Frits Went's atomic age greenhouse: the changing labscape on the lab-field border.

In Landscapes and Labscapes Robert Kohler emphasized the separation between laboratory and field cultures and the creation of new "hybrid" or mixed practices as field sciences matured in the early twentieth century. This article explores related changes in laboratory practices, especially novel designs for the analysis of organism-environment relations in the mid-twentieth century. American ecologist Victor Shelford argued in 1929 that technological improvements and indoor climate control should be applied to ecological laboratories, but his recommendations were too ambitious for the time. In the postwar period Frits W. Went, plant physiologist at the California Institute of Technology, created a new high-tech laboratory, dubbed a "phytotron", in the hope that it would transform plant sciences by allowing for unprecedented control of environmental variables. Went's aspirations, the research conducted in his laboratory, and its impact in initiating an international movement, are considered. Went's laboratory can be seen as a "hybrid culture" evolving in the laboratory, complementing and intersecting with some of the field practices that Kohler describes. It was also a countercultural movement against the reductionist trends of molecular biology in the 1950s and 1960s. By considering the history of the laboratory in relation to field sciences, we can explore how new funding sources and cross-disciplinary relations affected the development of field sciences, especially in the postwar period.

Maintaining continuity through a scientific revolution: a rereading of E. B. Wilson and T. H. Morgan on sex determination and Mendelism.

A rereading of the American scientific literature on sex determination from 1902 to 1926 leads to a different understanding of the construction of the Mendelian-chromosome theory after 1910. There was significant intellectual continuity, which has not been properly appreciated, underlying this scientific "revolution." After reexamining the relationship between the ideas of key scientists, in particular Edmund B. Wilson and Thomas Hunt Morgan, I argue that, contrary to the historical literature, Wilson and Morgan did not adopt opposing views on Mendelism and sex determination. Rather, each preferred a non-Mendelian explanation of the determination of sex. Around 1910, both integrated the Mendelian and non-Mendelian theories to create a synthetic theory. One problem was the need to avoid an overly deterministic view of sex while also accepting the validity of Mendelism. Morgan's discovery of mutations on the X chromosome takes on different significance when set in the context of the debate about sex determination, and Calvin Bridges's work on sex determination is better seen as a development of Morgan's ideas, rather than a departure from them. Conclusions point to the role of synthesis within fields as a way to advance scientific theories and reflect on the relationship between synthesis and explanatory "pluralism" in biology.

Designing nature reserves: adapting ecology to real-world problems.

Establishing nature reserves is the foundation of regional conservation strategies. The science of nature reserve design is relatively new, having emerged alongside the interdisciplinary field of conservation biology over the past three or four decades. Its goal is to apply scientific ideas and methods to the selection and design of nature reserves and to related problems, such as deciding what kinds of buffer zones should surround reserves or how to establish corridors to link reserves and allow organisms to move from one area to another. As in other areas of conservation biology, designing nature reserves is a 'crisis' science, whose practitioners are driven by an acute sense of urgency over the need to stem the loss of species caused by human population growth.