Cold War tensions and the politicization of the atmosphere

In the chaotic state of the post-war world and the increasing political and military tensions of the Cold War, science policy became a national imperative in the US. Science served military and geopolitical goals in the competition between the US and the Soviet Union, as well as international diplomatic goals, political and economic power, and national strength and identity.Footnote ¹³ The early Cold War era proved to be a boon for science, including the (geo-)physical disciplines. Scientists quickly learned to take advantage of political opportunities and to pursue research goals by appealing to political and military interests.Footnote ¹⁴ Atmospheric science was no exception. The tensions of the Cold War made the atmosphere a military space of high priority. New technologies developed during and after the Second World War, such as radar, rocket and satellite surveillance, and computers, promised substantial and rapid advances in knowledge of the atmosphere up to the highest reaches of the ionosphere.Footnote ¹⁵

Cold War interests resonated particularly well with recent developments in meteorology, which had greatly expanded its links with the military during the Second World War.Footnote ¹⁶ After the war, leading meteorologists seized the unique combination of technical opportunity (the development of computers) and financial opportunity (from military agencies) to sell the possibility of predicting the weather using numerical weather prediction techniques based on physical theory and creating the means to modify weather and climate.Footnote ¹⁷ Although few meteorologists seriously believed in it, the phrase ‘weather and climate modification’ became a key interest and shorthand for addressing meteorological research during the 1950s and 1960s in the USA.Footnote ¹⁸ The pioneering of computer-based numerical weather prediction with the first successful simulation experiments in 1950, inspired by the meteorologist Carl-Gustaf Rossby and led by Jule Charney, was a major achievement. The development of electronic digital computers helped to make non-linear differential equations tractable by numerical approximation and fuelled great enthusiasm for building computer models of the atmosphere and experimenting with weather and climate simulation.Footnote ¹⁹ The establishment of the influential Committee on Meteorology at the US National Academy of Sciences in 1956 and of the National Center for Atmospheric Research (NCAR) in Boulder, Colorado in 1960 reflected the significantly strengthened profile of meteorology and the atmospheric sciences.Footnote ²⁰

In the late 1950s, the last years of Eisenhower’s presidency, Cold War tensions were rising. Nuclear-tipped Soviet intercontinental ballistic missiles posed a major new threat. The launch of the first satellites, Sputnik I and Sputnik II, by the Soviet Union in the autumn of 1957 marked the beginning of the space race. The Soviet lead in the successful development and launch of satellites sent shockwaves through the US political and military establishment and led to the reorganization and aggressive intensification of US space exploration with the creation of the National Aeronautics and Space Administration (NASA) in 1958.Footnote ²¹

At the same time, nuclear weapons tests in the open atmosphere, which produced increasing amounts of radioactive fallout, led to a Soviet initiative for an above-ground nuclear weapons test ban. In March 1958, the Soviets announced a unilateral halt to nuclear testing. Eisenhower followed with a one-year test ban. Negotiations on a permanent test ban began in October 1958, but broke down in 1960. Eisenhower was initially sympathetic to a test ban but faced fierce opposition from the military establishment and defence-minded senators. When Kennedy took office in January 1961, he was committed to easing tensions between the US and the Soviet Union and took a pro-test ban stance. The Kennedy administration immediately launched new initiatives to reduce international tensions and resume test ban negotiations. In the summer of 1961, Kennedy planned to meet with Soviet premier Nikita Khrushchev to work out the conflicts between the US and the Soviet Union, to make proposals for new initiatives and to explore the possibilities for restarting talks on a test ban treaty.Footnote ²²

Promoting international cooperation: science for policy in the Kennedy administration

In early 1961, Italian physicist and MIT professor Bruno Benedetto Rossi called his MIT colleague Jule Charney. Rossi studied cosmic radiation, was one of the pioneers of rocket experimentation, and served as an adviser to Jerome Wiesner, the special assistant for science and technology in the Kennedy administration.Footnote ²³ Charney recalled in an oral-history interview, ‘the President would like to have something done in the way of international cooperation in the light of developments of outer space’ in which ‘space technology could be used for other than military purposes’. Rossi asked Charney for some ideas.Footnote ²⁴ On 1 April 1960, the United States launched its first meteorological satellite, TIROS I, which many scientists believed would usher in a new era of meteorology. The focus on scientific applications of satellites promised opportunities for international cooperation.Footnote ²⁵

After Rossi’s invitation, Charney called his friend and former colleague at MIT, Thomas F. Malone, in early February 1961. Malone and Charney met with Rossi and atmospheric physicist Richard Goody of Harvard University to discuss possible directions for an international research programme. According to Malone, after some discussion and random brainstorming, they eventually ‘turned to the possibility of conscious or inadvertent human intervention in weather and climate’, a topic in which Rossi ‘immediately detected a rationale for a joint effort with other nations’. Malone, as president of the American Meteorological Society, organized a more formal meeting on 21 February 1961 at the AMS residence in Boston with other leading meteorologists, including Henry Houghton of MIT, Sverre Petterssen of the University of Chicago, Robert Fleagle of the University of Washington, David Johnson and Harry Wexler of the US Weather Bureau and Morris Tepper of NASA, to discuss the possibilities of an international research programme.Footnote ²⁶

After the meeting, Charney and Malone wrote a report for Rossi. Malone quoted it in his memoirs:

Malone even went to Washington to talk to Wiesner. Wiesner endorsed the plan, which was to be proposed to Khrushchev at the Vienna summit on 3–4 June 1961. However, the summit was a diplomatic failure for Kennedy, who met a Soviet leader with very different concerns at a time of rising tensions and confrontation, not of proposals and cooperation, scientific or otherwise.Footnote ²⁸ The Berlin Wall was built some weeks later in August 1961, and on 1 September 1961 the Soviet Union ended its moratorium and resumed nuclear testing. Kennedy’s response was to authorize underground testing from mid-September 1961 and atmospheric testing from spring 1962.Footnote ²⁹

However, the idea of an international research programme wasn’t dead. Kennedy was due to address the United Nations at the opening of its Sixteenth General Assembly in September 1961. In preparation, the administration called Malone to Washington for a meeting on 31 August with Jerome Wiesner; Detlev Bronk, president of the National Academy of Sciences and chairman of the International Panel of the President’s Scientific Advisory Committee; Richard Gardner of the State Department; Pete Scoville of the CIA; and Arthur Schlesinger of the Executive Office of the President, as well as physicist Isidore Isaac Rabi and diplomat Harlan Cleveland. Malone made what he later described as ‘an impassioned presentation’ on the need to create an international programme to study global weather processes. Although it caused an argument between Wiesner and Gardner, they eventually decided that Malone’s proposal was ‘a suitable subject for President Kennedy to introduce at the United Nations’.Footnote ³⁰

Malone then travelled to Canberra and Sydney (11–20 September 1961) for the International Conference on Cloud Physics, organized by the Australian Academy of Science and the Commonwealth Scientific and Industrial Research Organization (CSIRO) under the auspices of the International Union of Geodesy and Geophysics (IUGG). As president of the AMS, he was invited to give the opening address in Canberra, which he used as a ‘little trial balloon’ to launch the idea of an international research programme.Footnote ³¹ In his opening address to some hundred participants, he highlighted recent advances in meteorology and the opportunities that lay ahead. He outlined what he simply called ‘the meteorological problem’, which consisted of four parts: ‘(1) describing this complex hydrodynamic system of the atmosphere, (2) understanding the physical processes which are responsible for its behavior, (3) predicting future states of the system, and, ultimately, (4) controlling such of those physical processes as may be practicable to influence future states in a beneficial manner.’Footnote ³²

Towards the end of his speech, Malone suggested a way forward in pursuit of these goals. ‘I believe, however, that the time has arrived to strengthen and unify these efforts by seeking to establish, within the framework of the International Council of Scientific Unions, a committee which … would become the focal point of an international collaborative effort in atmospheric research’. The non-governmental ICSU was the major international scientific institution, the parent body of many scientific unions representing scientific disciplines, including the IUGG. Malone’s argument suggests that he wanted to ensure a strong position for the ‘scientific and academic community’ in developing a research programme outside the World Meteorological Organization, which was a governmental organization representing national weather services and operational meteorology.Footnote ³³

A few days later, on 25 September 1961, US president John F. Kennedy delivered an ambitious speech to the United Nations General Assembly in New York. Kennedy urged the world community ‘to halt the spiralling nuclear arms race’. ‘Mankind must put an end to war – or war will put an end to mankind.’ Kennedy proposed a radical (visionary rather than realistic) six-point programme that included ‘signing the test-ban treaty by all nations’, a halt to the production and transfer of fissionable material for nuclear weapons and to their use in space, and an end to the unlimited testing and production of missiles as delivery systems for nuclear weapons. He proposed ‘reserving outer space for peaceful use’, ‘further cooperative efforts between all nations in weather prediction and eventually in weather control’ and ‘a global system of communications satellites linking the whole world in telegraph and telephone and radio and television’.Footnote ³⁴

As a result of his urgent appeal, US and international diplomats prepared a resolution on international cooperation in the peaceful uses of outer space, which the UN General Assembly adopted on 20 December 1961 as Resolution 1721 (XVI). As part of this resolution, the General Assembly recommended to ‘all Member States and to the World Meteorological Organization and other appropriate specialized agencies’ a comprehensive study of the atmosphere in the light of developments in space. It recommended two major goals:

It asked the WMO to submit a report on ‘appropriate organizational and financial arrangements to achieve those ends’ in consultation ‘with other specialized agencies and governmental and non-governmental organizations including the International Council of Scientific Unions’.Footnote ³⁵

The science and politics for building a global research programme

Kennedy’s initiative was well timed and well placed. Satellite applications in meteorology and communications required international cooperation.Footnote ³⁶ In March 1962, Khrushchev agreed in a letter to Kennedy that the joint establishment of an operational weather satellite system would be a great service to mankind.Footnote ³⁷ The WMO had already established an Expert Panel on Artificial Satellites in 1958. As a member of this panel, Harry Wexler, head of the US Weather Bureau, developed the idea of a global observing system. Immediately following the adoption of the UN resolution, the WMO commissioned the research directors of the US and Soviet national weather services, Harry Wexler and Victor A. Bugaev, to further develop plans for what became known as the World Weather Watch (WWW) and to prepare the report required by UN Resolution 1721.Footnote ³⁸ The WMO also set up an advisory committee to ‘advise the WMO Executive Committee concerning principal research problems in the atmospheric sciences, especially in connexion with developments in meteorological satellites’ and to identify further research and education needs.Footnote ³⁹ By this time, Bolin recalled in his memoirs, about a dozen scientific groups in the US, Europe, Japan and Australia were investigating the use of satellites to observe the weather from space. While this goal justified a major research effort, it also ‘signalled a battle for resources within the USA’.Footnote ⁴⁰

The Kennedy administration was preparing for a major expansion of the nation’s atmospheric research effort. In the spring of 1961, science adviser Jerome Wiesner had asked the National Academy of Sciences to ‘establish national goals in the atmospheric sciences’ and to ‘identify those areas of research which appear fruitful from the point of view of unsolved problems or potentially great advances’ to be pursued over a ten-year period. In the spring of 1962, a three-volume report, The Atmospheric Sciences 1961–1971, was published under the direction of University of Chicago meteorologist Sverre Petterssen, a leading researcher in weather analysis and forecasting.Footnote ⁴¹ This report, known as the Petterssen report, was based on a series of planning conferences held in the summer of 1961, which focused on major research areas and brought together 189 scientists to comment on and discuss the major problems to be tackled in the atmospheric sciences, with a further twenty-seven contributing ‘by personal or written consultation’.Footnote ⁴²

The report recommended that spending on atmospheric research be almost tripled, from $217 million in 1961 to $605 million in 1971. Although all major areas of research would benefit from increased funding, the report emphasized Charney and Malone’s original proposals for a research programme and reiterated Malone’s argument about ‘the meteorological problem’ made in his Canberra speech in September 1961.Footnote ⁴³ In its final chapter it proposed an ‘International Atmospheric Science Program’. Part of this would be the World Weather Watch to provide improved global observational data that would

Charney continued to think about the specific scientific content of an international research programme. At one meeting, he later recalled, he was struck by the idea that the atmospheric circulation should be studied ‘as a whole’, based on a much better observational base, which could be provided by satellites, aircraft and balloons, ‘something that could be done for a limited period of time’. He presented this idea at a meeting of the Committee on Atmospheric Sciences, and in the following weeks wrote a position paper in which he argued that the understanding and numerical simulation of atmospheric processes had recently advanced so rapidly that ‘it will soon be possible to analyse and predict atmospheric motions on a truly global scale for long periods of time’.Footnote ⁴⁵ However, meteorological instrumentation remained ‘in so primitive a state’ that ‘no possible extension of the observational networks along conventional lines (new stations, weather ships, etc.) can cope with the global data requirements in any foreseeable way.’ The atmosphere in the southern hemisphere, in the tropics and over the oceans (which make up 70 per cent of the Earth’s surface) was far less well known and understood, and since the atmosphere is global, this lack of knowledge severely hampered weather and climate forecasting. The ‘limited success that has attended short-term numerical predictions and general circulation calculations suggests strongly that the availability of global data would open up an entirely new field of investigation: the study of phenomena on time scales from two or three days to infinity.’ He concluded, ‘The implications for long-range weather prediction, the understanding of climate, and a rational approach to climate modification are too obvious to bear comment.’Footnote ⁴⁶

Charney proposed an international research programme consisting of three parts. ‘(1) A carefully planned and phased instrumental development program, extending over a period of perhaps five to ten years’. A limited experiment should then be carried out as new appropriate instruments became available to equip satellites, aircraft, balloons, ships, buoys and so on. ‘(2) the actual measurement of the atmosphere once or twice daily for a period of several weeks or months’. On the basis of the much better and more comprehensive global observational records collected for the period of this experiment, ‘(3) enhanced work on the science and technology of machine computation and data processing’ should follow. This last part meant the development of more comprehensive and better computer models based on the improved knowledge, and the conduct of numerical simulation experiments with improved models and better and much more comprehensive initial data to test weather and climate predictions over a period of several weeks. Charney circulated his position paper to a few close colleagues and organized a meeting at the National Academy of Sciences in Washington on 29 April 1962 to discuss the desirability and feasibility of a global observing system.Footnote ⁴⁷ In the summer, at the Bjerknes Centenary Conference at the University of Bergen, he shared these plans with some international colleagues, including his colleague and friend Bert Bolin. According to Bolin’s memoirs, Charney’s proposal met with ‘strong support from scientists all over the world’.Footnote ⁴⁸

While Charney was developing his ideas, the National Academy of Sciences was formally responding to UN Resolution 1721 (XVI). Its president, Detlev W. Bronk, appointed an ad hoc Committee on International Programs in Atmospheric Science and Hydrology, chaired by Sverre Petterssen, to follow up on the Petterssen report and prepare an initial outline of a programme for international cooperation. In addition, the academy appointed leading scientists representing the diversity of the atmospheric sciences to the committee, including Jule Charney and Thomas Malone. The committee’s report was published in January 1963.Footnote ⁴⁹ It considered research perspectives and needs in four main areas: weather forecasting and modification (Chapter 3), the upper atmosphere (Chapter 4), atmospheric chemistry (Chapter 5) and climatology and related fields (Chapter 6). Its introduction emphasized its priority:

The report recommended the establishment of an ‘International Atmospheric Research Program (IARP)’ focusing on problems that ‘require atmospheric measurements on a global scale’. Such a programme should be supported by more specific programmes focusing on the use of meteorological satellites and the development of equipment and the planning of a global measurement system, the expansion of the use of data provided by meteorological satellites, and an ‘International Meteorological Education Program (IMEP)’.Footnote ⁵¹ Importantly, the report emphasized the role of ICSU in working with the WMO. It recommended that ICSU and its members ‘develop the basic aspects’ of the programmes and ‘assist WMO in the formulation of a general program’ (part of recommendation 1). It recommended further that the National Academy of Sciences ‘addresses itself to’ ICSU to ‘consider the interest and value in an international program in the atmospheric sciences’ and undertake efforts to ‘study and foster programs of international cooperative research’ (part of recommendation 3).Footnote ⁵²

In 1962, Malone served as a volunteer aide to US assistant secretary of commerce John Herbert Hollomon, whose responsibilities included the US Weather Bureau. Malone used this position, as he told the story, to propose an additional UN resolution specifically inviting the non-governmental ‘ICSU to participate in planning the research recommended in the 1961 UN Resolution’. In July 1962, Hollomon called and asked Malone ‘to fly to Washington immediately’ to meet with Hollomon and Richard N. Gardner from the State Department. By the time Malone arrived, the meeting was over. Hollomon, after ‘some Indian wrestling’, had persuaded Gardner to prepare a new UN resolution. According to Malone, ‘Gardner and his chief, Assistant Secretary of State for International Organizations, Harlan Cleveland, were towers of strength in this initiative, both within the Department of State and at the UN.’Footnote ⁵³ On 14 December 1962, the UN General Assembly adopted Resolution 1802 (XVII) at the suggestion of the US government. The new resolution still left a leading role for the WMO, but in Section III, Sentence 5, it explicitly invited ‘the International Council of Scientific Unions through its member unions and national academies to develop an expanded programme of atmospheric science research which will complement the programmes fostered by the World Meteorological Organization’.Footnote ⁵⁴

A major diplomatic operation: paving the way for GARP

While placing the International Research Programme with ICSU was a remarkable success, many other obstacles required attention and a lot of work. ICSU was a huge and complex undertaking, involving a complicated network of institutions and a wide variety of interests. The crucial task ahead was to ‘to identify the ICSU body that could most effectively plan this program’.Footnote ⁵⁵ ICSU consisted of unions representing scientific disciplines, such as the IUGG, which included atmospheric science. These unions consisted of a number of subsidiary associations. The IUGG, for example, had seven associations, including the International Association of Meteorology and Atmospheric Physics (IAMAP). The associations in turn ran commissions representing specific disciplines or research areas, such as the Commission on Dynamic Meteorology and the Commission on Meteorology of the Upper Atmosphere of IAMAP. In the case of interdisciplinary research programmes, ICSU occasionally established special committees, such as the non-permanent Comité spécial de l’Année géophysique internationale (CSAGI), which organized the International Geophysical Year in 1957–8, or the permanent Committee on Space Research (COSPAR).Footnote ⁵⁶

The question of how best ICSU should proceed caused much discussion. Some (such as the US National Committee) favoured a special ICSU committee (like the arrangement for the lGY). Many ICSU officials called for an inter-union committee with representation from several unions. IUGG scientists, on the other hand, wanted to keep it entirely within their union, while many IAMAP representatives saw it as IAMAP’s domain. Still others (such as the director general of the UK Met Office, Graham Sutton) demanded that any such programme be the sole prerogative of the WMO, not ICSU.Footnote ⁵⁷ Malone preferred a special ICSU committee. To gain support for this solution, he travelled to Toronto with IAMAP president Horace Byers, a meteorologist who supported Malone’s position, to visit IAMAP’s secretary general, Canadian meteorologist Warren Godson. The trip did not pay off. Godson was ‘understandably adamant that IAMAP undertake the task’.Footnote ⁵⁸ The issue had to be taken up and resolved at the Triennial General Assembly of the IUGG. This meeting, hosted by the American Geophysical Union (AGU) in Berkeley, was held from 19 to 31 August 1963 and attended by some 2,500 scientists. As president of the AGU, Malone was the official host and responsible chair of the conference, led the US delegation – and was responsible for much of the politics. He remembered the meeting as ‘very interesting’ and ‘very complex’ and the IUGG Council meetings as a ‘rough journey’.Footnote ⁵⁹

Malone’s negotiations before and at the Berkeley conference had focused on key officials in the USA and in ICSU, especially on IAMAP and IUGG officers. At this point, negotiations across the Iron Curtain did not seem to have been an issue of much concern. Malone hoped to persuade IUGG officers to propose a special ICSU committee to develop an international atmospheric programme, but the IUGG Council ultimately voted against his proposal. ‘A resolution recommending establishment of an Interunion Committee on Atmospheric Sciences, with IUGG acting as parent Union, was adopted without dissent.’Footnote ⁶⁰ The newly elected president of IUGG, geophysicist Joseph Kaplan of the University of California, Los Angeles (succeeding Vladimir Belousov of the Soviet Union), and the new IUGG Executive Committee decided at a meeting in London in September 1963 to propose to ICSU the establishment of a Committee on Atmospheric Sciences under the joint auspices of ICSU and the IUGG. Kaplan and the IUGG secretary general, the Canadian geophysicist George D. Garland, supported Malone’s proposal for an international research programme and proposed Bert Bolin as chairman of this committee.Footnote ⁶¹

The IUGG proposal was discussed at the ICSU General Assembly in November 1963. ICSU decided to establish an Inter-Union Committee on Atmospheric Science (IUCAS), chaired by Bolin, but it was much larger than Bolin and Malone had hoped. Four unions and five IUGG associations were invited to nominate representatives. IUCAS was mandated to maintain ‘close liaison’ with the WMO, to invite proposals from ICSU members by 31 March 1964, to organize a first meeting to discuss proposals in the spring of 1964, and to prepare a report on the proposals submitted by June 1964, when the next meeting of the ICSU Executive Committee was to be held.Footnote ⁶² Over the next few weeks, Bolin tried to lobby for the appointment of supportive scientists to the committee and to get Charney on board, but to no avail. ‘Within these constraints, the outlook was not too bright’, Malone concluded. He was ‘deeply concerned that, once more, an attempt on the part of the scientific community to be responsive to the UN Resolution’ might fail. In his eyes, ‘the most pressing need was to establish a mechanism within which interested scientists with diverse backgrounds could be brought together and feel comfortable’.Footnote ⁶³ Bolin, like Malone, was convinced that IUCAS was an inappropriate vehicle for establishing an ambitious international programme. In May 1964 he wrote to his friend and colleague at MIT, Norman Phillips: ‘the formal difficulties within a hierarchy of commissions, associations, unions, special committees, scientific committees, interunion committees, etc., are just unbelievable and I think it is principally wrong to start at the top in trying to get some new program going’.Footnote ⁶⁴

Bolin still took up the challenge and took care to include and secure agreement from major important players. He strategically organized the first IUCAS meeting at the WMO headquarters in Geneva on 8–11 February 1964 to strengthen relations with the WMO and obtain its support.Footnote ⁶⁵ Likewise, he included and sought consent of Soviet scientists. In spring 1964 he travelled to Moscow with Kaplan and Malone to join a meeting of the ICSU Executive Committee and discuss the work of IUCAS. During this visit they also had discussions with Alexander Mihailovich Oboukhov from Moscow State University and other Soviet scientists. Oboukhov was elected president of IAMAP in November 1963 and a member of IUCAS. He was interested in the US proposals and supportive of Bolin’s and Kaplan’s plans. Oboukhov was also copied in on all major letters in Bolin’s correspondence file. Oboukhov also had good contact with US scientists of the IAMAP Commission on Dynamic Meteorology (CDM) such as Norman Phillips (CDM chairman) and Siegmund Fritz, chief of the Weather Bureau’s Meteorological Satellite Section.Footnote ⁶⁶

Bolin scheduled the next IUCAS meeting for 15–16 May in Florence, where the 7th COSPAR Conference and Scientific Assembly took place from 11 to 20 May. This meeting was dedicated to discussing the proposals received for an international research programme. A joint meeting with COSPAR was useful to save travel costs and time for many participants and to discuss COSPAR’s role in the proposed programme.Footnote ⁶⁷ This pace was not universally supported. British IUCAS member Reginald Sutcliffe complained in a letter to IUGG secretary general Garland about the inadequate preparation for the Florence meeting, with only one or two ‘definite national proposals’ available. Sutcliffe suggested instead a meeting in the autumn for careful discussions with the WMO and national representatives.Footnote ⁶⁸ Only the USA submitted a detailed proposal in the form of a new report prepared by the Committee on Atmospheric Sciences of the US National Academy of Sciences.Footnote ⁶⁹ In addition to this proposal, IUCAS received smaller and less developed proposals from the Federal Republic of Germany, Thailand, Israel and New Zealand.Footnote ⁷⁰

The IUCAS meeting was held in Florence on 14 and 15 May. Kaplan was absent and sent Malone to represent him. IAMAP president Oboukhov and his alternate Sutcliffe did not join the meeting. It proved to be a difficult meeting, but Bolin managed to reach a resolution. Bolin had carefully prepared and timed a bold strategic move. He managed to get agreement in IUCAS, first, to support the US proposal (while the smaller others could be referred to IAMAP for consideration) and, second, to terminate IUCAS and propose the establishment of a new COSPAR working group as the coordinating body for this programme. On 20 May, five days after the conclusion of the IUCAS meeting, COSPAR held its General Assembly in Florence, which responded positively to the IUCAS proposal and resolved to establish COSPAR Working Group 6 to develop the envisaged international atmospheric research programme under the chairmanship of Bolin. In so doing, Bolin hoped to avoid the competition, conflict and constant bickering that had dogged the IUCAS deliberations from the outset.Footnote ⁷¹

While Malone was delighted, IUGG president Kaplan was ‘not at all happy over the proposed solution’, as he wrote immediately to Bolin. Kaplan recognized the difficulties Bolin was facing, but a COSPAR working group to coordinate programme development was unacceptable to him. Nevertheless, Kaplan trusted Bolin and was prepared to support him. He suggested that they should ‘move ahead as if the IUCAS resolution of COSPAR had been approved’ by ICSU.Footnote ⁷² The ICSU Executive Committee met in London from 15 to 17 June 1964. It accepted in principle the US proposal and the dissolution of IUCAS. It also approved COSPAR Working Group 6, but decided that the development and coordination of a research programme would have to take place ‘under the general auspices of IUGG’.Footnote ⁷³

Bolin, Charney and Norman Phillips (who chaired the IAMAP Commission on Dynamic Meteorology) continued to plan the scientific content of the programme. Bolin argued that the programme should be developed from the bottom up by a few scientists with

Over the next few weeks, Charney spoke to leading experts in ocean–air interaction, satellite radiometry and constant-level balloons to get their input for a comprehensive programme.Footnote ⁷⁵

Kaplan, on the other hand, took responsibility for setting up the new committee, as requested by the ICSU Executive Committee. ICSU president Harold Warris Thompson had demanded multi-union representation but was also under pressure to move quickly after much criticism of the lack of progress. He gave Kaplan and Bolin much more freedom to carefully select appropriate committee members. Kaplan appointed Bolin as chairman and Malone, who had offered his office at the National Academy of Sciences as a secretariat for the new committee, as secretary of the committee. Kaplan and Bolin also suggested including the two Soviet scientists, Alexander Obhoukov and atmospheric physicist Kirill Kondratiev, in the committee, which ICSU president Thompson accepted. By December 1964 the committee, now called the IUGG Committee on Atmospheric Science (IUGG-CAS), was almost complete.Footnote ⁷⁶ Reginald Sutcliffe, vice president of IAMAP, strongly criticized this approach. ‘I cannot believe that an acceptable alternative is the association of a few dynamicists chosen on an individual basis with powers to co-opt’, he wrote. ‘No doubt such an arrangement would allow certain enthusiasts to press on with their own programmes but in the long run it is far more important, in my view, to provide encouragement and stimulate activity in atmospheric science over a broad front.’Footnote ⁷⁷ Unfortunately, the available sources do not provide further insight into conflicts, competition and opposing positions such as Sutcliffe’s.

Bolin stuck to his demands for an ‘effective working group’.Footnote ⁷⁸ He helped to smooth the process by listening to critics such as Sutcliffe and Godson of IAMAP and offering compromises without deviating from the objectives. The IUGG-CAS was created to plan and coordinate the development of the atmospheric research programme. It relied on cooperative members and was largely free of conflicts over formal protocols. Kaplan and Thompson had strongly supported the process and used their standing and authority to occasionally bend strict rules and protocols. In fact, the IUGG-CAS met only three times, in February 1965, April 1966 and March 1967. The focus of the following years was the scientific preparatory work, involving many scientists and working groups, led by Charney and Bolin.Footnote ⁷⁹

As early as January 1965, Bolin informed Thompson of a ‘rather precise time schedule’ including ‘meetings of various working groups’, a ‘much more complete report’ in 1966 and a final symposium to discuss the research programme developed.Footnote ⁸⁰ The report mentioned by Bolin was most likely that prepared by the Panel on International Meteorological Cooperation of the US National Academy of Sciences under the direction of Charney in the autumn of 1965 and published in 1966. It provided a detailed account of scientific considerations for global observations and technical considerations for monitoring techniques and platforms, including satellites, balloons and buoys, and was an important preparatory document for GARP.Footnote ⁸¹ In the summer of 1967, Bolin organized a final ‘study conference’ near Stockholm with some seventy participants to discuss and review the international programme. ICSU and the WMO jointly agreed in Rome in October 1967 to establish the Global Atmospheric Research Program.Footnote ⁸²