The Mexican government’s civil aviation program implemented elite development strategies during a period of national reconstruction. In the decades following the revolution, political leaders and industrialists attempted to strike a balance between preserving a unique national identity and asserting their country’s place in global affairs as a competitive, modern nation. Nation builders were primarily concerned with improving the nation’s communication and transportation capabilities, although they quickly learned to exploit the spectacle of aviation through the mass media and in public ceremonies, as well. The symbolic figure of the pilot proved an adept vessel for disseminating the values championed by the country’s ruling party. Aviators validated the technological determinism underpinning the government’s development philosophy, while projecting an image of strength abroad.
This article traces the trajectory of aviation development from 1920s through the 1950s. In the process it demonstrates how the social and cultural significance of technology in Mexico changed over time. The establishment of the Department of Civil Aeronautics under the Secretariat of Communications and Public Works (SCOP), in 1928, reflected the ambitions of reform-minded officials who were intent on modernizing the country. Although the onset of the Great Depression slowed aviation development for about a decade, policymakers recommitted to the technology during World War II. President Manuel Ávila Camacho (1940–1946) used it to achieve two of his primary goals: securing the country from the threat of international fascism and shifting the nation from an agrarian to an industrial economy. Wartime aid alleviated material obstacles hamstringing national aviation development, and the rapid growth of tourism to the country in 1940s and 1950s benefited commercial airlines. Presidents Miguel Aléman (1946–1952) and Adolfo Ruiz Cortines (1952–1958) touted the success of the aviation industry as a consequence of their development policies. The near financial collapse of the country’s largest airline, Compañía Mexicana de Aviación (CMA), at the end of the decade nevertheless hinted that the country’s sustained economic growth was less miraculous than officials and foreign observers liked to believe.
The early study of radioactivity (an important precursor to nuclear science) in Mexico was intertwined with a brilliant and determined woman’s arrival in the country. Marietta Blau Goldwin—Jewish by birth, a physicist by training, and a refugee by circumstance—helped pioneer nuclear emulsions by creating a portable technique that revolutionized the field. Blau, recommendation from Albert Einstein in hand, fled the Nazi’s invasion of Austria and arrived in Mexico City in 1938. There she initiated studies in atomic physics while teaching at the National Polytechnic Institute. This dramatic start to the country’s initial foray into the study of the atom illuminated how global political processes were inextricable from the development of nuclear science. Although her departure to the United States in 1944 impeded the momentum building behind atomic research, a core group of scientists at the National Autonomous University (UNAM) worked with government officials to promote nuclear technology during and after World War II. With the help of the Atoms for Peace program, this coalition of boosters succeeded in bringing a particle accelerator to the country in 1952.
Argentina and Brazil developed nuclear programs that rivaled, if not surpassed, the scope and complexity of Mexico’s during the post–World War II era. These three nations vied for recognition as regional authorities between 1964 and 1967, as countries throughout Latin America sent delegates to Mexico City to grapple with the so-called nuclear question. Talks culminated in the 1967 Treaty for the Prohibition of Nuclear Weapons in Latin America, commonly known as the Tlatelolco Treaty. The language of the agreement focused on curtailing the proliferation of nuclear weapons but also carried implications for nuclear power’s adoption as an energy source. The Tlatelolco negotiations led to the formation of two blocs: one, led by Mexico, championed a cautious approach to nuclear development, and the other, led by Argentina and Brazil, resisted limitations on such programs. Examining the varying trajectories of Mexico, Argentina, and Brazil’s respective nuclear programs illustrates how Cold War issues took on distinctly regional characteristics as government officials reinterpreted them in ways that accounted for unique national agendas.
Bradley Skopyk and Elinor G. K. Melville
The onset of Spanish imperial rule in Mexico in 1521 had profound consequences well beyond the political and cultural spheres. It also altered Mexico’s environment, reconstituting the region’s ecology as new fauna, flora, and microorganisms were added and as the population dynamics of native Mexican biota fluctuated in response to Old World arrivals. While the consequences of myriad interactions between native and non-native species were vast and complex, it was the decimation of indigenous persons by pathogens that was one of the first biological consequences of colonization (in fact, occurring first in 1520, one year before the fall of the Aztec state) and one of the most important. Mexican human populations were reduced by 80 to 90 percent, effecting cascading ecological consequences across the physical and biological geography of Mexico. Forests regenerated, terraced slopes degraded, and much of the Mexican landscape lost its anthropogenic aspect. Simultaneously, ungulate introductions transformed Mexican flora and likely initiated soil erosion in some regions that, when transported to fluvial environments, disrupted the flow of rivers. On the other hand, pigs, sheep, goats, horses, and other ungulates altered plant communities through selective seed dispersion. New economic pursuits such as brick making and silver mining increased demand for heat energy that, in an unprecedented manner, encouraged intensive forest usage and, probably, regional deforestation, although empirical data on historical forest cover are still lacking.
Severe climate variability, of a scale not experienced for at least five hundred years and perhaps many millennia, occurred simultaneously with colonial-induced ecological change. A significant conquest-era drought was followed by one of the coolest and wettest periods of the Holocene; a strong pluvial in the Mexican context lasted from 1540 to around 1620. Subsequent anomalies of both temperature (cold) and precipitation (either wet or dry) occurred in the 1640s and 1650s, and from the 1690s until about 1705. Together, these climate anomalies are known as the core Little Ice Age, and initiated agrarian transitions, hazardous flooding, prolonged droughts, epidemics, epizootics, and recurring agrarian crises that destabilized human health and spurred high rates of mortality. Soil degradation and suppressed forest cover are also likely outcomes of this process. Although debate abounds regarding the timing, extent, and causes of soil and water degradation, there is little doubt that extensive degradation occurred and destabilized late-colonial and early-Republic societies.
María Rosa Gudiño Cejudo
In August 1940, President Franklin D. Roosevelt, concerned with Nazi infiltration in the Americas and continental defense, created the Office of Inter-American Affairs (OIAA) and appointed Nelson Rockefeller coordinator. To strengthen ties between the United States and Latin America, including Mexico, Rockefeller implemented cultural programs that included Health for the Americas and Literacy for the Americas to teach illiterate rural inhabitants to read and write in Spanish, and to inform them about health, prevention, and hygiene. Both programs used educational cinema as their main teaching tool, and the OIAA hired filmmaker Walt Disney to produce the films. The health series included thirteen animated cartoons with an average duration of ten minutes, dubbed in Spanish and Portuguese. The themes were drawn in part from the guidelines set out at the XI Conferencia Sanitaria Panamericana (Eleventh Pan-American Health Organization Conference; Rio de Janeiro, Brazil, 1942) to address health care and sanitation. A group of psychologists, cartoonists, health authorities, teachers, and OIAA representatives carried out surveys and field work in various countries before production and test screening began. In this process, Mexico differed from the other countries involved because of Walt Disney’s connections with Mexican schools. Eulalia Guzmán, representative of the Secretaría de Educación Pública (Secretary of Public Education), led in reviewing the educational films, and Disney attended classes with local teachers to discuss the use of film as a teaching tool. In 1943, through the Programa Cooperativo de Salubridad y Saneamiento (Health and Sanitation Cooperative Program) of the Secretaría de Salubridad y Asistencia (Ministry of Health and Assistance, the films were shown in health campaigns throughout Mexico.
Today, the death of women during pregnancy, childbirth or postpartum is considered simultaneously a public health, social inequality, and gender discrimination problem. In Mexico, approximately one thousand women die each year during pregnancy, childbirth, postpartum or from an unsafe abortion, experiencing a premature and sudden death in the midst of their most productive years, often with lasting consequences for their families and surviving children. As elsewhere, the great majority of these deaths would not have occurred if women had had prompt and unlimited access to quality emergency obstetric care, as well as easy access to contraceptives to prevent unwanted pregnancies. Most deaths are related to the substandard quality of available maternal healthcare services; services that are provided for free to most Mexican women in an overly saturated and underfunded public health system that also tends to overmedicalize and pathologize normal births. Their prematurity and abruptness, their occurrence in the process of giving life, the fact that these deaths exclusively affect women, and their avoidable nature make maternal mortality unacceptable in today’s social, political, and ethical arenas.
From an historical perspective, deaths in childbirth were much more common in past centuries than today; these deaths were considered inevitable and were accepted as natural occurrences until the late 19th century. However, surrounding rituals, the meaning attached to these deaths, related notions of womanhood and motherhood, and practices to prevent or avoid them, underwent changes according to broader sociocultural, political and religious transformations from Pre-Hispanic times to the 20th century.
As elsewhere, in Mexico maternal deaths declined considerably in the 1930s–1950s with the discovery of penicillin and the concomitant decline of puerperal fever; they reached a plateau in the 1960s and 1970s and began to slowly decline again in the 1980s–1990s with an even steeper decrease after the signature of the United Nations (UN) Millennium Development Goals in the year 2000; time when the reduction of maternal mortality became one of eight high-priority global public policy objectives, closely monitored by UN bodies.
Maternal deaths are a reflection of ingrained multiple social inequalities that characterize Mexican society at large; poor, rural, marginalized and Indigenous pregnant women face a 2–10 times higher risk of dying than the rest of Mexican women, because their access to contraception and to prompt and high quality obstetric emergency care is more limited. Today, research in the field of maternal mortality etiology, measurement and reduction includes the call for women-centered respectful maternal care, the elimination of discrimination in the provision of obstetric services and the application of a human rights perspective to health policies, programs, and care.
Before there was Mexico, there was oil. Millennia of organic matter that collapsed and liquefied into fossil fuel rested deep underground and underwater along the half-moon territorial formation that 19th-century geographers named the Mexican Gulf. Hidden by the lush tropical rainforests, marshes, and mangroves that occupied the landscape from the Pánuco River on the border between modern day Tamaulipas and Veracruz and the Bay of Campeche on the South, the oil seeped to the surface in small ponds, sometimes blackening the waters of streams and lagoons from Tabasco to the Huasteca. The human communities who inhabited that part of the globe thousands of years later knew about and utilized nature’s oozing sticky black tar.
The Olmec, who flourished in southern Veracruz from 1200 to 400
Although their history can be traced further back to the study of heredity, variability, and evolution at the beginnings of the 20th century, studies on the genetic structure and ancestry of human populations became important at the end of World War II. From 1950 onward, the tools and practices of human genetics were systematically used to attack global health problems with the support of international health organizations and the founding of local institutions that extended these practices, thus contributing to global knowledge. These developments were not an exception for Mexican physicians and human geneticists in the Cold War years. The first studies, which appeared in the 1940s, reflect the emerging model of human genetics in clinical practice and in scientific research in postwar Mexico. Studies on the distribution of blood groups as well as on variant forms of hemoglobin in indigenous populations paved the way for long-term research programs on the characterization of Mexican indigenous populations. Research groups were formed at the Ministry of Health, the National Commission of Nuclear Energy, and the Mexican Social Security Institute in the 1960s. The key actors in this narrative were Rubén Lisker, Alfonso León de Garay, and Salvador Armendares. They consolidated solid communities in the fields of population and human genetics. For Lisker, the long-term effort to carry out research on indigenous populations in order to provide insights into the biological history of the human species, disease patterns, and biological relationships among populations was of particular interest. Alfonso León de Garay was interested in studying human and Drosophila populations, but in a completely different context, namely at the intersection of studies on nuclear energy and its effects on human populations as a result of World War II, with the life sciences, particularly genetics and radiobiology. In parallel, the study of chromosomes on a large scale using newly experimental techniques introduced by Salvador Armendares in Mexico in 1960 allowed researchers to tackle child malnutrition and health problems caused by Down and Turner syndromes. The history of population studies and genetics during the Cold War in Mexico (1945–1970s) shows how the Mexican human geneticists of the mid-20th century mobilized scientific resources and laboratory practices in the context of international trends marked by WWII, and national priorities owing to the construction movement of postrevolutionary Mexican governments. These research programs were not limited to collaborations between research laboratories but were developed within the institutional and political framework marked at the international level by the postwar period and at the national level by the construction of the modern Mexican state.
Andrés Ríos Molina
In Mexico, there were hospitals for the “demented” from the early years of the Spanish colony. It was not until the second half of the 19th century, however, that the first physicians interested in alterations of the brain published articles on the etiology, symptomatology, and treatment of mental illnesses. Within a larger context of health reforms launched during the presidency of Porfirio Díaz (1876–1911), known as the Porfiriato, healthcare officials decided to close the hospitals for the insane and construct a modern institution where psychiatry could grow as a discipline and where patients could be treated using scientific methods. Furthermore, along with the economic and cultural development that took place during the Porfiriato, there was an increase in the number of patients admitted to hospitals for the insane, while at the same time the number of doctors interested in the clinical treatment of mental illnesses increased, as well. The officials’ decision became a reality on September 1, 1910—just two months before the Revolution broke out—when La Castañeda General Asylum was opened. It was a complex of twenty-four buildings in the town of Mixcoac. In addition to being an institution for patient care, it was also where the first generations of Mexican psychiatrists and neurologists were trained. As early as the 1930s, the asylum began to have problems with overcrowding, unhealthy conditions, and deterioration of the facilities. The doctors there repeatedly called for the patient care system to be restructured. In 1944, a psychiatric reform called the “Castañeda Operation” began, seeking to decentralize psychiatric care and to use agricultural work as a therapeutic tool. The result was the creation of seven new hospitals and the permanent closure of the asylum in 1968. Recent historiography on psychiatry from its beginnings in the Porfiriato to the time of that reform have shown that it was a period marked by the rise and fall of a utopian dream, that of the therapeutic effectiveness of psychiatric internment. It was a transition from the single, large asylum in the capital city to a network of hospitals that relied on outpatient care, early detection, and medication as a way to dismantle the asylum model. As a result, La Castañeda General Asylum has held a privileged place in historical study as the stage for the beginning, the development, and the consolidation of Mexican psychiatry.
The prevention of communicable diseases, the containment of epidemic disorders, and the design of programs and the implementation of public health policies went through important transformations in Mexico, as in other Latin American nations, between the final decades of the 19th century and first half of the 20th century. During that period not only did the advances in medical science make possible the identification and containment of numerous contagious diseases; it was also a time when the consolidation of formal medical institutions and their interaction with both national and international actors contributed to shape the definitions and solutions of public health problems. Disease prevention strategies were influenced by medical, scientific, and technical innovations and by the political values and commitments of the period, and Mexico experienced profound and far-reaching political, economic, and social transformations: the apogee, crisis, and downfall of the long Porfirio Díaz regime (1876–1910), the armed phase of the Mexican Revolution (1910–1920), and the period of national reconstruction (1920–1940). Thus, during the period under consideration, and alongside the consolidation of an official medical apparatus as an integral part of public power, the promotion of public health became a crucial element to reinforce the political unification and the social and economic strength of the country.
The control and eradication of smallpox have been among the most studied and chronicled topics in histories of health and medicine, which is not coincidental considering the dramatic nature of the disease, the official measures developed to deal with it, and the declaration in 1980 by the World Health Organization of its global eradication. Smallpox first erupted in Mexico-Tenochtitlán in 1520 during the Spanish conquest, and in 1952 the health authorities and the federal government declared that that long-feared disease had finally been eradicated there. Numerous historical studies have perpetuated the image of a single smallpox campaign in Mexico, free from conflicts, problems, and inertia. Recent scholarship, however, has increasingly emphasized that smallpox vaccination efforts were not homogenous or consistent, that they were not pursued equally in all geographic and cultural regions, and that vaccination strategies and campaigns gradually became less coercive and more selective and persuasive.
“Technology” is the practical expression of accumulated knowledge and expertise focused on how to mediate and manipulate the world. Scholars and contemporary observers of Mexico have long characterized production methods there as unchanging and lagging well behind the standard in the Atlantic world, but there are few systematic studies of technology in Mexican history, and especially for the critical 19th-century era of early modernization.
Mexico’s first half century of independence (c. 1820–1870) saw relatively little technological change. In spite of a number of sustained efforts to introduce the technologies—such as railroads, steam power, and iron manufacturing—that were transforming economic life and production in Great Britain and the United States, production methods in Mexico remained small scale and artisanal. Textile manufactures were a partial exception, as there were several dozen large-scale factories, powered by water turbines and occasionally by steam, that spun and wove thread. But the substantial obstacles to innovation discouraged or undermined most attempts.
The next forty or so years, however, could not have been more different (c. 1870s–1920). As political stability slowly settled over most of the country, investment in economic activities picked up, slowly at first, then more rapidly into the 1880s and beyond. Initially focused on railroad transport and mining, new investments from both Mexican and foreign entrepreneurs diversified into a wide range of manufacturing enterprises, commercial agriculture, and urban infrastructure and commerce. Tightly linked to the concurrent dramatic expansion of the Atlantic economy—the so-called second industrial revolution—this expansion pushed demand for new technologies of production and swept across the country, transforming production, productivity, and the working and consuming lives of Mexicans at nearly all levels of society. The result was substantial modernization, manifest as economic growth as well as social dislocation.
Individuals and firms proved able to adopt and commercialize a wide range of new production technologies during this period. This success was not matched, however, by substantial local assimilation of new technological knowledge and expertise, that is, by a process of technological learning. Until the 1870s, Mexican engineers, mechanics, and workers had scant opportunities to work with and learn from production technologies appearing in the Atlantic world. When new machines, tools, and processes swept across Mexico thereafter, adopting firms typically hired technical experts and skilled workers from abroad, given the scarcity of expertise at home. This became a self-reinforcing cycle, perpetuating dependence on imported machines and imported know-how well into the 20th century.
Nahua peoples in central Mexico in the late postclassic period (1200–1521) and the early colonial period (1521–1650) had a sophisticated and complex system of healing known as tiçiyotl. Titiçih, the practitioners of tiçiyotl, were men and women that had specialized knowledge of rocks, plants, minerals, and animals. They used these materials to treat diseases and injuries. Furthermore, titiçih used tlapohualiztli (the interpretation of objects to obtain information from nonhuman forces) to ascertain the source of a person’s ailment. For this purpose, male and female titiçih interpreted cords, water, tossed corn kernels, and they measured body parts. Titiçih could also ingest entheogenic substances (materials that released the divinity within itself) to communicate with nonhuman forces and thus diagnose and prognosticate a patient’s condition. Once a tiçitl obtained the necessary information to understand his or her patient’s affliction, he or she created and provided the necessary pahtli (a concoction used to treat an injury, illness, or condition) for the infirm person. Finally, titiçih performed important ritual offerings before, during, and after healing that insured the compliance of nonhuman forces to restore and maintain their patients’ health.