Academic Reminiscences and Thermodynamics-Kinetics of Thermo-Barometry-Chronology

IF 6.8 3区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS
J. Ganguly
{"title":"Academic Reminiscences and Thermodynamics-Kinetics of Thermo-Barometry-Chronology","authors":"J. Ganguly","doi":"10.7185/geochempersp.10.1","DOIUrl":null,"url":null,"abstract":"This article has three major components that include, in addition to the technical aspects, reminiscences of my academic upbringing, my move to the USA from India, and my professional career. I have recounted many stories that I hope convey some sense of time, especially in these two countries with vastly different cultures, my personal journey with its ups and downs and how I made the transition to an academic career path in USA even though that was not in my future plan as a young man. The development of the field of thermobarometry and its integration with diffusion and crystal kinetic modelling of compositional zoning (or lack thereof) and cation ordering in minerals have led to important quantitative constraints on the pressure-temperature-time evolution of terrestrial rocks and meteorites. I review the historical developments in these areas and a segment of my own research spanning the period of 1964-2021. The foundational works of the thermometry of metamorphic rocks and palaeothermometry were laid at the University of Chicago around 1950. Subsequently, the synergetic growth of thermodynamics and experimental studies in petrology in the 1960s and 1970s, along with the introduction of electron microprobe as a nondestructive analytical tool with micron scale resolution, gave a major boost to the field of thermobarometry. There were also significant new developments in the field of thermodynamics of solid solutions in the petrology community and demonstration from observational data, countering strong scepticism, that the principles of classical thermodynamics were applicable to “complex natural systems”. The section on thermodynamic basis of thermobarometry concludes with a discussion of the thermodynamics of trace element and single mineral thermometry. I further deal with the experimental protocols, along with selected examples, for phase equilibrium studies that provide the bedrock foundation for the field of thermobarometry based on elemental compositions of coexisting minerals in a rock. It is followed by an account of the controversies and international meetings relating to the aluminum silicate and peridotite phase diagrams that play crucial roles in the thermobarometry of metamorphic rocks and mantle xenoliths, respectively. The construction of quantitative petrogenetic grids to display stability relations of minerals in multicomponent–multiphase systems came into play in the field of metamorphic petrology in the mid-1960s and early 1970s. Augmented by experimental data, these petrogenetic grids led to important discoveries about the P-T-f(O2) and bulk compositional controls on the stability of certain “index” minerals that are used to define metamorphic isograds and different types of regional metamorphism; one such grid also opened up a new field that came to be known as ultra-high temperature metamorphism. The construction of petrogenetic grids has now evolved to computer based calculations of complex equilibrium P-T phase diagrams, commonly referred to as “pseudosections”, by minimisation of Gibbs free energy of a system with fixed bulk composition. I discuss these historical developments and modern advancements. Subsequently I highlight some aspects of thermobarometry and diffusion kinetic modelling of selected natural samples along with their broader implications and present a critical discussion of different protocols for thermobarometry of natural assemblages. Following up on the introductory historical perspective of development of palaeothermometry, I discuss the modern advancements using density functional theory (DFT). Examples of DFT based calculations have been shown for hydrogen isotope fractionation in mineral-water/hydrogen systems and “clumped isotope” thermometry. The hydrogen isotope fractionation data led the development of new low temperature palaeothermometers using serpentine-talc/brucite mineral pairs. These results enable simultaneous solutions of both temperature and source of fluid in the serpentinisation process of rocks. The final section is devoted to high temperature thermochronology dealing with the problems of closure temperature of decay systems in minerals and the use of bulk and spatial resetting of mineral age according to a specific decay system to determine cooling rates of the host rocks. Complications arise in the interpretation of mineral ages determined by such decay systems as 176Lu-176Hf or the short- lived system 53Mn-53Cr in which the parent nuclide has a much lower closure temperature than the corresponding daughter product. Numerical simulations help explain the discrepancy between the 176Lu-176Hf and 147Sm-143Nd ages of garnets in metamorphic rocks and enable construction of the entire T-t cycle from the discrepant ages and some additional constraints.","PeriodicalId":48921,"journal":{"name":"Geochemical Perspectives","volume":"1 1","pages":""},"PeriodicalIF":6.8000,"publicationDate":"2021-04-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Geochemical Perspectives","FirstCategoryId":"89","ListUrlMain":"https://doi.org/10.7185/geochempersp.10.1","RegionNum":3,"RegionCategory":"地球科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"GEOCHEMISTRY & GEOPHYSICS","Score":null,"Total":0}
引用次数: 0

Abstract

This article has three major components that include, in addition to the technical aspects, reminiscences of my academic upbringing, my move to the USA from India, and my professional career. I have recounted many stories that I hope convey some sense of time, especially in these two countries with vastly different cultures, my personal journey with its ups and downs and how I made the transition to an academic career path in USA even though that was not in my future plan as a young man. The development of the field of thermobarometry and its integration with diffusion and crystal kinetic modelling of compositional zoning (or lack thereof) and cation ordering in minerals have led to important quantitative constraints on the pressure-temperature-time evolution of terrestrial rocks and meteorites. I review the historical developments in these areas and a segment of my own research spanning the period of 1964-2021. The foundational works of the thermometry of metamorphic rocks and palaeothermometry were laid at the University of Chicago around 1950. Subsequently, the synergetic growth of thermodynamics and experimental studies in petrology in the 1960s and 1970s, along with the introduction of electron microprobe as a nondestructive analytical tool with micron scale resolution, gave a major boost to the field of thermobarometry. There were also significant new developments in the field of thermodynamics of solid solutions in the petrology community and demonstration from observational data, countering strong scepticism, that the principles of classical thermodynamics were applicable to “complex natural systems”. The section on thermodynamic basis of thermobarometry concludes with a discussion of the thermodynamics of trace element and single mineral thermometry. I further deal with the experimental protocols, along with selected examples, for phase equilibrium studies that provide the bedrock foundation for the field of thermobarometry based on elemental compositions of coexisting minerals in a rock. It is followed by an account of the controversies and international meetings relating to the aluminum silicate and peridotite phase diagrams that play crucial roles in the thermobarometry of metamorphic rocks and mantle xenoliths, respectively. The construction of quantitative petrogenetic grids to display stability relations of minerals in multicomponent–multiphase systems came into play in the field of metamorphic petrology in the mid-1960s and early 1970s. Augmented by experimental data, these petrogenetic grids led to important discoveries about the P-T-f(O2) and bulk compositional controls on the stability of certain “index” minerals that are used to define metamorphic isograds and different types of regional metamorphism; one such grid also opened up a new field that came to be known as ultra-high temperature metamorphism. The construction of petrogenetic grids has now evolved to computer based calculations of complex equilibrium P-T phase diagrams, commonly referred to as “pseudosections”, by minimisation of Gibbs free energy of a system with fixed bulk composition. I discuss these historical developments and modern advancements. Subsequently I highlight some aspects of thermobarometry and diffusion kinetic modelling of selected natural samples along with their broader implications and present a critical discussion of different protocols for thermobarometry of natural assemblages. Following up on the introductory historical perspective of development of palaeothermometry, I discuss the modern advancements using density functional theory (DFT). Examples of DFT based calculations have been shown for hydrogen isotope fractionation in mineral-water/hydrogen systems and “clumped isotope” thermometry. The hydrogen isotope fractionation data led the development of new low temperature palaeothermometers using serpentine-talc/brucite mineral pairs. These results enable simultaneous solutions of both temperature and source of fluid in the serpentinisation process of rocks. The final section is devoted to high temperature thermochronology dealing with the problems of closure temperature of decay systems in minerals and the use of bulk and spatial resetting of mineral age according to a specific decay system to determine cooling rates of the host rocks. Complications arise in the interpretation of mineral ages determined by such decay systems as 176Lu-176Hf or the short- lived system 53Mn-53Cr in which the parent nuclide has a much lower closure temperature than the corresponding daughter product. Numerical simulations help explain the discrepancy between the 176Lu-176Hf and 147Sm-143Nd ages of garnets in metamorphic rocks and enable construction of the entire T-t cycle from the discrepant ages and some additional constraints.
学术回忆与热力学-热气压计动力学-年代学
这篇文章有三个主要组成部分,除了技术方面,还包括我的学术成长回忆、我从印度移居美国的经历以及我的职业生涯。我讲述了许多故事,我希望这些故事能传达一些时间感,尤其是在这两个文化截然不同的国家,我的个人旅程跌宕起伏,以及我是如何在美国过渡到学术生涯的,尽管这不是我年轻时的未来计划。热气压测量领域的发展及其与矿物中成分分区(或缺乏成分分区)和阳离子有序的扩散和晶体动力学建模的结合,对岩石和陨石的压力-温度-时间演化产生了重要的定量约束。我回顾了这些领域的历史发展,以及我自己在1964-2021年期间的一部分研究。变质岩测温和古测温的基础工作于1950年左右在芝加哥大学奠基。随后,20世纪60年代和70年代热力学和岩石学实验研究的协同发展,以及电子探针作为微米级分辨率的无损分析工具的引入,极大地推动了热气压测量领域的发展。岩石学界在固溶体热力学领域也有了重大的新进展,观测数据也证明了经典热力学原理适用于“复杂自然系统”,这与强烈的怀疑相反。热气压测量的热力学基础部分最后讨论了微量元素热力学和单矿物测温。我进一步讨论了相平衡研究的实验方案,以及选定的例子,这些研究为基于岩石中共存矿物的元素组成的热气压测量领域提供了基础。随后介绍了与硅酸铝和橄榄岩相图有关的争议和国际会议,这两张相图分别在变质岩和地幔捕虏体的热气压测量中起着至关重要的作用。20世纪60年代中期和70年代初,在变质岩石学领域开始构建定量的岩石成因网格,以显示多组分-多相系统中矿物的稳定性关系。在实验数据的补充下,这些岩石成因网格导致了关于P-T-f(O2)和对某些“指数”矿物稳定性的整体成分控制的重要发现,这些“指数”矿物质用于定义变质等梯度和不同类型的区域变质作用;一个这样的网格也开辟了一个新的领域,后来被称为超高温变质作用。岩石成因网格的构建现在已经发展到基于计算机的复杂平衡P-T相图的计算,通常被称为“假截面”,通过最小化具有固定体积组成的系统的吉布斯自由能。我讨论这些历史发展和现代进步。随后,我重点介绍了选定自然样品的热气压测量和扩散动力学建模的一些方面及其更广泛的含义,并对自然组合的热气压测定的不同方案进行了批判性讨论。在介绍古测温发展的历史观点之后,我用密度泛函理论(DFT)讨论了现代进展。已经显示了基于DFT的计算实例,用于矿泉水/氢系统中的氢同位素分馏和“聚集同位素”测温。氢同位素分馏数据引领了使用蛇纹石-滑石/水镁石矿物对开发新的低温古温度计。这些结果使得能够同时解决岩石蛇纹石化过程中的温度和流体来源。最后一节专门讨论高温热年代学,处理矿物衰变系统的闭合温度问题,以及根据特定衰变系统使用体积和空间重置矿物年龄来确定主岩的冷却速率。在解释由176Lu-176Hf或53Mn-53Cr等衰变系统确定的矿物年龄时会出现复杂情况,其中母体核素的闭合温度比相应的子产物低得多。数值模拟有助于解释变质岩中石榴石的176Lu-176Hf和147Sm-143Nd年龄之间的差异,并能够根据差异年龄和一些额外的约束条件构建整个T-T旋回。
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 求助全文
来源期刊
Geochemical Perspectives
Geochemical Perspectives GEOCHEMISTRY & GEOPHYSICS-
CiteScore
0.80
自引率
0.00%
发文量
1
期刊介绍: Each issue of Geochemical Perspectives presents a single article with an in-depth view on the past, present and future of a field of geochemistry, seen through the eyes of a highly respected member of our community. The articles combine science and history of the field’s development and the scientist’s opinions about future directions. We expect personal glimpses into the author’s scientific life, how ideas were generated, pitfalls and triumphs along the way, and how ideas were adopted to carry our field further. Perspectives articles are intended for the entire geochemical community, not for experts. They are not reviews or monographs or text books. They go beyond the current state of the art, providing opinions about future directions and impact in the field.
×
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
确定
请完成安全验证×
copy
已复制链接
快去分享给好友吧!
我知道了
右上角分享
点击右上角分享
0
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 布克学术 All rights reserved.
京ICP备2023020795号-1
ghs 京公网安备 11010802042870号
Book学术文献互助
Book学术文献互助群
群 号:481959085
Book学术官方微信