Dania Achermann
Thumbnail Image
Title
Prof. Dr.
Last Name
Achermann
First name
Dania
Email
dania.achermann@unisg.ch

Filters

Reset filters

Settings
Now showing 1 - 10 of 12
  • Publication
    Berner Nuklearphysiker revolutionierte die Klimaforschung
    (Universität Bern, 2020)
    Dania Achermann
    Bis in die 1950er-Jahre hatte das Studium von Eis und das Erforschen von Klima wenig miteinander zu tun. Glaziologen interessierten sich hauptsächlich für Volumen und Bewegung von Gletschern, derweil Klimatologen klassischerweise Daten zu Lufttemperatur, Feuchtigkeit und Windstärke sammelten, um damit verschiedene Klimazonen zu beschreiben. Wie kam es also, dass Gletschereis zu einem so wichtigen Forschungsgegenstand der Klimaforschung wurde? Zwei Wissenschaftler gelten heute als Pioniere dieser Entwicklung: Die beiden Physiker Hans Oeschger (1927–1998) und Willi Dansgaard (1922–2011). Obwohl keiner der beiden ein klassisch ausgebildeter Klimatologe oder Glaziologe war, machten sie ihre Karriere in der Eis- respektive Klimaforschung.
    Type: journal article
    Journal: UniPress – Forschung und Wissenschaft an der Universität Bern 176 (2020)
    URL: https://boris.unibe.ch/140996/1/up_179_s_28_achermann_ger.pdf
    URI: https://www.alexandria.unisg.ch/handle/20.500.14171/119737
  • Publication
    Type: book-chapter
    Journal:
    Schlüsselwerke der sozialwissenschaftlichen Klimaforschung
    Soziologie der Nachhaltigkeit
    URL: https://www.transcript-verlag.de/chunk_detail_seite.php?doi=10.14361%2F9783839456668-013
    DOI: 10.14361/9783839456668-013
    URI: https://www.alexandria.unisg.ch/handle/20.500.14171/119702
  • Publication
    Type: book-chapter
    Journal: Ice and Snow in the Cold War
    DOI: 10.1515/9781785339875-004
    URI: https://www.alexandria.unisg.ch/handle/20.500.14171/119705
  • Publication
    From Climatology to Climate Science in the Twentieth Century
    ( 2018-07-18)
    Matthias Heymann
    ;
    Dania Achermann
    This chapter provides a short historical account of major developments and shifts in twentieth-century climate research. It explores a pattern of changes in the study of climate: from a geographical to a physical science; from an empirically focused study to a theory-based one; from the collection of measurements and descriptions to a search for causes and explanations; and from a bottom-up, local-scale practice to an increasingly top-down, global-scale science. The chapter pays particular attention to the roles of temporal and spatial scales, namely to the globalization of climate knowledge. A globalization of climate science and knowledge shifted attention away from local and regional human–climate interactions and the role of climate in human affairs to the investigation of purely physical processes, represented in differential equations.
    Type: book-chapter
    Journal: The Palgrave Handbook of Climate History
    DOI: 10.1057/978-1-137-43020-5_38
    URI: https://www.alexandria.unisg.ch/handle/20.500.14171/119706
    Scopus© Citations 11
  • Publication
    Institutionelle Identität im Wandel: Zur Geschichte des Instituts für Physik der Atmosphäre
    (Transcript Verlag, 2016-02-01)
    Dania Achermann
    Luftverschmutzung, Wetterbeeinflussung und Klimaveränderung stellen seit Ende des Zweiten Weltkrieges neue Herausforderungen an die sich rasant entwickelnden Atmosphärenwissenschaften. Zudem haben technologische Innovationen wie Düsenflugzeuge, Radar und Computermodelle das Spektrum der Forschungsmethoden verändert und erweitert. Welche Auswirkungen hatte dies auf ein wissenschaftliches Institut, das sich der Erforschung der Atmosphäre verschrieben hatte? In ihrer Analyse des Instituts für Physik der Atmosphäre (IPA) zeigt Dania Achermann, wie wichtig Probleme der Atmosphäre geworden sind und welche Rolle die institutionelle Identität für die Entwicklung und das Überleben des IPA spielte.
    Type: case review (law)
    Journal: Science Studies
    URL: https://www.researchgate.net/publication/312214960_Institutionelle_Identitat_im_Wandel_Zur_Geschichte_des_Instituts_fur_Physik_der_Atmosphare_in_Oberpfaffenhofen
    DOI: 10.14361/9783839431429
    URI: https://www.alexandria.unisg.ch/handle/20.500.14171/119686
  • Publication
    Investigating Past Climate Changes: The ice core drill
    ( 2021)
    Dania Achermann
    Web-Exhibition „Weathered History–The Material Side of Past Climate Change”/„Wetterseiten der Geschichte: Objekte als Zeugen historischen Klimawandels”, Martin Bauch und Diana Lucia Feitsch (Hgg.), Leibnitz-Institut für Geschichte und Kultur des östlichen Europa (GWZO) gehosted von Google Arts and Culture.
    Type: digital resource
    URL: https://artsandculture.google.com/exhibit/weathered-history/hwJiMeBlg6zDLg
    URI: https://www.alexandria.unisg.ch/handle/20.500.14171/119739
  • Publication
    Climate Science: A culture of predictions
    ( 2019)
    Dania Achermann
    ;
    Matthias Heymann
    ;
    Gabriel D. Henderson
    ;
    Janet Martin-Nielsen
    A web exhibition on history of climate modelling This website examines the emergence and predominance of climate modelling as a culture of prediction. It shows that the interests in climate and the research directions to investigate climate have been diverse and changed enormously during the twentieth century. From the 1970s on, climate modeling has played a major role in forging a scientific consensus about climatic change. One of its most important results have been climate projections. Based on simulations with complex Earth System Models such projections have become an iconic product of this thriving science. However, scientific consensus tends to hide the conflicts, complex negotiations and tangible interests behind the consensus itself. This exhibition attempts to show fundamental and contested changes in climate science by taking a look at a few crucial representatives of climate science and many relevant documents.
    Type: digital resource
    URL: https://history.aip.org/exhibits/climatology/
    URI: https://www.alexandria.unisg.ch/handle/20.500.14171/119740
  • Publication
    (New) Histories of Science, in and beyond Modern Europe: Introduction
    ( 2024-01-27)
    Dania Achermann
    ;
    Fabian Link
    ;
    Volker Remmert
    ;
    Cécile Stephanie Stehrenberger
    Over the past few decades, history of science has changed enormously and developed into a very dynamic and diversified field of historical research. Today, it includes subjects from not only the history of the natural sciences, medicine and mathematics, but also of the social sciences, the humanities as well as the study of the relationship between science and technology. Since the 1950s, also inspired by emerging approaches in the philosophy and sociology of science, new questions of scientific practice, gender or knowledge transfer have stimulated the field and contributed to the historization of scientific knowledge and institutions. In addition to a focus on nation-states, history of science also embraces inter- or transnational or global perspectives, taking postcolonial and decolonial aspects into consideration as well (e.g., Ludwig et al. 2022; Harding 2011; Seth 2017). The methods and theoretical approaches, too, have emerged from a great variety of institutional settings and disciplinary contexts across the globe. Inter- and multidisciplinary practices have become the norm rather than the exception in the history of science, and the field has seen intensified reflections of the relationship between science and other forms of knowledge (Östling et al. 2020; Sarasin 2011). Given these diversifying developments, it seems no longer adequate to call this discipline “history of science”. Rather, it might be labelled as “histories of science”, understanding “science” as Wissenschaften in the German sense, including the natural sciences, mathematics, medicine, the humanities, the social sciences as well as the study of technology. With this Special Issue, we aim to emphasize this diversity of today’s histories of science as a vibrant field of research. Introductory monographs and volumes typically focus on the history of the natural sciences (Hagner 2001; Kragh 1989; Serres 2002; Sommer et al. 2017). The history of technology often appears as a separated field of research (see König 2009). The series “Cambridge History of Science” does have a volume on the history of the social sciences (Porter and Ross 2008), but none on the history of the humanities. The latter still seems to be very separated from the general history of science, as if C. P. Snow’s dictum of the “two cultures” (scientists and literary intellectuals) was set in stone. In this Special Issue, (New) Histories of Science, in and beyond Modern Europe, we do not attempt to provide an all-encompassing overview of all research areas, methodological and theoretical approaches, and narratives that constitute the histories of the various sciences. Instead, we present contributions on a broad spectrum of current research topics and (new) approaches, highlighting their ramifications and illustrating their ties to neighboring disciplines and (interdisciplinary) areas of research, e.g., philosophy of science, science and technology studies, gender studies, or intellectual history. Moreover, the contributions exemplify how histories of science can be written in ways that not only move across but also challenge temporal and spatial categories and categorizations, including hegemonic understandings of “modernity”, Eurocentric views of the development of science and the humanities, or certain notions of center-periphery. They deal with histories of specific disciplines, specific research objects and phenomena, and with specific practices, while they also explore the historicity of certain ideals of scientificity (in the sense of the German Wissenschaftlichkeit). Furthermore, some papers are dedicated to selected methods and perspectives of current approaches in the histories of science. Among them is a focus on practices, including the everyday actions involved in engaging in science, but also on the specific spaces and places of knowledge production, as well as on the media of knowledge transfer and communication. Emphasizing diversity and dynamics might give the impression of a certain arbitrariness. Therefore, we want to shortly introduce the articles and provide some background on what aspects they represent. The articles by Rens Bod and Philippe Fontaine present two relatively new research fields in the histories of science in its broad conception: the history of the humanities and the history of the social sciences. Bod is one of the leading scholars voting for a comprehensive new field called “history of the humanities”, which should reach beyond the traditional and often Eurocentric histories of single humanities’ disciplines often written by experienced scholars who were socialized in the respective discipline. But what are the epistemic elements holding the humanities together? This is one of the main questions discussed in this new field, and Bod suggests to apply “patterns”, which would allow speaking of the humanities as such (Bod 2013, 2022). In the history of the social sciences, the methodological and theoretical discussions are of a different nature. The differences between specific social sciences (such as economics, sociology, psychology, human geography, etc.) require intense reflection on what defines them as social sciences and what methods are suitable for their historical analysis (see Backhouse and Fontaine 2010). Fontaine reflects the historiographical traditions in this field of research, emphasizing specific disciplinary histories on the one, and more general intellectual history on the other hand. According to Fontaine, scholars have increasingly combined these traditions and implemented the transnational turn in the past twenty years, and consequently, such historiographical polarizations have come to an end. Fontaine’s and Bod’s articles both highlight the need for approaches transcending Eurocentric narratives. So does Sonja Brentjes’ contribution, where a different issue is center stage, namely the question of how to arrive at a good historiographical balance between content and context in order to understand the achievements and the shortcomings of scientific communities in past Islamicate societies. Contrasting investigations of content with investigations of context leads to conflict, exclusion and closure, she argues. Instead, Brentjes pleads for extensive cooperation to mutually benefit from the very diverse backgrounds of the scholars in this area. This, however, would require “to recognize the contradictions, mistakes or relative simplicity in an authorial or artisanal product without, however, denying such a product and its maker the right to serious historical analysis” (pp. 280–81). The tension between context and content approaches is also a hot topic in the history and historiography of mathematics. Traditionally, the history of mathematics presents itself as relatively autonomous field in the history of science and technology, often practiced by mathematicians themselves. In their article, Jenny Boucard and Thomas Morel provide an overview of this field of research and discuss new research topics that are more on the context side of historiography: mathematical education, the inclusion of actors previously neglected such as school teachers, or the influence of bureaucracies in the cultural development of mathematics. The younger trend in historiography of mathematics exploring education is related to aspects of articulation, mediation and circulation of scientific knowledge, which is also a major focus in the history of knowledge (see Bod 2022; Secord 2004). Two articles of this Special Issue explicitly historicize communication practices in scholarship. Kristian H. Nielsen discusses histories of science communication and identifies two main contradictory narratives: widening gaps between science and the public on the one hand, building bridges through dialogue, engagement, and participation on the other. What unites them, according to Nielsen, is the fact that science communication is not a distorted form of science but the sum of social conversations around science. Josep Simon explores another area that touches the topic of “science communication:” scientific publishing. He demonstrates the vitality this research field showed in the past decades and how it furthers interdisciplinary cooperation with fields such as book history, the history of education and communication studies. Communication and information gathering practices are changing rapidly in the computer age. In their article, Anna Siebold and Matteo Valleriani provide an overview of the latest developments in digital history. For the history of science, one of the main advantages of using digitized sources is the possibility to identify networks of scientists and scholars and to describe their complex behavior in such a network during a certain period of time. With the digital age and the seemingly endless possibilities of the internet in general and social media in particular, new groups of actors are questioning the leading roles of scientists and scholars in society. They present themselves as experts, even though they follow a style of thought that previously was labelled as “pseudoscientific”. The relationships between science and “pseudoscience”, between the known and the unknown, success and error, and consideration and ignorance, are examined by Lukas Rathjen and Jonas Stähelin in their analysis of the dialectical constitution of scientific knowledge. The authors demonstrate how the exploration of this dialectical constitution allows for a novel comprehensive way of unpacking how images and ideals of science are constituted epistemically as well as socially through processes of inclusion and exclusion. Inclusive and exclusive processes of (re)negotiating what science can and should be are often tied to specific sites of science and scholarship. Such sites are the main focus of the papers by Donald L. Opitz and Jan Surman. According to Opitz, the ubiquity and distinctiveness of domestic sites for scientific research attracted a great amount of research in the past years. The relationship between amateur and professional science and gender aspects in science have been prominent topics. Focusing on the role of domestic spaces in knowledge production, scholars have been able to trace how scientific developments in their various historical contexts have been embedded in gender-, class-, and race-based social structures and power relations. Surman, in contrast, considers scholarship in transnational empires as a tool to transcend national narratives in the history of science. He argues that the imperial history of science plays an important role in revising the post-/decolonial history of sites having been under imperial rule, taking Central and Eastern Europe as example. Jeremy Vetter, too, emphasizes the role of embeddedness in his discussion of the field. The field as such, as well as in its interplay with the laboratory, has been one of the most important material, virtual and discursive places of engaging in modern science in many disciplines, ranging from biology to cultural anthropology. As Vetter shows, the work of field scientists and the process of becoming a scientist in the field was shaped by power relations on various spatial scales and also influenced by colonialism. The development of science, particularly the natural and the field sciences, has often moved hand in hand with technological developments. Therefore, technology is a crucial aspect of today’s histories of sciences. However, inspired by the History of Technology and Science and Technology Studies, the focus has shifted from “technology as innovation” towards “technology-in-use”. Heike Weber’s contribution represents one aspect of this approach. It reflects on one of the newest topics in this field: repair, maintenance and the process of becoming obsolete. In this way, Weber situates technology in a temporal frame of its own. She emphasizes the importance of such technological temporalities not only for the history of science, but also for our thinking about ongoing debates of technological solutions in the “Anthropocene”. As editors, we hope that the contributions to this Special Issue may provoke discussions about the disciplinary matrix of the history of science and on its theoretical and methodological foundations. Can historians of the humanities use the same approaches as historians of the natural sciences? What is the role of the histories of social sciences and humanities next to the histories of the natural sciences and mathematics? And what kind of institutional structure would be required for exploring the histories of science in such a comprehensive way? At the same time, we hope that this issue provides an introduction and an entry point to the manifold research questions, objects and practices of historians of the sciences, the humanities, the social sciences, and technology. Finally, the various contributions illuminate the ramifications and richness of the relationship of histories of science to other fields of historical research. They show how histories of science have not only been inspired by many other fields of history, but how they deal with topics and research questions that might also inspire gender history, colonial history, media history, and environmental history. Moreover, they deal with research questions also relevant to many non-historical fields, such as the sociology of knowledge, or communication studies. In other words, the manifold histories of science offer approaches and tools to connect various interests both within history, and between history and its neighboring fields.
    Type: journal-article
    Journal: Histories
    Volume: 4
    Issue: 1
    URL: https://www.mdpi.com/2409-9252/4/1/5
    DOI: 10.3390/histories4010005
    URI: https://www.alexandria.unisg.ch/handle/20.500.14171/119685
  • Publication
    Vertical glaciology: The second discovery of the third dimension in climate research
    ( 2020)
    Dania Achermann
    The history of climate research in the 20th century has been characterised by a crucial shift from a geography-oriented, two-dimensional approach towards a physics-based, three-dimensional concept of climate. In the 1930s, the introduction of new technology, such as radiosondes, enabled climatologists to investigate the high atmosphere, which had previously been out of reach. This “conquest of the third dimension” challenged the surface-oriented, geographical notion of climate patterns and opened up climatology to a three-dimensional approach, which deeply changed the character of climate research. Two decades later, by drilling deep into polar glaciers and using the downward vertical dimension as an archive of the earth's history, ice core scientists began to reconstruct past climates layer by layer. The data retrieved in deep glacial layers contributed crucially to a temporal expansion of climate history far beyond human timescales. However, the inaccessibility of glaciers and the practical challenges of bringing fragile fragments of ice into transnational networks of scientific exchange meant that this vertical extension of climate knowledge production proceeded through a range of new scientific practices, and was shaped by new forms of international collaboration. Furthermore, this vertical approach to glaciers also asked for a new understanding of glacier volume. Drawing on archival and printed sources, I argue that ice core research represented a second discovery of the third dimension, this time downwards into the depth of the earth's surface, but again with decisive consequences for the research practice, for collaboration politics, and for understandings of climate, spatially as well as temporally.
    Type: journal-article
    Journal: Centaurus
    Volume: 62
    Issue: 4
    URL: https://onlinelibrary.wiley.com/doi/10.1111/1600-0498.12294
    DOI: 10.1111/1600-0498.12294
    URI: https://www.alexandria.unisg.ch/handle/20.500.14171/119703
    Scopus© Citations 9
  • Publication
    Type: journal-article
    Journal: NTM Zeitschrift für Geschichte der Wissenschaften, Technik und Medizin
    Volume: 27
    Issue: 2
    DOI: 10.1007/s00048-019-00213-y
    URI: https://www.alexandria.unisg.ch/handle/20.500.14171/119704
    Scopus© Citations 2