John Scott Haldane Prize Lecture Series
On Thursday 21 November 2019, Professor David Paterson hosted the inaugural John Scott Haldane Prize Lecture, entitled "A hundred years on: 21st Century Insights into Human Oxygen Homeostasis". The lecture was given by Sir Peter J Ratcliffe FRS, Professor of Medicine, Director for the Nuffield Department of Medicine's Target Discovery Institute and Director of Clinical Research at the Francis Crick Institute, and 2019 Nobel Laureate in Physiology or Medicine.
A video interview was recorded with Prof Ratcliffe before the lecture. See "Nobel Laureate Sir Peter Ratcliffe FRS delivers inaugural Haldane Lecture" for more information.
The 2022 Haldane Lecture entitled "Mapping the Human Body One Cell at a Time" was delivered on Wednesday 23 February 2022 by Dr Sarah Teichmann FMedSci FRS, Head of Cellular Genetics at the Wellcome Sanger Institute, Director of Research at the Cavendish Laboratory, University of Cambridge, and co-founder and principal leader of the Human Cell Atlas (HCA) international consortium. The lecture was followed by the unveiling of celebrated artist Philip de László's portrait of Haldane by Dr Teichmann and Haldane's great-grandson Terence Mitchison. See "Sarah Teichmann FRS delivers J.S. Haldane Prize Lecture 2022 before unveiling of celebrated Haldane portrait" for more information.
John Scott Haldane was born in Edinburgh on May 3 1860 to Robert Haldane, Writer to the Signet of Cloanden, and Mary Elizabeth. He attended Edinburgh University and the Friedrich Schiller University of Jena, before graduating in medicine at Edinburgh in 1884. He was then appointed Demonstrator in Physiology at University College, Dundee, where he investigated the composition of the air in dwellings and schools.
In 1887, he moved to Oxford, joining his uncle, John Burdon-Sanderson, who was Waynflete Professor of Physiology, as a demonstrator. Haldane studied the suffocative gases occurring in coal mines and wells, exposing their dependence on spontaneous oxidation processes that could take place in the coal and soil. Further work shed light on the physiological action of carbon monoxide, and in due course he submitted an important report to the Home Secretary in 1896, showing the causes of death in colliery explosions and underground fires. Haldane’s work formed a basis on which to develop measures to prevent the danger. As a result of his research he became associated with the mining profession, an association he maintained his entire life.
In 1901, Haldane was elected a Fellow of New College, Oxford. His paper on the regulation of lung ventilation, developed in collaboration with John Gillies Priestley, was published in the Journal of Physiology in 1905. In his continuing research in pure physiology, Haldane investigated the impacts of oxygen deficiency and muscular exercise on breathing.
From 1907 to 1913, Haldane was Reader in Physiology at Oxford. In 1911, along with C. G Douglas, with whom he worked in the Oxford Laboratory of Physiology, led an expedition to Pike’s Peak, Colorado, to examine the effects of low atmospheric pressure on respiration. They stayed at the summit house of Pike’s Peak (14,110 feet above sea level), in which they built a laboratory and investigated the process of acclimatisation of breathing to high altitude oxygen levels. Pioneering Scientist Mabel Fitzgerald was also a member of this expedition. Their discoveries revolutionised current ideas about respiration.
During the First World War, Haldane was asked to identify the type of poison gas introduced by the Germans and its effects. Haldane found it was chlorine. In order to protect the soldiers, Haldane designed a portable oxygen administration apparatus for use in the field, the first gas mask. He also demonstrated the value of oxygen in treating soldiers when they were gassed.
Haldane was elected Fellow of the Royal Society in 1897, a Royal Medallist of the society in 1916, Copley Medallist in 1934, and in 1928 he was appointed Companion of Honour for his scientific work in connection with industrial disease. He died in Oxford in March 1936, shortly after returning from a visit to Persia, where he had been investigating cases of heat stroke in the oil refineries.