The invisible experience

There is a substantial literature on how Needham apprehended China and on the historiographical origins of his Science and Civilization in China. This body of work can be divided into two subgroups.

The first subgroup focuses on historicizing and critically analysing SCC’s non-dualistic epistemology, the relational view that modern science is an ecumenical enterprise rooted in cultural, scientific and technological interchanges between East and West. Historians such as Gregory Blue and Shiv Visvanathan have seen this relationalism as the main grounds of SCC’s uniqueness.Footnote ¹⁰ To understand this epistemological egalitarianism, both scholars have plunged into the 1930s origins of Needham's synthetic mindset.Footnote ¹¹ Blue, for instance, has shown that Needham recognized as early as the 1920s the validity of different moulds of experience, such as religion and science, for understanding nature and society, which he eventually synthesized into a unitary epistemology through his SCC. Other scholars have reinforced this emphasis on Needham's mindset by characterizing his search for a relational and anti-dualist outlook as an essential factor eliciting his interest in China and its non-dualist Taoist philosophy.Footnote ¹² This tendency is particularly visible in the work of Nathan Sivin and Liu Dum. Both have contrasted Needham's epistemology against the Western-centred perspectives that prevailed in the global histories of science, sinological studies and civilizational history of the time.Footnote ¹³

Only a handful of scholars – the second subgroup – has investigated Needham's interest in China (and his SCC) in light of his Marxist leanings.Footnote ¹⁴ Among these, Gregory Blue and Timothy Brooke have acknowledged that Needham's Chinese scholarship would be ungraspable without his Marxism and have highlighted the mark it made on his historical perspective. At the same time, their point has been to play down Marxism's grip on Needham's Chinese investigations, reducing it to a mere epistemological tool. They have portrayed it as of a singular and highly heterodox kind. Brooke and Blue have particularly highlighted Needham's free use of official Marxist categorization to analyse Chinese society, notably employing the notions of an ‘Asiatic mode of production’, ‘Asiatic bureaucratism’, and ‘bureaucratic feudalism’, which the official Stalinist historiography had expelled from its vocabulary in the 1930s. For Brooke, Needham's interchangeable use of this terminology denotes his heterodox usage of the Marxist analytical system, while for Blue, Needham's unorthodoxy invalidates the anti-Marxist critique that his SCC received in the 1950s.

In spite of valuable insights into SCC’s historiographical and epistemological origins, the literature suffers some significant limitations when it comes to understanding Needham's fascination with China. First, Needham scholars have investigated Needham's interest in China strictly for the purpose of gaining a deeper understanding of SCC. In a way, Needham's China has been essentially explored as a literary and epistemological object rather than as a lived experience, which may explain the general disregard for his actual activities in China during the war.

A second problem emerges as well. The bulk of existing scholarship has investigated the pre-war foundations of Needham's outlook on China from the point of view of his post-war intellectual trajectory rather than that of his actual pre-war posture. This is particularly striking in the works of Blue and Brooke. Both have used as a reference point for their study not the radical Marxist framework that permeated Needham's view before and in China, but the milder Marxist principles that Needham adopted in the 1950s and 1960s. In the late 1950s, Needham faced a fierce anti-Marxist opprobrium that major historians of China like Karl Wittfogel heaped on the first volumes of SCC.Footnote ¹⁵ Following this episode, Needham trivialized the significance of Marxism in his work. He reduced it to a mere historiographical instrument that aided him to formulate an alternative to the conventional ‘internalist’ approach to the history of science. So while Blue and Brooke have recognized the relevance of Needham's first half-life for the making of his SCC by highlighting the Marxism in his approach, they have underestimated its importance by using Needham's milder post-war Marxism as their frame of reference rather than the more radical pre-war version that actually permeated his investigations of China during the war.

The same goes for Needham's anti-dualism. In response to his critics, Needham gradually softened the Marxist epistemology that originally guided his investigations into the origins of modern science. By the 1960s, he instead sublimated his synthetic approach in his attempt to explain modern science as the conciliation of the cultures of Asia and the West. This refashioning, which he articulated in Within the Four Seas (1969) and History and Human Values (1975), has misled Needham scholars who have dug into his first half-life to grasp his interest in China.Footnote ¹⁶ Needham's later bridge-building outlook is in fact much less relevant for explicating his original motivation to study China. First of all, this is because Needham's world view in the 1930s, though relational, was far from resembling the integrated and humanistic philosophy he adopted in the 1960s. Upon his departure to China, his world view, though impregnated with religious considerations, was based upon a faith in the combined transformative power of science and Marxism.Footnote ¹⁷ Second, and more important, historians’ intellectualist emphasis overlooks the fact that, in the 1930s and the 1940s, Needham primarily shaped and subordinated his scientific investigations to the advancement of radical social change, which he expected in England and foresaw in wartime China.Footnote ¹⁸

Hence the bulk of the existing literature not only disregards how Needham discovered China during the war, but also studies his interest in China based on inadequate epistemological considerations. Looking at SCC retrospectively, this scholarship has ultimately been built upon a flawed conception of Needham's pre-war trajectory inherited from the epistemological and ontological reorientation he adopted in the 1960s and the 1970s. This has the effect of removing his first half-life, and more surprisingly his voyage in China during the Second World War, from our understanding of his relation to China. The relationships that these scholars had with Needham may explain their somewhat uncritical acceptance of his 1960s epistemological reorientation. Most of them were former students and close collaborators of Needham on his multi-decennial SCC. This closeness rendered the task of critically appraising Needham's work all the more challenging, since for most of them his legacy became theirs. As Mark Elvin noticed thirty-five years ago:

The following sections put the spotlight on Needham's wartime Chinese experience and reveal it to be a decisive moment in the formulation of some of the core concepts of his SCC. They also suggest that China appealed to Needham not only historically, but also politically and scientifically. Retrieving his multifaceted interests in China will finally allow me to show how closely his concerns for Chinese science were connected to his interests in international reorganization that led to his involvement in UNESCO after the war. At the same time, his fascination with China was not without its roots either, and in order to understand these, I will first introduce the main tenets of his world view prior to his departure for Chongqing.

Needham and China in the 1930s

Well before his appointment at the SBSCO, Needham was already intrigued by China's history and politics. Needham recalled in The Grand Titration that he had first formed the idea ‘of writing a systematic, objective and authoritative treatise on the history of science, scientific thought and technology in the Chinese culture-area’ around 1938.Footnote ²⁰ And by the time of his departure, he saw in the growing Chinese communist front the dawn of a ‘new trend towards collectivism and socialism worldwide’.Footnote ²¹ Needham's political and historical fascinations with China were connected through his involvement in the so-called scientific left and in the scientistic forms of historical materialism developed in this movement in the 1930s. Its most dominant theoretician, no doubt, was J.D. Bernal, and his views on science and historical development caught most attention, especially through his book The Social Function of Science.Footnote ²² But Needham developed his own theory of scientific and social development that distinguished itself from Bernal's by a humanist scepticism toward scientism and an evolutionary approach to the co-advancement of science and politics, founded in his embryology.

Needham came to see the world embracing ‘the giant vista of evolution’.Footnote ²³ Drawing from contemporary research in the natural and social sciences, Needham envisioned nature as a unified whole with humankind as its crown.Footnote ²⁴ Nature was not static, but in motion through evolution, which he saw as ‘the passage from simplicity to complexity … from low to high organization’.Footnote ²⁵ Convinced of the universality of evolution, Needham regarded this evolutionary process as an entry point that penetrated all spheres of life, including human social life. ‘We must think of sociological development’, he postulated, ‘as continuous with biological. History is the continuation of Natural History’.Footnote ²⁶ Needham's reading of social evolution resonated very much with the teleological and deterministic interpretation Herbert Spencer had given fifty years earlier in his system of synthetic philosophy.Footnote ²⁷ Yet the mechanism of change differed between the two: where Spencer valued competition, Needham identified its opposite – cooperation between people – as ‘the necessary foundation to a higher order of human society’.Footnote ²⁸

Needham conceived of cooperation – e.g. between cells, organisms and ultimately human beings – as the triggering mechanism behind evolutionary change, and science as its indicator. Consequently, Needham considered that a full scientific understanding of mankind's evolutionary course should enable the scientist to confidently affirm, contra Spencer, that ‘the [capitalist] state in which we know [society] today was not, to a very high degree of probability, its final state’.Footnote ²⁹ For Needham science was not just an innocent and passive mirror of nature's evolutionary march. It constituted a powerful political compass that could guide the transcendence of capitalism towards evolutionary, sound socialism. This belief led him to affirm in 1937, in the face of the fascist threat, that the world faced a choice between fascist–capitalist decay and the advancement towards socialism: between contradicting nature's evolutionary rules and embracing them to move on to the political and biological harmony of a collectivist society.Footnote ³⁰

Needham therefore subscribed to the idea that science, understood as an intellectual endeavour, was nature's mirror and as such part of nature's realm. But he, with his socialist-minded comrades, did not ignore what they considered to be all the more true of science: the fact that as a social institution, science and its representatives ‘did not live in a vacuum [and were] conditioned by the structure of the world they lived in’.Footnote ³¹ Needham believed that enacting science's essential values would increase its growth and transformative power; he feared that their negation could lead to science's demise. In his Carmalt Lecture at Yale University, Needham explained that science depended on material and cultural conditions, and for this reason one ‘must not dissociate scientific advances from the technical needs and processes of the time, and the economic structure in which all are embedded’.Footnote ³² For him, science was not eternal. It could rise and fall depending on the state of human affairs.

Studying the historical development of science, Needham observed that science functioned differently depending on whether it evolved in a fascist, capitalist, soviet or collectivist organization of society. In unison with his leftist comrades, Needham concluded that science could be either pure or impure, growing or dying, constructive or destructive, depending on the context of its elaboration and use. Yet, unlike other leftist scientists, Needham composed a distinct evolutionary typology where fascist and capitalist regimes lay at the foot of the ladder as degenerated social orders oppressive of science, while Marxist collectivism stood at its top as ‘the only theory that could guarantee that science would be used for the benefit of mankind’.Footnote ³³ While Needham understood science as having immense explanatory and transformative power, he depicted it nonetheless as an alarmingly fragile entity likely to be swayed by unreasoned societal choices. Needham perceived science as a clay-footed giant: powerful enough to transform society, and yet so frail as to perish in an instant. In the face of the growing fascist threat, Needham regarded the growth of science less as a self-propelled and eternal enterprise than as a political project tied to, and dependent upon, society's destiny. This conception of science not only motivated his political militancy in Britain; it also permeated his first contacts with China in the late 1930s, which, as we shall see, revolved around helping Chinese scientists and understanding the mysterious stoppage of Chinese science in the Middle Ages.

Needham's interest in China dated back to the mid-1930s, when his collaboration with a group of Chinese biochemical students – among them Gu Djei-Jen, his lifetime companion and future second wife – awakened his curiosity for this distant land.Footnote ³⁴ With them, and with Gu Djei-Jen in particular, he plunged into the study of China's past, mastered the language, and became an honorary member of the Cambridge Chinese Student Society in 1942.Footnote ³⁵ These exchanges elicited in Needham a voracious interest in China and its scientific traditions – past and present – as well as a concern for its resistance to the Japanese aggression.Footnote ³⁶ Beginning in the mid-1930s, Needham joined a wide array of Anglo-Chinese organizations, such as the Anglo-Chinese Intellectual Cooperation Committee and the Sino-British Cultural Association, which promoted cultural cooperation and mutual understanding. Through these networks, Needham engaged in profuse intellectual exchanges with prominent Chinese scholars (such as Chung Shu Lo) on the potential of Chinese science, as well as on the promising rise of the communists.Footnote ³⁷ By 1939 and the war's outbreak in Europe, Needham was already regularly consulted both in Britain and in China to express his views on China's current political situation, the state of its scientific apparatus, and the potential of tighter East–West cooperation in war.Footnote ³⁸ His reputation as an expert sinophile was ultimately sealed when the British Council, Britain's governmental organization for the promotion of education and British culture abroad, considered Needham as a candidate to conduct a new programme to promote tighter cultural exchanges with China.Footnote ³⁹

With Japan sweeping across Asia and threatening Britain's neighbouring colonies, London and Chongqing felt the pressing need to cooperate against Japan's expansionism. Hence, beginning in 1939, the Anglo-Chinese associations started to campaign for the establishment of greater Sino-British cooperation. These plans stemmed from engaged discussions between Oxbridge and Chinese scholars on the modalities of Sino-British technical cooperation and its underlying political functions for, and beyond, the war.Footnote ⁴⁰ Within these heated debates, the proposals put forward by Chung Shu Lo during his 1940 tour in Britain stood out. Through a series of lectures in a dozen British universities, including both Oxford and Cambridge, Lo introduced his British audience to the crippled state of science and education in China and the benefits that an East–West cooperation programme would bring to China's social and scientific development.Footnote ⁴¹ Lo's lectures left a strong impression on Needham. The two scholars subsequently established a rich correspondence on the matter of international cooperation throughout the war, which showed its influence on the type of scientific cooperation Needham ultimately envisioned, first between Britain and China, and later at UNESCO.

During his visit to the UK, Lo aimed to convey the immense fascination that Western science exerted upon his colleagues back home. He particularly insisted on their unequivocal faith in the power of Western applied sciences, with which they hoped to alleviate most of the existing hardship in China. Lo ardently believed that greater cooperation with the West would help ‘to rejuvenate the nation’ and ‘raise the general standard of living’.Footnote ⁴² He regarded international scientific cooperation as China's best means to overcome the Japanese occupation, elicit societal progress, and revive its scientific tradition. Importantly, Lo also foresaw in these multifarious contacts between East and West the roots of a peace-loving ecumenism. He ‘firmly believed that perpetual peace in the world depends on such cooperation between nations, upon understanding and mutual appreciation between the peoples of all races and different types of culture’.Footnote ⁴³ In his view, to advance world peace, scientific cooperation should be a two-way street, a channel through which both ends would benefit from each other's views and ways ‘as the common heritage of mankind’.Footnote ⁴⁴

Needham was particularly receptive to Lo's proposals, which he forcefully defended in Britain.Footnote ⁴⁵ This support may be explained by the fact that Lo's call for international cooperation resonated with Needham's biological faith in the transformative power of cooperation. In a statement addressed to Chinese scholars in January 1940, Needham placed as much emphasis on the terms of cooperation as on the peace-building promises such a scheme could bring about.Footnote ⁴⁶ He argued that ‘in all the interest of human progress, it behoved scholars and scientists of East and West to join more closely than heretofore in correlating their knowledge and traditions’ to bring about the necessary unity on which durable peace could be built.Footnote ⁴⁷ Like Lo, he also expressed concern at cooperation schemes that consisted merely of a cultural influx from Europe and North America. Needham depicted the establishment of a dialogical cooperation as the scientist's responsibility, and as the best means to satisfy ‘the demand from all corners of the earth for a cessation of disunity’.Footnote ⁴⁸ The notion of disunity bore a strong evolutionary connotation in Needham's biological outlook. He associated disunity with lower levels of organization that constituted a major impediment to the advancement of a peaceful ‘world commonwealth’. Typical of Needham's early Chinese activism, this plea shows the evolutionary foundations that motivated his engagement in favour of East–West scientific cooperation before and during the SBSCO. Hence China appealed to Needham because its state and condition resonated with his bio-Marxist sensitivities. He sensed in China the potential that his particular SRS outlook led him to expect from science.

Needham's statement to Chinese scholars illustrates how Lo had catalysed his British partners. His lectures spurred the local Sino-British circles actively to promote war cooperation with China. The campaign eventually paid off, and British and Chinese authorities subsequently entered negotiation on the matter.Footnote ⁴⁹ In Britain, Oxford and Cambridge disagreed on the nature of the cooperation with China. Oxford dons, among them G.R. Hughes, privileged cultural cooperation since China was believed to have a stronger, more vivid tradition in philosophy than in the natural sciences, where ‘the Chinese did not come alongside western scientists’.Footnote ⁵⁰ In Cambridge, Needham and his group defended science-centred proposals, in line with Lo's memoranda. Their views finally prevailed in a context where scientific exchanges became a locus of cultural relations. After the outbreak of war, there was a growing demand for scientific information, scientific and engineering equipment, and technical and scholarly expertise among Britain's allies, which was particularly felt by the British Council and its offices abroad.Footnote ⁵¹ Facing this demand, the council expanded its activities to include scientific exchanges. Needham's friend, the science journalist and SRS exponent James Gerald Crowther, orchestrated these from 1941 as the secretary of its Science Department. As I will explain in more detail below, this scientific approach to cultural relations was especially important in China, where trading prospects and political importance grew enormously following the Japanese invasion. As Crowther recalled, the council decided in February 1942 to endorse his suggestion to appoint Needham as the leader of its scientific mission, starting the following May.Footnote ⁵²

On the eve of his departure to Chongqing, China was therefore neither a discovery nor a mystery to Needham. For over half a decade, China had increasingly fascinated him. In his Marxist eyes, its future had risen into a political frontier with world significance. Its historical science was an enigma, and its current scientists were competent partners in the promising venture of international scientific cooperation. During his four-year mission, his 1930s world view further nourished his understanding of Chinese science, his evolutionary outlook helped to shape his views of science as unitary and ecumenical, and his SRS background finally led him to the formulation of his Grand Question.

The Sino-Japanese War and Needham's scientific mission in China

When Needham arrived in Chongqing in 1943, Republican China had been engaged in a devastating war of resistance against Japan's invasion for the past five years. Between the Marco Polo Bridge incidents of July 1937 that sparked Japan's invasion of China and Needham's arrival, Republican China suffered disastrous losses despite a valiant resistance. Territorially and economically, Republican China had lost its most fertile provinces and the industrially advanced centres of East China.Footnote ⁵³ By 1938, the nationalist government of Chiang Kai-shek was forced to flee to China's barren western regions and to make Chongqing its capital until the end of the war. If, from Chongqing, Chiang ruled over China's largest stretches of land, his government was weakened by the Japanese confiscation of substantial custom revenues drawn from China's eastern trading centres. It was also hampered by the disastrous loss of many of the best nationalist troops in the unsuccessful defence of Shanghai, the former capital Nanjing, and Wuhan.Footnote ⁵⁴ Even though most foreign observers predicted China's surrender by the end of 1938, Republican China kept on fighting thanks to a united front with Mao Zedong's north-eastern communist troops, Western material assistance from India and the Soviet Union, and the prospect of Western military involvement which Chiang hoped to obtain to defeat the Japanese.Footnote ⁵⁵

However, for the duration of the war, neither the United States nor Britain considered China a priority as they did Europe and the Pacific.Footnote ⁵⁶ Yet, if they refused to open up a full-scale campaign on Chinese soil, to Chiang's disappointment, both nations did recognize China's strategic value in slowing down Japanese troops. While, between 1938 and 1941, the US granted credits of up to $170 million to sustain China's war effort, cold relations between London and Chongqing, as well as limited resources, prevented Britain from matching US assistance.Footnote ⁵⁷ Despite China's heavy reliance on India for resupply, and Churchill's hope to see Japan's expansion towards Britain's South East Asian possessions slowed down by the Chinese front, relations between Chongqing and London remained tense, complicated by Britain's historical status as an imperialist conqueror. From the Opium War to the late 1920s, Britain had been the largest investor in China. However, British presence was almost exclusively commercial as London granted China little political value.Footnote ⁵⁸ Britain's brutal presence and humiliating practices fed Chinese Republicans’ anti-imperialist and nationalist discourses. A strong resentment of Britain emerged after the anti-imperialist protests of 1919 commonly known as the May Fourth Movement. Chiang's double agenda – seeking Western involvement in the war in China, and strengthening the country as an anti-imperialist model in the region – only further poisoned relations between Chongqing and London. On a visit to New Delhi in 1942 in order to tighten war cooperation between India and China, Chiang infuriated Churchill.Footnote ⁵⁹ During his time in India, Chiang did more than just discuss with the viceroy the deployment of Indian troops on the Chinese front. He went on to visit the leaders of the Congress Party, Jawaharlal Nehru and Mahatma Gandhi, with whom he discussed war cooperation as well as their shared interest in freeing India and China from Western colonial rule.Footnote ⁶⁰ Chiang's visit maddened Churchill, who became wary of engaging militarily with a regime feeding anti-British sentiments in India and likely to contest Britain's presence in the Far East once the war was over.

However, Britain's cooperation with China was not just a wartime necessity; it was a strategic issue for the post-war reconstruction of the region. Despite Churchill's mistrust of Chiang's anti-imperialist government, British involvement in the Chinese war effort became unavoidable if Britain's influence on the region was to be maintained after the war. Already weakened by the US-endorsed abolition of foreign concessions in China, following the 1943 Sino-British New Equal Treaty of 11 January 1943, Britain's presence in China and South East Asia was also threatened by growing US influence.Footnote ⁶¹ By late 1941, Roosevelt agreed to intensify US support to China's war effort with the Lend–Lease Act, which included provision of $200 million worth of loans in 1942 only, armaments, military expertise and other war material to Chiang's government.Footnote ⁶² Seven months later, Washington created the American Military Mission in China (AMMISCA) to improve the fighting efficacy of the Chinese army. Roosevelt also agreed to send troops such as the so-called ‘Flying Tigers’ of the American Volunteer Group to operate air raids against Japan from Chinese soil.Footnote ⁶³ The US helped Chiang to hamper Japan's expansion as well as to prepare China for a post-war existence as a regional, independent power that could challenge European imperial ambition to reclaim their lost colonies, and in turn strengthen US influence in the region.

Churchill despised the US attempts to raise China's global status – making China one of the Big Four – and feared for Britain's possessions in China, such as Hong Kong, which Roosevelt wanted to see back under Chinese sovereignty. Yet he was concerned to keep China in the war and to slow down Japanese westward advances. Recognizing the present and future need to improve relations with China, London provided military and financial aid to assist China's war effort.

Still, British aid remained small compared to that of the US. Churchill's material resources had already reached their limits.Footnote ⁶⁴ Militarily, London only managed to send in January 1942 two small guerrilla groups to China to establish training schools and carry out joint commando raids against the Japanese occupier – but these already had to be withdrawn by the autumn of 1942. Financially, British assistance hovered at around £50 million worth of loans; the United States came up with $500 million between 1942 and 1944.

London's inadequate resources and the popularity of the Chinese cause in Britain forced Churchill to consider other, mostly symbolic, ventures.Footnote ⁶⁵ Churchill and his Cabinet sought, for instance, to invite Chiang's influential wife Song Meiling to visit Britain. They endorsed Chiang's government with a Parliamentary goodwill mission to Chongqing in 1942 and they publicly honoured Chiang's leadership as well as regularly sending encouraging messages to Chongqing. Among these symbolic measures were also steps to develop cultural and scientific relations. These included the placing of visiting Chinese students in British universities, a visit by Oxford Professor E.R. Dodds to China, and Needham's mission in Chongqing.Footnote ⁶⁶ Endorsed by the British Council, Needham's scientific mission stood out prominently and would become one of Britain's most conspicuous contributions to the Chinese war effort.Footnote ⁶⁷

The war had not only interrupted scientific contact between Britain and China; it also disrupted the growth of a thriving scientific community.Footnote ⁶⁸ Though European science had been present in China since the Opium wars, it experienced significant growth following the anti-imperialist May Fourth Movement of 1919.Footnote ⁶⁹ This nationalist protest turned into a far-reaching intellectual revolution, which projected science and democracy in China as instruments to dismantle the country's traditional patterns and to enable modern, independent nationhood.Footnote ⁷⁰ As shown by Zuoyue Wang, the Science Society of China became a pivotal organization in the promotion of modern science in interwar China. Created by Chinese students in the US, Europe and Japan, the Science Society aimed to implement the expertise gained abroad to conduct China's reformation.Footnote ⁷¹ From its creation in 1918, the society worked closely with the Nationalists for the co-advancement of modern science and modern politics. During the so-called Nanjing decade (1927–1937) that saw the strengthening of the Chinese republic under the rise to power of Chiang's Kuomintang, the society joined with the government in creating multiple scientific institutions. These included the state-supervised Academia Sinica in 1928 and the National Peiping Research Academy a year later. Thanks to such initiatives Chinese science flourished throughout the 1930s, despite chronic financial shortcomings. As the centralized national scientific research institution, the French-inspired Academia Sinica stimulated the creation of a wide range of research institutes, mainly in natural sciences, such as the Institute of Meteorology in Nanjing and the Institute of Chemistry in Shanghai. In Beijing, the National Research Academy's half-dozen research institutes made valuable contributions until 1936, when political tension with the Japanese occupier in the neighbouring region of Manchuria forced the evacuation of several institutes to safer areas of the south.Footnote ⁷²

The evacuation of the National Peiping Academy pre-empted the fate of China's scientific institutions following the outbreak of war in 1937. The Japanese invasion profoundly affected Chinese science. Located in China's eastern regions, most research institutes were forced to move to safer locations first in the south and later in the west of China, following Japan's conquest of Shanghai in November 1937.Footnote ⁷³ Even though this large-scale operation was completed in the first year of the conflict, it was at the expense of massive material and human losses, including the destruction of twenty-three national universities and colleges and the abandonment of valuable equipment in the haste of retreat. Some institutions, like Nankai University, were left in ruins by targeted bombings, while others, such as the Honan University, had, as Needham witnessed, ‘not one single scientific or technical book left, all having been burnt by the Japanese on its numerous migrations’.Footnote ⁷⁴ In the west of China, the resupplying of scientific universities was difficult and inadequate despite the government's $1 million effort to purchase books and equipment.Footnote ⁷⁵ Though understaffed, underequipped and isolated, China's evacuated research staff continued to conduct research in basic science and to explore new fields of applied science and technology, such as industrial chemistry, in response to the needs of war.Footnote ⁷⁶

Shortly after his arrival in Chongqing, Needham modelled the SBSCO into China's main scientific post office, through which he stimulated contact between Chinese and Western scientists and organized material assistance to local scientists. Relying on RAF carriers operating between Calcutta and Chongqing, and aided by a handful of young Chinese scientists, Needham monitored the needs of local scientific communities and delivered them the requested books, laboratory equipment and relevant solutions to their problems when possible.

Needham also visited many of these communities, and during his four-year stay undertook multiple great journeys throughout Free China, from the front line in the neighbourhood of Kunming to the north-western towns of Lanzhou and Dunhuang on the border with the Soviet Union. On these journeys, Needham saw countless universities, industrial plants, research laboratories and arsenals, and talked extensively with scientists about their activities and problems. In Kunming, Needham visited the National South Western Associated University, ‘the greatest teaching centre of free China’, as well as a multitude of isolated research institutes scattered around Yunnan's capital and only reachable by ‘horse-cart, charcoal-burning bus, jeeps or car’.Footnote ⁷⁷ At the National South Western Associated University, Needham visited the chemical and physics institutes housed in huts built of mud bricks. In these precarious conditions, he witnessed scientists striving to conduct fundamental research on the distribution of cosmic rays and on thermodynamics, as well as more practical investigations on anti-malarial drugs and so forth. He noted how the war took a toll on the work, limiting physicists to more theoretical investigations, while ‘the lack of chemical reagents seriously hampered the work of the chemical laboratories’.Footnote ⁷⁸

Needham duly recorded these shortcomings and quickly organized the provision of books, tools, apparatus and chemical reagents to enable local scientists ‘to carry on their work, whether in pure science or in science applied to the war effort’.Footnote ⁷⁹ Via the SBSCO's Emergency Scientific Supplies Service, Needham responded to 333 orders from Chinese scientific and technological institutions during his stay. With two war trucks lent by the British Embassy, Needham delivered tubes of gas to the Qinghua University, optical glass to Peiping Academy and electric motors in crates to Chengdu's Chinese Air Force Experiment stations. Importantly, Needham also arranged for the provision of special research services by Western institutes, such as ‘the preparation of thin rock sections, chemical analyses, and map printing’ which the Chinese could not operate for lack of equipment or expertise. Exchange of expertise was mostly ensured by ‘the transmission of selected scientific and technological correspondence’ via diplomatic means and, more importantly, by the delivery of thousands of books, periodicals, maps and official government reports.Footnote ⁸⁰

Needham made a point of keeping Sino-British contact a two-way street. In between visits, Needham and the SBSCO disseminated news about the activities of Chinese scientists to the West via the science newsletter Acta Breva Sinensia, and submitted more than a hundred papers for publication in Western journals and periodicals. Needham also regularly reported on his mission, on China's war and on the state of Chinese science via a series of articles for Nature in 1943 and the photographic book Chinese Science in 1946. Finally, several scientific and state institutions, including the Ministry of Education, the Chinese Air Force Research Bureau and the Academia Sinica, nominated Needham special adviser. Needham was regularly consulted and gave about a hundred lectures on issues as diverse as the ‘Conditions and progress of scientific and university life in war-time England’, ‘Food and nutrition in wartime England’, ‘University organization’ and the philosophy of science.Footnote ⁸¹ Despite the demands of his mission as head of the SBSCO, Needham explored his keen interest in China's scientific heritage. He pursued investigations on the origins and nature of modern science, talking with local scholars, visiting ancient sites and lecturing at length on China's scientific history and the history of science between East and West.

Exploring China

Throughout his mission, Needham's evolutionary outlook continued to inform his first-hand studies of the past and present state of Chinese science. On the road Needham elaborated, from his observations, a narrative of unity and continuity between East and West, past and present science. He soon concluded that ‘there was only one international human science’, and that his Chinese colleagues were incontestably part of it.Footnote ⁸² Needham continually rejected the ‘ridiculous’ idea that ‘China had no science’ or that the Chinese were inherently unfit for the exigencies of scientific work.Footnote ⁸³ Instead, he celebrated the ingenuity and accomplishments of his Chinese colleagues. He was amazed by ‘the scientists and technologists, pertinacious beyond belief, [who] continued to carry on research and operate industrial plants under a lack of facilities which would surely daunt those of any other people’.Footnote ⁸⁴ In his accounts, Needham not only testified to the quality of their work, but also portrayed the Chinese scientists’ resourcefulness as the manifestation of the scientific spirit and method. Even ‘[w]ithout gas, running water, electric light, or any of the services generally regarded as necessary for scientific work’, Needham argued, the Chinese scientists, as true men of science, ‘contrived somehow to keep science going, both for its own sake, and for the defence of their country against a specific type of fascism, Japanese imperialism’.Footnote ⁸⁵ Ultimately, Needham regarded his colleagues ‘not as inferior or scientifically backward Orientals, but as full partners with us in the worldwide enterprise of human science and technology’.Footnote ⁸⁶ With these portrayals, Needham magnified a sense of commonness of cause and equality of standards between both communities. By melding Eastern and Western scientists into a single ecumenical embodiment of science, Needham ultimately exalted science's unity and universality.

On his journeys, Needham observed the new as attentively as he explored the old – China's scientific heritage – to the point where many of his colleagues thought his historical research came at the expense of his actual mission.Footnote ⁸⁷ Needham searched Chinese history from an evolutionary perspective. In the face of increasing evidence of past technical and theoretical achievements, he sought systematically to find out what, how and when the Chinese had contributed to science's growth, and more importantly why science had stopped progressing in China for so long. As he had predicted in Britain, Needham quickly discovered that ancient Chinese science offered enough fodder to re-evaluate the origins of modern science. He eagerly revealed that ‘it was the Chinese who first discovered the magnetic compass, gunpowder, paper and printing’, which had all been considered European innovations in the growth of modern science.Footnote ⁸⁸ For Needham, these historical artefacts attested that China was as historically significant as Europe in the development of science. With his findings, Needham began to contemplate modern science as an ecumenical product rather than a strictly European invention.

In seeing science as one, the geographical and historical distance separating its communities would often vanish in Needham's enthusiastic picturing of Chinese science. This was particularly striking in his repeated recording of a curious practice. He noticed that universities and laboratories made a habit of occupying abandoned temples. He recorded, for instance, the case of the Academia Sinica's anthropological institute, which was housed on the rooftop floor of an ‘incredible romantic pagoda housing the god of Literature’, or that of ‘a drug research laboratory housed in an old Buddhist temple’.Footnote ⁸⁹ When noticing how the pagoda was used, Needham underlined the historical continuity between these ancient spaces and their modern scientific usage, which resonated with the discussions he had had with local scholars on Buddhism and science prior to his visit to the institute. These two cases, where past wonders and present-day achievements were seamlessly intertwined, reflect Needham's tendency to see continuity in science as linear and unitary. China's rich scientific heritage seems also to have reinforced his high opinion of present-day science in China.

Throughout his Chinese peregrinations, Needham composed a narrative of continuity and unity between past and present science as well as between Western and Eastern scientific developments. When repeatedly telling the Chinese, ‘Science was your inheritance as much as mine’, Needham made science a unifying ecumenism to whose advancement all traditions had continued to contribute.Footnote ⁹⁰ Yet Needham was not oblivious to China's current difficulties, and as much as he aspired to see a direct link between past and present, he was well aware of the gap that separated Chinese science's former prestige and present rebirth.

Needham was as astonished by Chinese science's ancient advancement as he was baffled by the stagnation it had experienced over the last centuries. This incongruity led him eventually to formulate his Grand Question. As mentioned earlier, Needham scholars have presented the posing of this question as an epiphanic moment for Needham. As a result, they have largely investigated it in dissociation from his pre-war views, conceptions and intentions. However, we have seen that Needham had already extensively studied the social causes behind scientific change prior to his time in China. His historical investigations constituted an integral part of his Marxist outlook, which he maintained once in China. ‘If we cannot understand the past’, he argued to the Chinese Agricultural Association, ‘we have not much hope of controlling the future’.Footnote ⁹¹ The same activist approach to historical writing guided the way Needham approached the paradox of Chinese science. At the same time as he strove to uncover the natural and socio-economic factors precipitating the fall of China's ancient science, he would immediately turn these historical insights into a political resource to outline the promising revival of Chinese science.

In trying to explain the mysterious halt of science's growth under the Ming dynasty (1368–1643), Needham turned to the same factors that he had earlier considered in studying the growth of Western science: ‘geographical, climatic, social and economic conditions’.Footnote ⁹² This standpoint was particularly well articulated in the lecture ‘Science and agriculture in China and the West’ that Needham gave before the Chinese Agricultural Association in Chongqing, in February 1944. This paper addressed China's scientific paradox in relation to the development of its agriculture, and forcefully argued that the rise of what Needham called ‘Asiatic bureaucratism’, and ‘the failure of Capitalism to arise in China … had something to do with the failure of modern science to arise in China’.Footnote ⁹³ In subsequent years, Needham would generalize this development as the crucial factor for understanding why modern science had grown in the West rather than in China. In Needham's view, China's geography and climate had dulled the growth of maritime life, and prevented the formation of a powerful class of merchants that was necessary for the eventual rise of capitalism. China's social order had produced a powerful bureaucracy that further marginalized the all-important class of merchants. Water scarcity had necessitated China's development of this bureaucratic culture, in order to maintain control over the millions of labourers that were needed to carry out the waterworks that were indispensable for sustaining agriculture. Needham noted that the rise of bureaucratism and the civil servant eventually lessened the need for new forms of knowledge, and hence for science. In Europe, the capitalist spirit of the merchant class had bolstered the need to know ‘the properties of matter in inanimate things’, in order to sell and buy the products they had brought back from the newly discovered Americas.Footnote ⁹⁴ This demand for new knowledge in turn paved the way for the growth of the fundamental disciplines of modern science: physics, chemistry and biology. But none of this had happened in China. Hence, Needham argued, it was ‘because of the differences in climatic conditions, in geographical conditions and as a result in social and economic conditions’ that China's and Europe's scientific traditions ‘had to follow these different courses’.Footnote ⁹⁵

Needham's lecture on science and agriculture illustrates how deeply his investigations of China were entrenched in his scientific Marxism. Just as he had done for Western science, Needham pointed to the feudal context rather than the inherent features of Chinese science to grasp both its past glory and its enigmatic failure to elicit a scientific revolution. For Needham, Chinese science failed to transform from traditional to modern not because it lacked the qualities to bring about such a change, nor because it was somehow simply inherently different from Western science. It did so only because of its entanglement with feudal bureaucratism; this was what made science become specifically Chinese. Hence Needham explained science's diversity in light of its social and material contexts alone. Chinese and European science existed separately due to their contextual differences rather than because of inherent differences of an epistemological or ontological nature. Needham did not believe science to be qualitatively different in different cultures. Only its level of development depended on cultures, not its contents.

In concluding his lecture, Needham reasserted this faith in science's unity when he proclaimed that ‘there was no such thing as “foreign” or “Chinese” science’ in absolute terms.Footnote ⁹⁶ Science was a uniquely universal endeavour whose diversity only arose once the context of its undertaking was considered – just the same consideration he had given in his investigations of the 1930s. Just as he had then regarded science as becoming Nazi (and therefore degenerated) as it was subordinated to irrational racialist theories, Needham now saw science as becoming Chinese (and vegetative) from the moment when bureaucratic order tamed its vitality. To understand the decline of Chinese science, Needham therefore adopted the same scientific Marxism that he had used to differentiate capitalist, Nazi and communist science back in Cambridge.

The Marxist roots of Needham's Grand Question are particularly striking in his use of the concept of Asiatic bureaucratism.Footnote ⁹⁷ The German historian Karl Wittfogel had elaborated this notion in the 1920s, based on Marx and Engels's notion of an Asiatic mode of production.Footnote ⁹⁸ Needham used both the notion of Asiatic bureaucratism and that of an Asiatic mode of production to explain the failure of Chinese science.Footnote ⁹⁹ It is true that these notions had been condemned by the Marxist orthodoxy since the early 1930s.Footnote ¹⁰⁰ As Gregory Blue has pointed out, Stalin himself had orchestrated the rejection of the notion of an Asiatic mode of production from the canon of Marxism at a crucial Soviet conference on oriental studies held in Leningrad in 1931.Footnote ¹⁰¹ This had led many Marxist scholars, including Wittfogel, to abandon it. What this shows, however, is how distant scientists like Needham were from the official Soviet orthodoxy. As Gary Werskey has shown, Britain's ‘scientific left’ had remained relatively untouched by Marxism throughout the 1920s and was therefore spared the Soviet grip that held Marxist theory in continental Europe in the 1930s.Footnote ¹⁰² Needham himself did not even join the British Communist Party as his friend Bernal did. But his distance from orthodoxy did not imply a rejection of Marxist historical interpretation, and his use of the notions of an Asiatic mode of production and Asiatic bureaucratism does testify to a Marxist historiographical framework, however dissenting or heterodox.

Needham always concluded his reports on the history of China's science by laying down the path forward, arguing that socialism, and implicitly the advancement towards superior organizational orders, could elicit a much-awaited rebirth of the country's scientific tradition.Footnote ¹⁰³ In investigating China's past, Needham continuously engaged with its present and future, reflecting his long-standing tendency to weld scholarship and Marxist politics. Needham's forward-looking propensity had featured in his historical investigations since the early 1930s, and similarly impregnated the formulation of his concept of ecumenical science. As we will see in the following section, Needham conceptualized ecumenical science not only as a historiographical instrument, but also as the foundation of his political engagement at UNESCO for a reorganization of post-war international science.

Needham scholars have almost exclusively remembered Needham's concept of ecumenical science as a historiographical notion. But it also bears a distinct and crucial political thrust that becomes visible once its formulation is considered in relation to his promotion of science at UNESCO. Originally, Needham travelled in China not to investigate its past scientific glory, but to organize contact between British and Chinese scientists. The seclusion of China's scientific communities reinforced Needham's belief that without an adequate organization and the infrastructural means to facilitate international contact, science's universalism would remain illusory. Through the arduous task of establishing East–West contact, he became convinced that science needed a large-scale reorganization on the international level to liberate its universal features. Much of Needham's activism on this subject went back to December 1943, when he corresponded with T.V. Sung, the Chinese minister of foreign affairs at the time.Footnote ¹⁰⁴ ‘The time has gone when enough can be done by scientists working as individuals. What I should like to see’, Needham wrote to Sung, ‘is some kind of World Science Cooperation Service [whose] immediate aims … would be the conveyance of the most advanced applied and pure science from the highly industrialized western countries to the less highly industrialised eastern ones’, with, he insisted, ‘plenty of scope for traffic in the opposite direction too’.Footnote ¹⁰⁵ Needham further elaborated this need, which he called the ‘periphery principle’, in his first ‘Memorandum on an international co-operation service’ in the summer of 1944.Footnote ¹⁰⁶ From then and until the decisive negotiations at the 1945 Conference for the Establishment of the United Nations Educational, Scientific and Cultural Organization, Needham published three widely distributed memoranda to advocate such an ecumenical reorganization of international science under UN auspices.Footnote ¹⁰⁷ In this final section, we will see that the concept of scientific ecumenism served to strengthen this plea and to legitimize the mobilization of international science for UNESCO's peace-building purposes. Hence seeing Needham's scientific ecumenism in relation to the periphery principle reveals its political as well as its historiographical functions.

Needham's proposal to include science in UNESCO epitomized the growing politicization of science in the late 1940s. The Second World War inaugurated a new scientific era by placing technoscientific development at the heart of the political process, both at the national and international levels.Footnote ¹⁰⁸ As John Krige and Kei-Henrik Barth pointed out, nation states and international organizations alike made science an inherent part of the post-war political and diplomatic process.Footnote ¹⁰⁹ Based on the ties established between science and the war effort, industrialized and industrializing nations sought to turn scientists and their expertise into strategic assets vital to their growth and continuity as much as to their diplomatic power and political solidity.Footnote ¹¹⁰ At the international level, many like Needham found in the emerging United Nations a space to mobilize science for the promotion of peace. When Needham obtained the creation of a Natural Science division at UNESCO in 1946, the French physiologist and deputy secretary general of the UN Henri Laugier advocated at the United Nations Economic and Social Council (ECOSOC) the creation of UN-sponsored international laboratories. Meanwhile the UN Security Council led negotiations on the peaceful development of atomic energy and the Food and Agriculture Organization (FAO) and World Health Organization (WHO) turned to scientific and technological research to tackle reconstruction, hunger and overpopulation issues.Footnote ¹¹¹

The war and its termination hence offered Needham a unique opportunity finally to implement his vision of science as a powerful machinery for progressive and peaceful social change, a vision which he had theorized and promoted since the early 1930s. Needham believed that science could shepherd humankind to a higher and more harmonious organizational order, because it emulated nature's cooperative mechanics of evolution.Footnote ¹¹² When finalizing his first memorandum, Needham continued to foresee the dawn of peace in cooperation. He proposed science as the ideal candidate to foster the post-war peace that the architects of the UN sought to establish. Reflecting on UNESCO's peace mission, he declared in his 1948 Boyle lecture that UNESCO's ‘most obvious way to carry out its purpose for peace was to encourage all those ways in which people from many countries meet together to do a concrete job of work’. Needham continued by arguing that ‘there was no field which had a stronger tradition of international community work than that of the natural sciences, and it could indeed be taken as a model’.Footnote ¹¹³ Since scientists were ‘world-minded’ and science was ‘essentially and traditionally international and cooperative’, Needham made it clear at UNESCO's preparatory commission that the scientist could well be UNESCO's best agent for the promotion of world peace.Footnote ¹¹⁴ It might then appear that Needham embraced a traditional form of scientific internationalism based on the so-called functionalist idea of an erosion of national allegiances through transnational loyalties among technical groups. However, reducing Needham's internationalism to mere functionalism would ignore its ecumenical foundations.

While developing his fascination for China's past and present, Needham started to envision science as an ecumenical human endeavour. Science grew over a long period of time and ‘was the result of co-operation between men and the accumulation from one age to another’. It was clear that ‘the peoples of the whole world have all made their contributions’.Footnote ¹¹⁵ Through its ecumenism, science had a unique unifying power. In investigating science's historical development, Needham saw Eastern and Western cultures in dialogue contributing together to human progress. Needham openly questioned the use of expressions such as ‘foreign’ or ‘Western’ science and contended instead that ‘there is only one international human science – it is our common possession’.Footnote ¹¹⁶ Importantly, the ecumenism that engendered modern science was not only a thing of the past. Needham foresaw new scientific and political opportunities in its revival. If ecumenical exchanges between Eastern and Western scientific traditions had spawned modern science, Needham trusted it would bring about its future advancement as well. Hence the revival of science's ecumenism would be the pathway towards the ‘inauguration of one whole collective society’. ‘If we make further efforts in this direction’, Needham claimed to the staff and students of West China Union University in Hua Ta, ‘the age of “All within the four seas are one family” will not be far distant’.Footnote ¹¹⁷ In the torment of war, but with its end in sight, Needham stated that a truly international science would be ‘the forecast of the world of tomorrow, as well as the inheritance of scientists the world over’.Footnote ¹¹⁸ The problem, which Needham would attempt to tackle months later at UNESCO, was to turn international science from a Western to an ecumenical structure.

In his three memoranda, Needham turned his ecumenical view of science into both a critique of the existing laissez-faire organization and a non-Eurocentric plan for the reorganization of international science in the service of peace. While the Conference of Allied Ministers of Education (CAME), the constitutional antechamber of the future UNESCO, had focused on the post-war reconstruction of science in Europe, Needham set the goals of a reorganization of international science outside the West. Needham postulated that science's natural internationalism could only be effective if science was first truly universal in practice. However, he had observed in China many isolated communities of scientists, which appeared to him as demonstrations of the limits of science's universality. From these experiences, Needham came to see international contacts and cooperation in science as complex organizational challenges rather than self-evident consequences seamlessly unfolding from the practice of science. He rejected what he called the ‘laissez-faire’ organization of science, or ‘this parochial theory … that in science everyone knows everyone else, and can, therefore, easily get in touch when any problem arises which calls for it’.Footnote ¹¹⁹ Needham argued that ‘the “laissez-faire” dons [who] look at the scene too exclusively from the Euro-American point of view, [and who] think of oscillating between Paris, Brussels, London, New York … do not realize that the picture of world science looks very different when seen from Romania, Peru, Java, Siam or China’.Footnote ¹²⁰ So far, international exchanges had been mostly confined to what Needham called the ‘“Bright Zone” covering Europe and North America where all the sciences were relatively advanced’. Now it was time to expand scientific cooperation to the ‘Dark Zone’ of the rest of the world.Footnote ¹²¹

One main vehicle for achieving this goal was to be the International Science Cooperation Service (ISCS) that Needham had first proposed to Minister Sung. Its chief challenge consisted in the durable organization of Eastern science and East–West scientific contacts. Needham made clear that the ISCS's mission was to ‘not interfere too much within the “bright zone” and to assist particularly the scientists and technologists in the far regions of the world outside the bright zone who’, he believed, ‘needed the helping hand of international science’.Footnote ¹²² By tackling the imbalanced development of science, the ISCS would overcome the ‘inevitable national loyalty’ and fundamentally Western emphasis of the existing structures of international science such as international congresses and unions.Footnote ¹²³ The ISCS could consequently make supranational loyalty possible and enable the full expression of science's peace-making qualities since, through it, scientists from China to Britain would work together to broaden the pool of knowledge, and would thereby extend the capacities of science to serve humankind's most pressing needs. The spirit of Needham's ecumenical view ended up pervading the policy proposals that the preparatory commission – summoned by the constituent conference to discuss and define UNESCO's mandate and programme – submitted to UNESCO's first General Conference in September 1946. In the report of its natural science subcommittee, Needham and his colleagues hence declared that ‘to ensure a lasting peace, steps – such as the ISCS – must be taken to smooth out as quickly as possible the quantitative differences in “scientific density” which now exist between different regions, and thus minimise, if not remove, the tensions which invariably lead to war.’Footnote ¹²⁴ In December 1946, the General Conference not only approved Needham's proposals but also appointed Needham director of UNESCO's natural science division. In the two years he remained in function he would try to realize his ecumenical vision. He organized multiple major international conferences outside the West (in Uruguay, Peru and Chile, among other places).Footnote ¹²⁵ He established ‘field science cooperation offices’ in Latin America and in East and South Asia for the purpose of strengthening contacts between the scientists here and in the main centres of research of the West. And he planned to establish international laboratories in all corners of the ‘Dark Zone’, such as the International Institute for the Hylean Amazon (IIHA) in 1947.Footnote ¹²⁶ For Needham all these activities were part of the grand task of building ecumenism in science.