Lamont Radiocarbon Laboratory

Wally’s summer job at the Lamont Radiocarbon laboratory in 1952, where he worked with the conventional counters, triggered his interest in Earth science and extended into a life-long position. His 1957 thesis at Columbia University, “Application of Radiocarbon to Oceanography and Climatic Chronology,” outlined Wally’s main interests. Most of them he followed throughout his life, and the ¹⁴C dating was his most appreciated tool, which is evident from his publications (see Supplementary Material). He marveled at this isotope’s utility and drew helpful ¹⁴C cartoons in his Eldigio Press books (a publisher from Columbia University created to ensure the affordable price for the books). Known for his many achievements as a climate change visionary (Broecker Reference Broecker1975), Wally has also significantly impacted radiocarbon dating. In the early days of the radiocarbon, while at the Lamont ¹⁴C lab, Wally explored various archives and carbon reservoirs. The Lamont Natural Radiocarbon Measurements published in Science, American Journal of Science, and finally in Radiocarbon journal give an overview of the variety of samples. His studies ranged from the ¹⁴C in deep ocean water, corals and sediments to archeological samples, tree rings to the bomb ¹⁴C in the biosphere, including human beings. Laboratory inter-comparison and exchange between radiocarbon laboratories were essential. We will forever use the activity of 1890 wood from Palisades, NY, the Lamont campus (Broecker et al. Reference Broecker, Olson and Bird1959), as the baseline for 1950 calculations. The δ¹³C correction has been proposed in the same publication and revised after discussion with ¹⁴C colleagues (Broecker and Olson Reference Broecker and Olson1961).

Radiocarbon Ages of “Hand-Picked Foraminifera”—Wally and AMS ¹⁴C Dating in Zurich

Wally continued to use ¹⁴C as a vital dating tool or a tracer in his research, and his collaborations from early days continued and evolved. His active approach amplified his ability to draw connections between research problems. Such was the case of AMS, i.e., the new technique that became available in 1977. Wally was eager to access this tool, which would finally allow him to measure the ¹⁴C in foraminifera. With the possibility of dating a tiny amount of carbon, i.e., 10–20 mg, the “hand-picked foraminifera,” ventilation of the paleo-ocean could now be traced. In the early 1980s, the already existing collaborations with Hans Oeschger, the head of the counting radiocarbon laboratory at the University of Berne, and the inventor of a particularly precise version of the gas proportional counter, lead to a collaboration with the team of Willy Wölfli and Georges Bonani at ETH Zurich (Andree et al. Reference Andree, Beer, Oeschger, Broecker, Mix, Ragano, Ohara, Bonani, Hofmann, Morenzoni, Nessi, Suter and Wolfli1984, Reference Andree, Oeschger, Broecker, Beavan, Mix, Bonani, Hofmann, Morenzoni, Nessi, Suter and Wolfli1986; Broecker et al. Reference Broecker, Mix, Andree and Oeschger1984). The involvement was essential for the ETH ¹⁴C laboratory and its participation in climate research.

Samples of foraminifera, tufa, water, ostracods, macrofossils, and wood from various archives worldwide and with different radiocarbon ages were analyzed. Moreover, research collaborators and PhD students of Wally were also sending samples to the ETH lab, which was then involved in dating climatic events and archives from around the globe (Broecker et al. Reference Broecker, Andree, Wolfli, Oeschger, Bonani, Kennett and Peteet1988, Reference Broecker, Peteet, Hajdas, Lin and Clark1998; Bond et al. Reference Bond, Heinrich, Broecker, Labeyrie, Mcmanus, Andrews, Huon, Jantschik, Clasen, Simet, Tedesco, Klas, Bonani and Ivy1992, Reference Bond, Broecker, Johnsen, Mcmanus, Labeyrie, Jouzel and Bonani1993; Stute et al. Reference Stute, Clark, Schlosser, Broecker and Bonani1995; Lin et al. Reference Lin, Broecker, Anderson, Hemming, Rubenstone and Bonani1996; Putnam et al. Reference Putnam, Putnam, Andreu-Hayles, Cook, Palmer, Clark, Wang, Chen, Denton, Boyle, Bassett, Birkel, Martin-Fernandez, Hajdas, Southon, Garner, Cheng and Broecker2016).

From early 1989 I was lucky to be part of the ETH collaboration group and learn the basics of ¹⁴C from Sue Trumbore, who was completing her PhD with Wally. After I began taking care of the samples sent from Lamont for graphitization and AMS analysis, Wally extended the authorship list. Yellow Lamont-stamped envelopes with drafts of manuscripts arrived quite frequently. Sometimes letters would come before the manuscript; occasionally, additional figures were sent after the manuscript. Wally was in constant exchange with his collaborators. The draft drawing sent in June 1991 (Figure 1) was a work in progress on the manuscript investigating carbonate dissolution in the deep sea and its effect on the ¹⁴C ages of the core tops (Broecker et al. Reference Broecker, Klas, Clark, Bonani, Ivy and Wolfli1991).

Figure 1 A hand-drawn figure for the manuscript in preparation (June 1991) with the results obtained so far showing the ratio of CaCO₃ for various cores. The crosses are marking samples that arrived following the letter dated July 15, 1991.

It is an example of the many written exchanges, and it has a few graphic representations of data, which was so characteristic of Wally. The S-type arrows were typically pointing to the transition, data point, event. The figure (Figure 1) has been reproduced faithfully in the published manuscript (Fig. 10 in Broecker et al. Reference Broecker, Klas, Clark, Bonani, Ivy and Wolfli1991), but the very characteristic Wally-print could not be shown. After 30 years, reading this reminds me how privileged I was to witness and be part of the dynamic research projects. It was the open-minded and inclusive approach that inspired many scientists, and I was one of them. All who were curious and interested in science were welcome in this endeavor. In his account of 60 years in science (Broecker Reference Broecker2012), Wally reflects on the research and people he encountered and with whom he worked. The book is a joyful reading, sparked by Wally’s type of humor and stories. Reading it is a journey into the past but also the future because Wally Broecker, who looked at the history written in the archives, always focused on the future of our planet.