from early medieval writings. These sources provide important information about the food needed, its prices and the great difficulties in obtaining food Even in the Middle Ages, daily food was one-sided and lacking in vitamins. Before the early shift started, the miners prepared their mush from rye flour, water and salt. For lunch they ate bread and bacon without exception. In the evening you ate egg dough dishes like Schmarrn or Nocken. Table drinks were mostly water and milk. Large amounts of alcohol could generally only be drunk on non-working days, such as church festivals or public holidays. There was more than enough of that. In the Salzkammergut of the 17th century, the miners had 58 non-working holidays a year. The fact that some miners resorted to drugs because of poor nutrition and hard work seems understandable today. Alcohol was seen as a tonic and a cure for diseases. Since it was very difficult to supply the miners with free purchases on the markets, payment in kind was introduced in many mines. The trades set the exact quantity of provisions to be delivered and their price. The provisions essentially consisted of grain, lard and bacon. In around 1553, a married worker in the Carinthian gold mine was given 3 kg of flour, 1 kg each of lard and meat, and 10 loaves of bread for 14 days. If one assumes that the trades charged the miners an average of 20% higher prices, this resulted in an additional profit for the trades that should not be neglected. The trades also endeavored to give the miners as little cash as possible, as they thought they would only spend it on drink, games and women anyway. With this "free money" the miners had to buy all other food and luxury goods such as some salt, oil, vegetables, wine or schnapps from the trades at exorbitant prices. Old files report on a special feature of the Salzkammergut - salt pans: In 1815, 70,000 miners or 3,100 tons of grain were needed to supply the 2,900 Arab salt miners and their families. Most of the grain had to be obtained from Hungary by ship via the Danube and Traun, which was expensive. In order to lower the supply costs, under Maria Theresia a marriage license was introduced by the salt office for young miners. When grain prices were high, the Oberamt simply stopped issuing marriage licenses. As a result, the number of families to be cared for was quickly reduced. But the young, marriageable men left the Salzkammergut in droves because of the ban. The urge to start a family was greater than the joy of the poorly paid drudgery in the state salt mines. Grinding their teeth, the Oberamt had to withdraw the marriage bans again and again and even pay marriage money so that the young people could return to the Salzkammergut. An important step towards food supply in the Salzkammergut was the introduction of potato cultivation from 1765. The population soon got used to eating potatoes, and cultivation of them increased rapidly. In 1807 more than 50 tons of potatoes were harvested in the Salzkammergut. Around the middle of the 18th century, wage payments in Austrian mining increased as the situation on the free market improved significantly. Merchants were able to supply food at affordable prices to even the most remote Tauern valleys. With more cash now available to miners, alcohol consumption became a real problem. A letter from the Vordernberger trades from 1792 states: "Any cash income that goes beyond the most urgent need, only tempts the worker to drink, play and idleness." Even in the 19th century, miners' fare remained inadequate and one-sided. Lack of milk throughout the long winter, little meat, mostly only flour food, very rarely vegetables, but earlier and excessive alcohol consumption meant that the average life expectancy was well under 50 years. From the end of the 19th century, industrially produced alcohol became cheaper and more widespread. Beers from innumerable breweries increasingly displaced must, schnapps and wine from rural production. The food situation only improved at the end of the 19th century. With the founding of workers' consumption cooperatives, the food supply was significantly expanded and also made more affordable. Nevertheless, lard, bacon and flour remained the most important foodstuffs, along with potatoes and corn, well into the 20th century. Meat dishes, usually beef, were only served on Sundays and public holidays. Social history of nutrition in the Salzkammergut All details about the Ischler Salzberg and mining in general

067761168967 Horst Feichtinger horst.feichtinger@gmx.at button

18 The Rabenbrunn tunnel Stud Name: "Rabenbrunn - Stollen" as locality name Struck: 1692 Length: 1,116 m Altitude: 800 meters Since the old Steinberg tunnel was rich in salt, especially towards the depths, the Rabenbrunn tunnel was dug in 1692 under Emperor Leopold I in order to use it. The Rabenbrunn Stollen - main shaft was initially in gravel mountains, then a long stretch in solid limestone. The initial direction of advance was to the south-east, to undercut the old Steinberg tunnel. After 320 Stabel (381.4m) of tunneling, the direction of tunneling was to go under the New Steinberg - Tunnel pivoted to the east. After the construction of the connecting line with the same, the main shaft of the Rabenbrunn tunnel was swung back to the south-east to undercut the old Steinberg tunnel. In 1725, when the Rabenbrunn tunnel had already been extended to 913 Stabel (1088.3m), the first traces of salt were found. Initially, there was the hope of going under the rich dams built in the Old Steinberg tunnel. Therefore, several search routes were excavated, but without encountering rich salt agents. The salt was found everywhere only in such short resources that hardly a single pumping station could be built. In 1737 all hopes of finding salt mountains with the Rabenbrunn tunnel were finally abandoned. A mistake uncovered by the Starhemberg Commission in 1707 was the hasty opening of the Rabenbrunn tunnel to undercut the Old Steinberg tunnel, before a test dig from the Old Steinberg tunnel made sure that the Haselgebirge really was there. How right Starhemberg was proved later. For 20 years one had then continued to build and the Rabenbrunn - tunnel lengthened a total of 936 rods (1115.7m) without leaving the limestone; only at the beginning was the Haselgebirge, but only 21 Stabel (25.0m) in length. Because of these poor prospects and other, more important tunnel drives, further tunneling of the Rabenbrunn tunnel was stopped entirely in 1739. Only the main shaft, together with the small mountain house and the mountain forge that were built there, were still maintained. When the test drives carried out in the Old Steinberg tunnel to further uncover the salt mountains in 1751 on the Eysel bend and other places did not have any favorable success, the Old Steinberg tunnel and the Rabenbrunn tunnel were soon completely abandoned. Sources used: Carl Schraml "The Upper Austrian salt works from the beginning of the 16th to the middle of the 18th century", Vienna 1932 Carl Schraml "The Upper Austrian Salt Works from 1750 to the time after the French Wars", Vienna 1934 Johann Steiner "The traveling companion through Upper Austrian Switzerland", Linz 1820, reprint Gmunden 1981 Michael Kefer "Description of the main maps of the kk Salzberg zu Ischl", 1820, transcription by Thomas Nussbaumer, as of September 13, 2016 Anton Dicklberger "Systematic history of the salt pans of Upper Austria", Volume I, Ischl 1807, transcription by Thomas Nussbaumer, as of 06.2018

Details zur Bergsäge Details zur Bergsäge beim Maria Theresia Stollen Mit der Bergsäge beim Maria Theresia Stollen haben wir in Perneck einen noch weitgehend unbekannten, montanhistorischen Schatz ersten Ranges. Warum ist die Pernecker Bergsäge so bedeutend: Sie ist das letzte vollständig erhaltene technische Relikt des Pernecker Salzbergs. Sie wurde 1842 als erste Säge der k:k: Monarchie mit einem Riemenantrieb ausgestattet. Der damalige Bergbaubetriebsleiter Franz von Schwind schaffte mit diesem Umbau die Leistung der Säge mehr als zu verdoppeln Dieses Riemengetriebe ist auf wundersame Weise bis heute vollständig erhalten geblieben. Bei der Übersiedlung der Säge vom Steinberg zum heutigen Standort 1867 sowie bei der Elektrifizierung 1950 wurde es zum Glück nicht ausgebaut. Die historische Entwicklung der Bergsäge ist durch Akten im Salinenarchiv Leharstöckl fast lückenlos dokumentiert. Unsere Bergsäge ist die letzte aus dieser Zeit stammende, vollständig erhaltene Säge im inneren Salzkammergut. Und die Bergsäge liegt in unmittelbarer Nähe zur zentralen Viasalis-Schaustelle beim Maria Theresia-Stollen, die heuer durch einen Huntslauf erweitert wird. Geschichte, Pläne, Technik der Pernecker Bergsäge All diese Gründe haben dazu geführt, dass seit dem Jahr 2020 von der „Interessensgemeinschaft Mitterbergstollen“ (IGM) und deren Helfern intensiv an der Erhaltung der Bergsäge gearbeitet wird: Die Säge wurde entrümpelt, gesäubert und Gebäudeöffnungen verschlossen. Der Vorplatz wurde gerodet, umfangreiche Holzschlägerungen durchgeführt, die Stützmauern freigelegt und die Treppe vom Theresia-Stollen herauf saniert. Mehrere komplizierte Baumfällungen waren zum Schutz des Sägendaches nötig. Seit Jahren wird das schadhafte Dach regelmäßig mit Planen eingedeckt, die leider immer wieder von Sturmböen zerstört werden. Für diese umfangreichen und andauernden Arbeiten wurden von der IGM und deren Helfer bisher über 400 ehrenamtliche Stunden aufgewendet. Aber nur so konnte die bereits Ende der 1980er Jahre stillgelegte Bergsäge ohne größere Schäden bis zum heutigen Tag erhalten werden. Parallel zu diesen Arbeiten wurden laufend Gespräche mit zahlreichen Institutionen geführt, um die finanziellen Mittel für die dringend nötige Sanierung aufzutreiben. Jahrelang leider vergeblich, bis uns im Sommer 2024 die Geschäftsführung der Salinen Immobilen mit der Idee konfrontierte, uns die Säge zu schenken. Vereinsgründung: Da die IGM als Interessensgemeinschaft keine Rechtspersönlichkeit darstellt war schnell klar, dass ein Trägerverein gegründet werden muss. Eine der wesentlichen Stärken der IGM war und ist, dass alle Mitglieder und Helfer gleichgestellt sind. Es gibt keinen Vorstand, keinen Kassaprüfer und keine Wahlen. Alles funktioniert auf gegenseitiges Vertrauen und gegenseitiger Wertschätzung. Das dies sehr gut funktioniert, zeigen unsere vielen erfolgreich umgesetzten Projekte. Deshalb war und ist innerhalb der IGM eine gesunde Portion Skepsis gegenüber einer Vereinsgründung vorhanden. Aber was wäre die Alternative gewesen? Herr Hentschel von den Salinen Immobilien sprach im Sommer 2024 klare Worte: „Falls Ihr keinen Verein gründet, um die Säge zu übernehmen, wird sie zeitnah abgetragen und dann ist sie für Euch Geschichte.“ Nach intensiven Vorgesprächen wurde im August 2024 der Beschluss gefasst, einen Erhaltungsverein bei der Vereinsbehörde anzumelden, um gegenüber den Salinen Immobilien handlungsfähig zu bleiben. Die Übergabeverhandlungen konnten nun Ende August 2024 starteten. Diese zogen sich doch etwas in die Länge, da wesentliche Punkte wie Geh- und Fahrrechte, Erhaltung der Zufahrtsstraße sowie finanzielle Fragen zu klären waren. Am 21. November 2024 konnten Horst Feichtinger und Hans Kranabitl als Vereinsgründer nach positiven Abschluss der Verhandlungen den Schenkungsvertrag notariell unterzeichnen. Im Zuge der behördlichen Vertragsprüfung durch das Bauamt der Stadtgemeinde Bad Ischl stellte sich aber heraus, dass laut OÖ. Baurecht zu Gebäudeparzellen auch ein 3 m breiter, das Bauobjekt umgebender Grünstreifen, nötig ist. Nach Zustimmung des Salinen-Vorstandes wurde der Schenkungsvertrag um diesen 3 m breiten Grünstreifen erweitert. Der nun auch dem Erhaltungsverein gehörende Grünstreifen ermöglicht ein problemloseres Arbeiten am Gebäude. Eventuelle Nachbarschaftskonflikte wegen der das Gebäude teilweise umgebenden Wiese sind nun vom Tisch. Die nötigen Vermessungen wurden bereits durchgeführt und der Vertrag sollte laut Auskunft der Salinen Immobilien, bis spätestens April 2025 unterschriftsreif sein. Schenkungsvertrag: Was beinhaltet nun der Schenkungsvertrag: Der Erhaltungsverein bekommt die Bergsäge samt 3 m Grünstreifen als Schenkung übertragen. Mit dieser Schenkung verbunden ist die Verpflichtung zur Erhaltung des Gebäudes der Bergsäge. Falls die Bergsäge durch Brand oder Naturgewalt unwiederbringlich zerstört würde, fallen die im Zuge der Schenkung übertragenen Grundstücke wieder an Salinen Immobilien zurück. Für die Schenkung besteht ein Veräußerungsverbot. Der Erhaltungsverein bekommt das Gehrecht von der Via Salis Schaustelle beim Maria Theresia Stollen über die Knappenstiege bis zur Bergsäge. Außerdem bekommt der Verein für Erhaltungs- und Versorgungsfahrten das Fahrrecht am Zufahrtsweg von der Radgraben-Straße. Dieser Zufahrtsweg ist leider in einem sehr schlechten, sanierungsbedürftigen Zustand. Auf diese Situation weisen im Vertrag einige für uns sehr wichtige Punkte hin. Schließlich bekommt der Erhaltungsverein von den Salinen Immobilien noch eine finanzielle Starthilfe von 11.000.- €, die für die dringend nötige Dachsanierung verwendet wird. Geplante Sanierungsarbeiten: Da das Gebäude der Bergsäge dringend sanierungsbedürftig ist, sind nachfolgende Baumaßnahmen zeitnah geplant. Dachsanierung: Bereits im Dezember 2024 erfolgte die Auftragsvergabe für die Neueindeckung des gesamten Sägegebäudes an die Fa. Lukic Dach GmbH, Bad Ischl. Die Sanierungsarbeiten sollen nach Unterzeichnung des revidierten Schenkungsvertrages im Mai 2025 starten. Erneuerung der nord- und westseitigen Außenfassade: Wegen der schwierigen bachseitigen Zugänglichkeit soll das für die Dachsanierung aufgebaute Gerüst auch für die Erneuerung der Außenfassade weiter benützt werden. Die Fassadensanierung samt Austausch der schadhaften Teile des Bodenkranzes soll im Sommer 2025 erfolgen. Schaffung eines Lager- und Technikraumes unterhalb der Saumsäge: Unter der Saumsäge soll auf einem stabilen Betonfundament in Riegelbauweise ein versperrbarer Lager- bzw. Technikraum errichtet werden. Einbau von Schiebetüren: Anstatt der derzeitigen Klapptore beim Holzplatz sollen stabile, versperrbare Holz-Schiebetore eingebaut werden. Errichtung eines Schauraumes im Zubau der Säumsäge: Im Bereich der Saumsäge ist mittelfristig die Errichtung eines abgeschlossenen Schauraumes geplant. Dort sollen Exponate aus dem Bereich der Bergsäge sowie des Pernecker Salzbergbaues ausgestellt werden. Finanzielle Situation: Der Erhaltungsverein Bergsäge Maria Theresia Stollen ist ein gemeinnütziger Verein, dessen Aktivitäten aus Mitgliedsbeiträgen, Spenden und Förderungen finanziert werden müssen. Von den oben angeführten Sanierungsarbeiten kann derzeit lediglich die Dachsanierung sowie ein Teil der Außenfassade finanziert werden. Damit ist die Bausubstanz der Bergsäge mittelfristig gesichert. Die Umsetzung der weiteren, angedachten Baumaßnahmen hängt ganz wesentlich von möglichen Spenden und Förderungen, sowie von der Bereitschaft der Vereinsmitglieder sich bei Arbeitseinsätzen zu beteiligen, ab.

Pressestimmen zur Bergsäge Pressestimmen zur Bergsäge beim Maria Theresia Stollen

Elektrizitätserzeugung am Ischler Salzberg

Frauen- und Kinderarbeit im Salzberg Women and child labor in salt mining

12 The John tunnel Stud Name: "St. John of Nepomuk - Stollen" originally watering scree, named after "water saints" Struck: 1725 Leave: 1831 Length: 230 m Altitude: 991 m In 1725, the St. Johannes tunnel was struck to bring in the still unleached mountain thickness of 10 Stabel (11.9m) between the Matthias and Obernberg tunnels and to leach existing works above the level of the Matthias tunnel. Initially, this building was only intended to serve as ventilation and drainage for the princes' weir. However, when the salt was reached during the excavation of this Ebenschurf in 1730 and the cleansing pit was connected to the princes' weir by sinking, the still unnamed building was given the name St. John of Nepomuk tunnels. The St Johannes tunnel – main shaft was driven entirely in the squeezing clay rock. The tunnel timbering lasted barely 1 year. Therefore, 2 scaffolds were constantly needed to keep the tunnel open to traffic. Situation of the weirs in the St. Johannes tunnel around 1800: Length from the mouth hole to the salt boundary 219 bars (261.7 m), from there to the field site 190 bars (227.1 m). 2 hairpin bends with a total of 3 weirs, 2 of which are unusable (Fürsten - and Wimmer - Weir) and 1 usable (Zierler - Weir). Because of the rich salt mountains, the decision was made to extend the prince's weir beyond the Matthias tunnel. For this purpose, a cleaning pit, a sink works and 2 dam outlets were built from the St. Johannes tunnel. In 1733 the prince's weir could be watered again in order to be able to use the thickness of the mountain down to the St. Johannes tunnel. In 1744 the prince's weir went down because it was too close to the overlying rock and fresh water had broken in. The princes' weir now had to be dammed up and abandoned. The Kain and Tratl weir in the Matthias tunnel, which had been in operation since 1648, was also to be leached beyond the Matthias tunnel. Since the Kain and Tratl weir had already fallen into disrepair, a sinkage was sunk from the St. Johannes tunnel in 1738. In doing so, devious brine was encountered. In 1764, a second sinkage, located further towards the day, was sunk from the St. Johannes adit - main shaft against the Kain and Tratl weir. After the construction of 2 dams, the facility, now known as the Zierler weir, could be watered again and watered higher towards the St. Johannes tunnel. In 1802 there was an unexpected decline in the factory, which relocated the two drain boxes of the Zierler weir. The drain boxes could be found under the companionway and prepared. In 1807 the factory went down again. The Zierler weir, which had been emptied down to 17 rooms (1,924m³), could no longer be emptied any further. In 1 week, only ½ room (57m³) of brine drained away, then the drain dried up completely. Since the old sinkage also became completely unusable due to the decline, a new sinkage had to be sunk, and through this, the brine still in the weir had to be laboriously pumped up. The Wimmer weir was built in the eastern part of the St. Johannes tunnel to use the salt agents that remained behind the Zierler weir. However, since there was a risk when the Wimmer weir was flooded that the surface water in the Lipplesgraben tunnel could break through and the salt mountains were very poor, it was completely abandoned again in 1781. Around 1800, the weirs in the Johannes tunnel were largely exhausted. Despite the rich salt deposits that were still available in places, these could not be used further because they were too close to the surface and there was a risk of fresh water ingress. The remaining mountain forts were necessary to support the mountains and were not allowed to be weakened under any circumstances. The tunnel hut near the St. Johannes tunnel burned down completely in 1787. Situation of the weirs in the St. Johannes tunnel around 1850: A total of 3 weirs, all pronounced dead around 1850; Wimmer - weir, Zierler - weir, princes - weir. Until 1933, the drainage path led in the St. Johannes tunnel from the water intake point on the Sulzbach via the drainage pit to the main shaft and on to the Saherböck pit, over which the water flowed down into the Matthias tunnel. The rear part of the St. Johannes tunnel was finally abandoned. Sources used: Carl Schraml "The Upper Austrian salt works from the beginning of the 16th to the middle of the 18th century", Vienna 1932 Carl Schraml "The Upper Austrian Salt Works from 1750 to the time after the French Wars", Vienna 1934 Carl Schraml "The Upper Austrian Salt Works from 1818 to the end of the Salt Office in 1850", Vienna 1936 Leopold Schiendorfer "Perneck - A Village Through the Ages", Linz 2006 Johann Steiner "The traveling companion through Upper Austrian Switzerland", Linz 1820, reprint Gmunden 1981 Georg Chancellor "Ischl's chronicle", Ischl 1881, reprint Bad Ischl 1983 Michael Kefer "Description of the main maps of the kk Salzberg zu Ischl", 1820, transcription by Thomas Nussbaumer, as of September 13, 2016 Anton Dicklberger "Systematic history of the salt pans of Upper Austria", Volume I, Ischl 1807, transcription by Thomas Nussbaumer, as of 06.2018

Hoher Wasserstollen - höchster Stollen am Ischler Salzberg 11 a High water tunnel Stud Name: "High Water Gallery" Struck: 1689 Leave: 1766 Length: 40 m water tunnel (total drive 243 m) Altitude: 1,114m In 1689 the Hoher Wasserstollen was struck in order to be able to examine the part of the salt dome assumed to be above the Lipplesgraben tunnel. This was the highest tunnel ever driven on the Ischler Salzberg. The Hoher Wasserstollen was installed in the so-called "Fleck" at the foot of the Niederer Rosenkogel. However, since the same was built too high, the salt mountains, which do not reach far up the Lipplesgraben tunnel, were completely run over. It therefore did not live up to its purpose as a hope for salt and the tunnel soon fell into disrepair. High water tunnel, pit plan Michael Kefer, 1829, Upper Austrian Provincial Archive The main shaft was initially in gravel rock, then in gypsum and limestone, its total length was 204 rods (243.2 m). In 1757, 34 bars (40 m) of the main shaft were brought back into a navigable position and used to divert surface water. Since the daily water used was insignificant and did not increase even in heavy rain, the Hoher Wasserstollen was completely abandoned in 1766 and from that point on it was left to decay. High water tunnel, location in the slide area, 1927, Archiv Salinen Austria High water tunnel, landslide, around 1930, archive Salinen Austria The exact location of the Hoher Wasserstollen can no longer be precisely determined today, since extensive subsidence and landslides occurred in the entire area as a result of factory collapses from 1924 onwards. By 1927, an area of more than 9,500 m² was in motion. The attachment point of the high water tunnel was also affected. Sources used: Michael Kefer "Description and explanation of the main maps kk Salzberg zu Ischel", 1820, transcription by Thomas Nussbaumer, as of September 13, 2016