Christian Renggli receives the 2023 Paul Niggli Medal

IF 1.8 2区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY Swiss Journal of Geosciences Pub Date : 2024-01-29 DOI:10.1186/s00015-024-00451-w
{"title":"Christian Renggli receives the 2023 Paul Niggli Medal","authors":"","doi":"10.1186/s00015-024-00451-w","DOIUrl":null,"url":null,"abstract":"<figure><picture><source srcset=\"//media.springernature.com/lw685/springer-static/image/art%3A10.1186%2Fs00015-024-00451-w/MediaObjects/15_2024_451_Figa_HTML.jpg?as=webp\" type=\"image/webp\"/><img alt=\"figure a\" aria-describedby=\"Figa\" height=\"590\" loading=\"lazy\" src=\"//media.springernature.com/lw685/springer-static/image/art%3A10.1186%2Fs00015-024-00451-w/MediaObjects/15_2024_451_Figa_HTML.jpg\" width=\"459\"/></picture></figure><br/><p>The Paul Niggli Medal is Switzerland’s most prestigious award for young earth scientists who made outstanding contributions in the research fields of mineralogy, geochemistry, petrology, resource geology or solid-earth geophysics. The Paul Niggli Medal honours and supports young ambassadors of Swiss geoscience, who are either Swiss citizens or obtained at least two of their academic degrees in the Swiss university system (BSc or MSc and usually their PhD).</p><p>The Board of the Paul Niggli Foundation decided, in their annual meeting of 19 June 2023, to award the Paul Niggli Medal for the year 2023 to Christian Renggli, in recognition of his outstanding research using experimental methods to understand the properties of gas-solid reactions in volcanic systems on Earth, the Moon and Mercury.</p><p><i>Maria Schönbächler (ETH Zürich)</i>.</p><p><i>On behalf of the Foundation Council of the Paul Niggli Stiftung</i>.</p><p>It is with great pleasure that I provide this citation, together with Prof. Penny King from the Australian National University. This award recognises Christian’s wide-ranging and influential contributions to the development and application of experimental and theoretical methods to study the mobility and fractionation of volatile elements in gases and low-density fluids.</p><p>Christian J. Renggli studied geology at the University of Bern and did his Masters thesis in petrology and geochemistry at the Ludwig-Maximilian University in Munich, using experiments to study magma mixing processes. He then moved down-under and began a PhD project at the Australian National University, supervised by Penny King. His research combined results from natural samples with experimental and theoretical methods, studying reactions between gases and rocks. He applied these studies to Apollo samples returned from the Moon, the Earth, and the terrestrial planets.</p><p>Perhaps it is now time to create a link to Paul Niggli, who became famous for using thermodynamic principles to address petrological and geochemical problems. Niggli published numerous influential publications and his early book “Die leichtflüchtigen Bestandteile im Magma” argues that volatile elements in magmatic and other rocks must be regarded as separate phases that affect phase relations and mineral stabilities. He was one of the first to employ both early experimental constraints and thermodynamic principles to investigate geological processes. Chris Renggli, following Niggli’s footsteps, also conducts experiments, together with thermodynamic modelling and field constraints.</p><p>After completing his PhD, Chris moved to the University of Münster in 2018, initially with a postdoctoral fellowship from the Swiss National Science Foundation, and soon after he received a grant from DFG, the German Research Foundation. This research project revolved around the behaviour of sulfur during gas-solid interactions with a focus on explaining phenomena on Mercury, the Moon, and other terrestrial planets. Chris relates his experimental and theoretical approaches directly to planetary materials and space missions, such as the Apollo mission mentioned earlier and the BepiColombo mission to Mercury. He is also involved in studies concerned with the fractionation of so-called “non-traditional isotopes” during evaporation. I am sure, that much of this research will lead the way into a more thorough understanding of how evaporation, gas transport, and condensation affect volatile element cycles in magmatic and hydrothermal systems on the Earth and the other rocky planets.</p><p>Last, but not least, Chris is an excellent communicator of all things Earth science, he motivated undergrad students through assisting in laboratory exercises and undertaking field work on volcanic islands. He co-mentored several Masters and PhD students at ANU, in Münster, and elsewhere. It has always been a pleasure to discuss petrological and geochemical problems with him.</p><p>As mentors, active collaborators and friends, Penny King and I would like to congratulate Christian Renggli for the very well-deserved 2023 Niggli medal and we wish him all the best for a successful academic career.</p><p><i>Stephan Klemme (Universität Münster)</i>.</p><p>I am honoured and humbled to receive the 2023 Paul Niggli medal, and I extend my sincere gratitude to Stephan Klemme and Penny King for the generous Citation.</p><p>Twelve years ago, I left Switzerland on my path to become a planetary scientist. After more than a decade abroad my connection to Switzerland remains strong. This recognition means a lot to me and I hope that it will strengthen this connection. I thank the Paul Niggli Foundation for their support. It is a great honour to be among such a distinguished list of individuals who previously received this medal.</p><p>The path I followed over the past years was in no way planned. Instead, I followed my nose and got lucky! I got lucky with the opportunities that I found, and the many people that I met, who supported me in advancing my skills, broadening my knowledge, and then taking the next step. I never planned to become a planetary scientist, but always tried to pursue my interests. It is a great privilege to have had this opportunity and I am indebted to my family for their support and understanding for my choice of life path.</p><p>At the Ludwig-Maximilian University in Munich I studied volcanology and discovered the excitement of high temperature laboratory experiments. I thank Cristina De Campos, Kai Hess, Sebastian Wiesmaier, and Don Dingwell for showing me the ropes. All I added to the high temperature experiments since then were corrosive gases and toxic metals.</p><p>Moving to the Research School of Earth Sciences at the Australian National University for a PhD was an adventure. It was an exciting environment for a young scientist with a great community of PhD students across all the disciplines of the Earth Sciences, and from all the corners of the world. We shared many adventures from the many national parks around Canberra to the remote outback in the heart of Australia. Many of my fellow students have become good friends and tremendously enriched the experience for me.</p><p>I was incredibly lucky to have found in Penny King a fantastic supervisor and mentor. We had only met once over Skype before I booked the one-way flight to Australia, but my intuition was right. I am also thankful to Dick Henley from whom I learned so much. In my PhD, I had the chance to work on fundamental processes that appeared to be a niche subject in the Earth and Planetary Sciences. But it turns out that high-temperature gas-solid reactions are omnipresent from volcanic processes on Earth, to weathering on Venus, the sulfur cycle on the Moon or Mercury, and throughout the evolution of the solar system. I thrive to explore these environments and processes experimentally and contribute to our understanding of how planets form and evolve.</p><p>The Early Postdoc.Mobility Fellowship from the Swiss National Science Foundation gave me the time and resources to become a more independent researcher and provided me with a path to return to Europe. As much as I enjoyed living in Australia, it is very far away from home and family. The Fellowship also provided me with the experience of following up with an independent DFG research grant on “gas-solid reactions in hot, reduced planetary environments”.</p><p>Over more than five years at the University of Münster I’ve had the great pleasure to work with Stephan Klemme. He is a mentor and has become a friend. I am thankful for his unequivocal support in my research endeavours. Münster was a fruitful place for many collaborations. Notably, I was privileged to be involved in the collaborative research centre TRR170 “late accretion onto terrestrial planets”, which involves a network of planetary science institutions in Berlin, Münster and Göttingen. Collaborations with the group of Harry Hiesinger further gave me the chance to become involved in an ongoing planetary science mission, the ESA/JAXA BepiColombo probe on the way to Mercury.</p><p>Since October this year, I am now at the Max Planck Institute for Solar System Research in Göttingen under the leadership of Thorsten Kleine. It is at the same time a strange experience to be one of very few geoscientists among mostly astrophysicists and engineers, but it’s also exhilarating to build an experimental lab that is dedicated to provide links to ongoing and future space missions. I am excited to see what the future brings and thank you all once again from the bottom of my heart.</p><p><i>Christian Renggli (Max-Planck Institute for Solar System Research, Göttingen)</i>.</p><h3>Publisher's Note</h3><p>Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.</p><p><b>Open Access</b> This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/.</p>\n<p>Reprints and permissions</p><img alt=\"Check for updates. Verify currency and authenticity via CrossMark\" height=\"81\" loading=\"lazy\" src=\"data:image/svg+xml;base64,<svg height="81" width="57" xmlns="http://www.w3.org/2000/svg"><g fill="none" fill-rule="evenodd"><path d="m17.35 35.45 21.3-14.2v-17.03h-21.3" fill="#989898"/><path d="m38.65 35.45-21.3-14.2v-17.03h21.3" fill="#747474"/><path d="m28 .5c-12.98 0-23.5 10.52-23.5 23.5s10.52 23.5 23.5 23.5 23.5-10.52 23.5-23.5c0-6.23-2.48-12.21-6.88-16.62-4.41-4.4-10.39-6.88-16.62-6.88zm0 41.25c-9.8 0-17.75-7.95-17.75-17.75s7.95-17.75 17.75-17.75 17.75 7.95 17.75 17.75c0 4.71-1.87 9.22-5.2 12.55s-7.84 5.2-12.55 5.2z" fill="#535353"/><path d="m41 36c-5.81 6.23-15.23 7.45-22.43 2.9-7.21-4.55-10.16-13.57-7.03-21.5l-4.92-3.11c-4.95 10.7-1.19 23.42 8.78 29.71 9.97 6.3 23.07 4.22 30.6-4.86z" fill="#9c9c9c"/><path d="m.2 58.45c0-.75.11-1.42.33-2.01s.52-1.09.91-1.5c.38-.41.83-.73 1.34-.94.51-.22 1.06-.32 1.65-.32.56 0 1.06.11 1.51.35.44.23.81.5 1.1.81l-.91 1.01c-.24-.24-.49-.42-.75-.56-.27-.13-.58-.2-.93-.2-.39 0-.73.08-1.05.23-.31.16-.58.37-.81.66-.23.28-.41.63-.53 1.04-.13.41-.19.88-.19 1.39 0 1.04.23 1.86.68 2.46.45.59 1.06.88 1.84.88.41 0 .77-.07 1.07-.23s.59-.39.85-.68l.91 1c-.38.43-.8.76-1.28.99-.47.22-1 .34-1.58.34-.59 0-1.13-.1-1.64-.31-.5-.2-.94-.51-1.31-.91-.38-.4-.67-.9-.88-1.48-.22-.59-.33-1.26-.33-2.02zm8.4-5.33h1.61v2.54l-.05 1.33c.29-.27.61-.51.96-.72s.76-.31 1.24-.31c.73 0 1.27.23 1.61.71.33.47.5 1.14.5 2.02v4.31h-1.61v-4.1c0-.57-.08-.97-.25-1.21-.17-.23-.45-.35-.83-.35-.3 0-.56.08-.79.22-.23.15-.49.36-.78.64v4.8h-1.61zm7.37 6.45c0-.56.09-1.06.26-1.51.18-.45.42-.83.71-1.14.29-.3.63-.54 1.01-.71.39-.17.78-.25 1.18-.25.47 0 .88.08 1.23.24.36.16.65.38.89.67s.42.63.54 1.03c.12.41.18.84.18 1.32 0 .32-.02.57-.07.76h-4.36c.07.62.29 1.1.65 1.44.36.33.82.5 1.38.5.29 0 .57-.04.83-.13s.51-.21.76-.37l.55 1.01c-.33.21-.69.39-1.09.53-.41.14-.83.21-1.26.21-.48 0-.92-.08-1.34-.25-.41-.16-.76-.4-1.07-.7-.31-.31-.55-.69-.72-1.13-.18-.44-.26-.95-.26-1.52zm4.6-.62c0-.55-.11-.98-.34-1.28-.23-.31-.58-.47-1.06-.47-.41 0-.77.15-1.07.45-.31.29-.5.73-.58 1.3zm2.5.62c0-.57.09-1.08.28-1.53.18-.44.43-.82.75-1.13s.69-.54 1.1-.71c.42-.16.85-.24 1.31-.24.45 0 .84.08 1.17.23s.61.34.85.57l-.77 1.02c-.19-.16-.38-.28-.56-.37-.19-.09-.39-.14-.61-.14-.56 0-1.01.21-1.35.63-.35.41-.52.97-.52 1.67 0 .69.17 1.24.51 1.66.34.41.78.62 1.32.62.28 0 .54-.06.78-.17.24-.12.45-.26.64-.42l.67 1.03c-.33.29-.69.51-1.08.65-.39.15-.78.23-1.18.23-.46 0-.9-.08-1.31-.24-.4-.16-.75-.39-1.05-.7s-.53-.69-.7-1.13c-.17-.45-.25-.96-.25-1.53zm6.91-6.45h1.58v6.17h.05l2.54-3.16h1.77l-2.35 2.8 2.59 4.07h-1.75l-1.77-2.98-1.08 1.23v1.75h-1.58zm13.69 1.27c-.25-.11-.5-.17-.75-.17-.58 0-.87.39-.87 1.16v.75h1.34v1.27h-1.34v5.6h-1.61v-5.6h-.92v-1.2l.92-.07v-.72c0-.35.04-.68.13-.98.08-.31.21-.57.4-.79s.42-.39.71-.51c.28-.12.63-.18 1.04-.18.24 0 .48.02.69.07.22.05.41.1.57.17zm.48 5.18c0-.57.09-1.08.27-1.53.17-.44.41-.82.72-1.13.3-.31.65-.54 1.04-.71.39-.16.8-.24 1.23-.24s.84.08 1.24.24c.4.17.74.4 1.04.71s.54.69.72 1.13c.19.45.28.96.28 1.53s-.09 1.08-.28 1.53c-.18.44-.42.82-.72 1.13s-.64.54-1.04.7-.81.24-1.24.24-.84-.08-1.23-.24-.74-.39-1.04-.7c-.31-.31-.55-.69-.72-1.13-.18-.45-.27-.96-.27-1.53zm1.65 0c0 .69.14 1.24.43 1.66.28.41.68.62 1.18.62.51 0 .9-.21 1.19-.62.29-.42.44-.97.44-1.66 0-.7-.15-1.26-.44-1.67-.29-.42-.68-.63-1.19-.63-.5 0-.9.21-1.18.63-.29.41-.43.97-.43 1.67zm6.48-3.44h1.33l.12 1.21h.05c.24-.44.54-.79.88-1.02.35-.24.7-.36 1.07-.36.32 0 .59.05.78.14l-.28 1.4-.33-.09c-.11-.01-.23-.02-.38-.02-.27 0-.56.1-.86.31s-.55.58-.77 1.1v4.2h-1.61zm-47.87 15h1.61v4.1c0 .57.08.97.25 1.2.17.24.44.35.81.35.3 0 .57-.07.8-.22.22-.15.47-.39.73-.73v-4.7h1.61v6.87h-1.32l-.12-1.01h-.04c-.3.36-.63.64-.98.86-.35.21-.76.32-1.24.32-.73 0-1.27-.24-1.61-.71-.33-.47-.5-1.14-.5-2.02zm9.46 7.43v2.16h-1.61v-9.59h1.33l.12.72h.05c.29-.24.61-.45.97-.63.35-.17.72-.26 1.1-.26.43 0 .81.08 1.15.24.33.17.61.4.84.71.24.31.41.68.53 1.11.13.42.19.91.19 1.44 0 .59-.09 1.11-.25 1.57-.16.47-.38.85-.65 1.16-.27.32-.58.56-.94.73-.35.16-.72.25-1.1.25-.3 0-.6-.07-.9-.2s-.59-.31-.87-.56zm0-2.3c.26.22.5.37.73.45.24.09.46.13.66.13.46 0 .84-.2 1.15-.6.31-.39.46-.98.46-1.77 0-.69-.12-1.22-.35-1.61-.23-.38-.61-.57-1.13-.57-.49 0-.99.26-1.52.77zm5.87-1.69c0-.56.08-1.06.25-1.51.16-.45.37-.83.65-1.14.27-.3.58-.54.93-.71s.71-.25 1.08-.25c.39 0 .73.07 1 .2.27.14.54.32.81.55l-.06-1.1v-2.49h1.61v9.88h-1.33l-.11-.74h-.06c-.25.25-.54.46-.88.64-.33.18-.69.27-1.06.27-.87 0-1.56-.32-2.07-.95s-.76-1.51-.76-2.65zm1.67-.01c0 .74.13 1.31.4 1.7.26.38.65.58 1.15.58.51 0 .99-.26 1.44-.77v-3.21c-.24-.21-.48-.36-.7-.45-.23-.08-.46-.12-.7-.12-.45 0-.82.19-1.13.59-.31.39-.46.95-.46 1.68zm6.35 1.59c0-.73.32-1.3.97-1.71.64-.4 1.67-.68 3.08-.84 0-.17-.02-.34-.07-.51-.05-.16-.12-.3-.22-.43s-.22-.22-.38-.3c-.15-.06-.34-.1-.58-.1-.34 0-.68.07-1 .2s-.63.29-.93.47l-.59-1.08c.39-.24.81-.45 1.28-.63.47-.17.99-.26 1.54-.26.86 0 1.51.25 1.93.76s.63 1.25.63 2.21v4.07h-1.32l-.12-.76h-.05c-.3.27-.63.48-.98.66s-.73.27-1.14.27c-.61 0-1.1-.19-1.48-.56-.38-.36-.57-.85-.57-1.46zm1.57-.12c0 .3.09.53.27.67.19.14.42.21.71.21.28 0 .54-.07.77-.2s.48-.31.73-.56v-1.54c-.47.06-.86.13-1.18.23-.31.09-.57.19-.76.31s-.33.25-.41.4c-.09.15-.13.31-.13.48zm6.29-3.63h-.98v-1.2l1.06-.07.2-1.88h1.34v1.88h1.75v1.27h-1.75v3.28c0 .8.32 1.2.97 1.2.12 0 .24-.01.37-.04.12-.03.24-.07.34-.11l.28 1.19c-.19.06-.4.12-.64.17-.23.05-.49.08-.76.08-.4 0-.74-.06-1.02-.18-.27-.13-.49-.3-.67-.52-.17-.21-.3-.48-.37-.78-.08-.3-.12-.64-.12-1.01zm4.36 2.17c0-.56.09-1.06.27-1.51s.41-.83.71-1.14c.29-.3.63-.54 1.01-.71.39-.17.78-.25 1.18-.25.47 0 .88.08 1.23.24.36.16.65.38.89.67s.42.63.54 1.03c.12.41.18.84.18 1.32 0 .32-.02.57-.07.76h-4.37c.08.62.29 1.1.65 1.44.36.33.82.5 1.38.5.3 0 .58-.04.84-.13.25-.09.51-.21.76-.37l.54 1.01c-.32.21-.69.39-1.09.53s-.82.21-1.26.21c-.47 0-.92-.08-1.33-.25-.41-.16-.77-.4-1.08-.7-.3-.31-.54-.69-.72-1.13-.17-.44-.26-.95-.26-1.52zm4.61-.62c0-.55-.11-.98-.34-1.28-.23-.31-.58-.47-1.06-.47-.41 0-.77.15-1.08.45-.31.29-.5.73-.57 1.3zm3.01 2.23c.31.24.61.43.92.57.3.13.63.2.98.2.38 0 .65-.08.83-.23s.27-.35.27-.6c0-.14-.05-.26-.13-.37-.08-.1-.2-.2-.34-.28-.14-.09-.29-.16-.47-.23l-.53-.22c-.23-.09-.46-.18-.69-.3-.23-.11-.44-.24-.62-.4s-.33-.35-.45-.55c-.12-.21-.18-.46-.18-.75 0-.61.23-1.1.68-1.49.44-.38 1.06-.57 1.83-.57.48 0 .91.08 1.29.25s.71.36.99.57l-.74.98c-.24-.17-.49-.32-.73-.42-.25-.11-.51-.16-.78-.16-.35 0-.6.07-.76.21-.17.15-.25.33-.25.54 0 .14.04.26.12.36s.18.18.31.26c.14.07.29.14.46.21l.54.19c.23.09.47.18.7.29s.44.24.64.4c.19.16.34.35.46.58.11.23.17.5.17.82 0 .3-.06.58-.17.83-.12.26-.29.48-.51.68-.23.19-.51.34-.84.45-.34.11-.72.17-1.15.17-.48 0-.95-.09-1.41-.27-.46-.19-.86-.41-1.2-.68z" fill="#535353"/></g></svg>\" width=\"57\"/><h3>Cite this article</h3><p> Christian Renggli receives the 2023 Paul Niggli Medal. <i>Swiss J Geosci</i> <b>117</b>, 1 (2024). https://doi.org/10.1186/s00015-024-00451-w</p><p>Download citation<svg aria-hidden=\"true\" focusable=\"false\" height=\"16\" role=\"img\" width=\"16\"><use xlink:href=\"#icon-eds-i-download-medium\" xmlns:xlink=\"http://www.w3.org/1999/xlink\"></use></svg></p><ul data-test=\"publication-history\"><li><p>Published<span>: </span><span><time datetime=\"2024-01-29\">29 January 2024</time></span></p></li><li><p>DOI</abbr><span>: </span><span>https://doi.org/10.1186/s00015-024-00451-w</span></p></li></ul><h3>Share this article</h3><p>Anyone you share the following link with will be able to read this content:</p><button data-track=\"click\" data-track-action=\"get shareable link\" data-track-external=\"\" data-track-label=\"button\" type=\"button\">Get shareable link</button><p>Sorry, a shareable link is not currently available for this article.</p><p data-track=\"click\" data-track-action=\"select share url\" data-track-label=\"button\"></p><button data-track=\"click\" data-track-action=\"copy share url\" data-track-external=\"\" data-track-label=\"button\" type=\"button\">Copy to clipboard</button><p> Provided by the Springer Nature SharedIt content-sharing initiative </p>","PeriodicalId":49456,"journal":{"name":"Swiss Journal of Geosciences","volume":"60 1","pages":""},"PeriodicalIF":1.8000,"publicationDate":"2024-01-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Swiss Journal of Geosciences","FirstCategoryId":"89","ListUrlMain":"https://doi.org/10.1186/s00015-024-00451-w","RegionNum":2,"RegionCategory":"地球科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"GEOSCIENCES, MULTIDISCIPLINARY","Score":null,"Total":0}
引用次数: 0

Abstract

Abstract Image

The Paul Niggli Medal is Switzerland’s most prestigious award for young earth scientists who made outstanding contributions in the research fields of mineralogy, geochemistry, petrology, resource geology or solid-earth geophysics. The Paul Niggli Medal honours and supports young ambassadors of Swiss geoscience, who are either Swiss citizens or obtained at least two of their academic degrees in the Swiss university system (BSc or MSc and usually their PhD).

The Board of the Paul Niggli Foundation decided, in their annual meeting of 19 June 2023, to award the Paul Niggli Medal for the year 2023 to Christian Renggli, in recognition of his outstanding research using experimental methods to understand the properties of gas-solid reactions in volcanic systems on Earth, the Moon and Mercury.

Maria Schönbächler (ETH Zürich).

On behalf of the Foundation Council of the Paul Niggli Stiftung.

It is with great pleasure that I provide this citation, together with Prof. Penny King from the Australian National University. This award recognises Christian’s wide-ranging and influential contributions to the development and application of experimental and theoretical methods to study the mobility and fractionation of volatile elements in gases and low-density fluids.

Christian J. Renggli studied geology at the University of Bern and did his Masters thesis in petrology and geochemistry at the Ludwig-Maximilian University in Munich, using experiments to study magma mixing processes. He then moved down-under and began a PhD project at the Australian National University, supervised by Penny King. His research combined results from natural samples with experimental and theoretical methods, studying reactions between gases and rocks. He applied these studies to Apollo samples returned from the Moon, the Earth, and the terrestrial planets.

Perhaps it is now time to create a link to Paul Niggli, who became famous for using thermodynamic principles to address petrological and geochemical problems. Niggli published numerous influential publications and his early book “Die leichtflüchtigen Bestandteile im Magma” argues that volatile elements in magmatic and other rocks must be regarded as separate phases that affect phase relations and mineral stabilities. He was one of the first to employ both early experimental constraints and thermodynamic principles to investigate geological processes. Chris Renggli, following Niggli’s footsteps, also conducts experiments, together with thermodynamic modelling and field constraints.

After completing his PhD, Chris moved to the University of Münster in 2018, initially with a postdoctoral fellowship from the Swiss National Science Foundation, and soon after he received a grant from DFG, the German Research Foundation. This research project revolved around the behaviour of sulfur during gas-solid interactions with a focus on explaining phenomena on Mercury, the Moon, and other terrestrial planets. Chris relates his experimental and theoretical approaches directly to planetary materials and space missions, such as the Apollo mission mentioned earlier and the BepiColombo mission to Mercury. He is also involved in studies concerned with the fractionation of so-called “non-traditional isotopes” during evaporation. I am sure, that much of this research will lead the way into a more thorough understanding of how evaporation, gas transport, and condensation affect volatile element cycles in magmatic and hydrothermal systems on the Earth and the other rocky planets.

Last, but not least, Chris is an excellent communicator of all things Earth science, he motivated undergrad students through assisting in laboratory exercises and undertaking field work on volcanic islands. He co-mentored several Masters and PhD students at ANU, in Münster, and elsewhere. It has always been a pleasure to discuss petrological and geochemical problems with him.

As mentors, active collaborators and friends, Penny King and I would like to congratulate Christian Renggli for the very well-deserved 2023 Niggli medal and we wish him all the best for a successful academic career.

Stephan Klemme (Universität Münster).

I am honoured and humbled to receive the 2023 Paul Niggli medal, and I extend my sincere gratitude to Stephan Klemme and Penny King for the generous Citation.

Twelve years ago, I left Switzerland on my path to become a planetary scientist. After more than a decade abroad my connection to Switzerland remains strong. This recognition means a lot to me and I hope that it will strengthen this connection. I thank the Paul Niggli Foundation for their support. It is a great honour to be among such a distinguished list of individuals who previously received this medal.

The path I followed over the past years was in no way planned. Instead, I followed my nose and got lucky! I got lucky with the opportunities that I found, and the many people that I met, who supported me in advancing my skills, broadening my knowledge, and then taking the next step. I never planned to become a planetary scientist, but always tried to pursue my interests. It is a great privilege to have had this opportunity and I am indebted to my family for their support and understanding for my choice of life path.

At the Ludwig-Maximilian University in Munich I studied volcanology and discovered the excitement of high temperature laboratory experiments. I thank Cristina De Campos, Kai Hess, Sebastian Wiesmaier, and Don Dingwell for showing me the ropes. All I added to the high temperature experiments since then were corrosive gases and toxic metals.

Moving to the Research School of Earth Sciences at the Australian National University for a PhD was an adventure. It was an exciting environment for a young scientist with a great community of PhD students across all the disciplines of the Earth Sciences, and from all the corners of the world. We shared many adventures from the many national parks around Canberra to the remote outback in the heart of Australia. Many of my fellow students have become good friends and tremendously enriched the experience for me.

I was incredibly lucky to have found in Penny King a fantastic supervisor and mentor. We had only met once over Skype before I booked the one-way flight to Australia, but my intuition was right. I am also thankful to Dick Henley from whom I learned so much. In my PhD, I had the chance to work on fundamental processes that appeared to be a niche subject in the Earth and Planetary Sciences. But it turns out that high-temperature gas-solid reactions are omnipresent from volcanic processes on Earth, to weathering on Venus, the sulfur cycle on the Moon or Mercury, and throughout the evolution of the solar system. I thrive to explore these environments and processes experimentally and contribute to our understanding of how planets form and evolve.

The Early Postdoc.Mobility Fellowship from the Swiss National Science Foundation gave me the time and resources to become a more independent researcher and provided me with a path to return to Europe. As much as I enjoyed living in Australia, it is very far away from home and family. The Fellowship also provided me with the experience of following up with an independent DFG research grant on “gas-solid reactions in hot, reduced planetary environments”.

Over more than five years at the University of Münster I’ve had the great pleasure to work with Stephan Klemme. He is a mentor and has become a friend. I am thankful for his unequivocal support in my research endeavours. Münster was a fruitful place for many collaborations. Notably, I was privileged to be involved in the collaborative research centre TRR170 “late accretion onto terrestrial planets”, which involves a network of planetary science institutions in Berlin, Münster and Göttingen. Collaborations with the group of Harry Hiesinger further gave me the chance to become involved in an ongoing planetary science mission, the ESA/JAXA BepiColombo probe on the way to Mercury.

Since October this year, I am now at the Max Planck Institute for Solar System Research in Göttingen under the leadership of Thorsten Kleine. It is at the same time a strange experience to be one of very few geoscientists among mostly astrophysicists and engineers, but it’s also exhilarating to build an experimental lab that is dedicated to provide links to ongoing and future space missions. I am excited to see what the future brings and thank you all once again from the bottom of my heart.

Christian Renggli (Max-Planck Institute for Solar System Research, Göttingen).

Publisher's Note

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/.

Reprints and permissions

Abstract Image

Cite this article

Christian Renggli receives the 2023 Paul Niggli Medal. Swiss J Geosci 117, 1 (2024). https://doi.org/10.1186/s00015-024-00451-w

Download citation

  • Published:

  • DOI: https://doi.org/10.1186/s00015-024-00451-w

Share this article

Anyone you share the following link with will be able to read this content:

Sorry, a shareable link is not currently available for this article.

Provided by the Springer Nature SharedIt content-sharing initiative

查看原文
分享 分享
微信好友 朋友圈 QQ好友 复制链接
本刊更多论文
克里斯蒂安-伦格里(Christian Renggli)荣获 2023 年保罗-尼格力奖章
保罗-尼格力奖章是瑞士最负盛名的奖项,授予在矿物学、地球化学、岩石学、资源地质学或固体地球物理学研究领域做出杰出贡献的年轻地球科学家。保罗-尼格力奖章旨在表彰和支持瑞士地球科学的年轻使者,他们要么是瑞士公民,要么在瑞士大学系统获得至少两个学位(理学士或理学硕士,通常还有博士学位)。保罗-尼格力基金会理事会在2023年6月19日的年度会议上决定将2023年保罗-尼格力奖章授予克里斯蒂安-伦格里,以表彰他利用实验方法了解地球、月球和水星火山系统中气固反应特性的杰出研究。克里斯蒂安-J-伦格里曾在伯尔尼大学攻读地质学,并在慕尼黑路德维希-马克西米利安大学完成了岩石学和地球化学硕士论文,通过实验研究岩浆混合过程。随后,他来到澳大利亚,在澳大利亚国立大学开始了博士项目,导师是佩妮-金(Penny King)。他的研究将自然样本的结果与实验和理论方法相结合,研究气体和岩石之间的反应。他将这些研究应用于从月球、地球和陆地行星返回的阿波罗样本。也许现在是时候与保罗-尼格里建立联系了,他因利用热力学原理解决岩石学和地球化学问题而声名鹊起。他的早期著作《岩浆中的挥发性元素》(Die leichtflüchtigen Bestandteile im Magma)认为,岩浆岩和其他岩石中的挥发性元素必须被视为影响相关系和矿物稳定性的独立相。他是最早运用早期实验约束和热力学原理研究地质过程的学者之一。克里斯-伦格利(Chris Renggli)追随尼格利的脚步,同样开展实验,并同时进行热力学建模和现场制约。克里斯完成博士学位后,于2018年来到明斯特大学工作,最初获得瑞士国家科学基金会的博士后奖学金,不久后他又获得德国研究基金会(DFG)的资助。该研究项目围绕硫在气固相互作用过程中的行为展开,重点是解释水星、月球和其他陆地行星上的现象。克里斯将他的实验和理论方法直接与行星材料和太空任务联系起来,如前面提到的阿波罗任务和前往水星的 BepiColombo 任务。他还参与了有关蒸发过程中所谓 "非传统同位素 "分馏的研究。我相信,这些研究将有助于人们更透彻地了解蒸发、气体输送和冷凝如何影响地球和其他岩质行星上岩浆和热液系统中的挥发性元素循环。最后,但并非最不重要的一点是,克里斯是一位出色的地球科学传播者,他通过协助实验室练习和在火山岛上开展实地工作来激励本科生。他在澳大利亚国立大学、明斯特和其他地方共同指导了多名硕士生和博士生。作为导师、积极的合作者和朋友,佩妮-金(Penny King)和我要祝贺克里斯蒂安-伦格利获得当之无愧的2023年尼格利奖章,并祝愿他在学术生涯中一切顺利。Stephan Klemme(明斯特大学):能够获得2023年保罗-尼格力奖章,我感到非常荣幸和谦卑,我对Stephan Klemme和Penny King的慷慨引用表示衷心的感谢。十二年前,我离开瑞士,踏上了行星科学家的道路。在国外生活了十多年之后,我与瑞士的联系依然紧密。这次表彰对我意义重大,我希望它能加强这种联系。我感谢保罗-尼格里基金会的支持。我非常荣幸能与众多曾获此殊荣的杰出人士同列。相反,我是跟着感觉走,而且很幸运!我很幸运,因为我发现了很多机会,遇到了很多人,他们支持我提高技能、拓宽知识面,然后迈出下一步。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
求助全文
约1分钟内获得全文 去求助
来源期刊
Swiss Journal of Geosciences
Swiss Journal of Geosciences 地学-地质学
CiteScore
4.50
自引率
12.90%
发文量
21
审稿时长
>12 weeks
期刊介绍: The Swiss Journal of Geosciences publishes original research and review articles, with a particular focus on the evolution of the Tethys realm and the Alpine/Himalayan orogen. By consolidating the former Eclogae Geologicae Helvetiae and Swiss Bulletin of Mineralogy and Petrology, this international journal covers all disciplines of the solid Earth Sciences, including their practical applications. The journal gives preference to articles that are of wide interest to the international research community, while at the same time recognising the importance of documenting high-quality geoscientific data in a regional context, including the occasional publication of maps.
期刊最新文献
Facies variability and depositional cyclicity in central Northern Switzerland: insights from new Opalinus Clay drill cores Determination of a normal orogenic palaeo-geothermal gradient with clay mineral and organic matter indices: a review Unravelling the tectonic evolution of the Dinarides—Alps—Pannonian Basin transition zone: insights from structural analysis and low-temperature thermochronology from Ivanščica Mt., NW Croatia Special Issue: Evolution of collisional orogens in space and time—the Alpine-Himalayan system in 4 dimensions Ediacaran to Jurassic geodynamic evolution of the Alborz Mountains, north Iran: geochronological data from the Gasht Metamorphic Complex
×
引用
GB/T 7714-2015
复制
MLA
复制
APA
复制
导出至
BibTeX EndNote RefMan NoteFirst NoteExpress
×
×
提示
您的信息不完整,为了账户安全,请先补充。
现在去补充
×
提示
您因"违规操作"
具体请查看互助需知
我知道了
×
提示
现在去查看 取消
×
提示
确定
0
微信
客服QQ
Book学术公众号 扫码关注我们
反馈
×
意见反馈
请填写您的意见或建议
请填写您的手机或邮箱
已复制链接
已复制链接
快去分享给好友吧!
我知道了
×
扫码分享
扫码分享
Book学术官方微信
Book学术文献互助
Book学术文献互助群
群 号:481959085
Book学术
文献互助 智能选刊 最新文献 互助须知 联系我们:info@booksci.cn
Book学术提供免费学术资源搜索服务,方便国内外学者检索中英文文献。致力于提供最便捷和优质的服务体验。
Copyright © 2023 Book学术 All rights reserved.
ghs 京公网安备 11010802042870号 京ICP备2023020795号-1