Early years Born in
Kirchheimbolanden,
Palatinate, Neumayer was the fifth child of notary Georg and his wife Theresia, née Kirchner. He went to the Frankenthal gymnasium as well as schools in Speyer and Kaiserlautern before he went to study
geophysics and
hydrography at the University of Munich (
LMU Munich) in
Munich,
Bavaria in 1849.
Australia (1825-1886) Neumayer was one of a number of influential German-speaking residents such as
Ludwig Becker,
Hermann Beckler,
William Blandowski,
Amalie Dietrich,
Wilhelm Haacke,
Diedrich Henne,
Gerard Krefft,
Johann Luehmann,
Johann Menge,
Carl Mücke (a.k.a. Muecke),
Ludwig Preiss,
Carl Ludwig Christian Rümker (a.k.a. Ruemker),
Moritz Richard Schomburgk,
Richard Wolfgang Semon,
Karl Theodor Staiger,
George Ulrich,
Eugene von Guérard,
Robert von Lendenfeld,
Ferdinand von Mueller, and
Carl Wilhelmi who brought their "epistemic traditions" to Australia, and not only became "deeply entangled with the Australian colonial project", but also were "intricately involved in imagining, knowing and shaping colonial Australia" (Barrett, et al., 2018, p.2). Between 1858 and 1863, he, and a team of assistants, extracted data from hundreds of ship logbooks that was then analysed to find the best route of maximum speed and safety for sailing ships travelling between Europe and Australia. To obtain the logbooks he placed advertisements in the Victorian
Government Gazette, and posted signs at the Melbourne Customs House, requesting the masters of arriving vessels to deposit their logbooks at his offices in the Flagstaff Observatory with a promise they would be returned within four days. More than 600 logs were examined and the information extracted was analysed and the conclusions published in the second half of a book published in 1864. He was also involved in continuing studies begun earlier to drop bottles with messages to reconstruct currents based on recoveries. Neumayer was elected a councillor of the
Royal Society of Victoria in 1859, a vice-president in 1860 and a life member in 1864. He was elected to honorary membership of the
Manchester Literary and Philosophical Society on 17 April 1894.
Burke and Wills Expedition William John Wills, second-in-command of the
Burke and Wills expedition succeeded
J. W. Osborne as Neumayer's assistant at the Flagstaff Observatory until the expedition departed from
Melbourne on 20 August 1860. Neumayer was a member of the
Exploration Committee of the Royal Society of Victoria which organised the Expedition. Neumayer joined the Expedition at
Swan Hill in order to conduct his magnetic observations. He remained with
Burke and
Wills as far as the
Darling River at
Bilbarka, before returning to the settled districts of Victoria.
Legacy Later, he organized the "Gazelle Expedition" (1874-1876), so named as it was conducted aboard the German
steam frigate . and was director of the
hydrographic organisation Deutsche Seewarte (1876-1903). He chaired the
International Polar Commission in 1879 together with
Karl Weyprecht, founding the first
International Polar Year 1882/83 and the
Antarctic Year 1901. In 1895, von Neumayer had established the German Commission for South Polar Exploration, which culminated in the
First German Antarctica Expedition in 1901, the so-called
Gauss expedition. In 1890 he co-authored the first
cloud atlas. Polar explorer
Roald Amundsen came to study under Neumayer in 1900. In the same year, Neumayer was designated a Commander of the
Order of Merit of the Bavarian Crown, including the right to furthermore have his surname preceded by 'Ritter von' ('Knight of'). Neumayer died in 1909 in
Neustadt an der Weinstraße. He gave his name to the German Polar Research Station in Antarctica, the now abandoned "
Neumayer Station". This year-round manned station is totally covered with ice and snow (buried 10 meters under the surface) and is situated in the Weddell-Sea area (08 15W, 70 35S). The successor was the
Neumayer Station II which was then abandoned itself. The only station in use now is the
Neumayer Station III. Research topics are permanent observations of the Earth's magnetic field, seismological registrations, infrasonic, meteorological and air chemistry investigations. == Bibliography ==