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Collaborative Research: Growth of the Tibetan Plateau and Eastern Asia Climate: Clues to Understanding the Hydrological Cycle

合作研究：青藏高原的增长和东亚气候：了解水文循环的线索

基本信息

批准号：
1211299
负责人：
Richard Edwards
金额：
$ 25.5万
依托单位：
University of Minnesota-Twin Cities
依托单位国家：
美国
项目类别：
Standard Grant
财政年份：
2012
资助国家：
美国
起止时间：
2012-09-01 至 2015-08-31
项目状态：
已结题

来源：
https://www.nsf.gov/awardsearch/showAward?AWD_ID=1211299&HistoricalAwards=false
关键词：
Collaborative Research Growth Tibetan Plateau

项目摘要

For fifty years, the Tibetan Plateau has been recognized as the largest topographic feature that perturbs atmospheric circulation. It serves as an ideal field laboratory for understanding the geodynamic processes that build high terrain. Accordingly, the growth of the plateau should have altered atmospheric circulation and therefore written an evolving paleoclimatic signature not only on eastern Asian regional climates, but on global climate as well. Despite many recent studies, we still do not know precisely when the Tibetan Plateau reached its current dimensions and how it perturbs atmospheric circulation. This project brings together geodynamicists, atmospheric scientists, and paleoclimatologists in a multidisciplinary study of the when and the how.One of the major goals of the project is to quantify the extent to which Tibet has grown by crustal thickening, by thrust faulting and folding, by flow within the crust that redistributes material there, or by replacement of cold mantle lithosphere with hotter material (all in a state of isostatic equilibrium). Such quantification will take big steps toward the understanding of how high plateaus are built and how continental lithosphere deforms, topics at the forefront of geodynamics. Determining how Tibet has grown will require determining when crustal shortening and thickening occurred, using basic field methods and modern laboratory techniques, and quantifying paleoaltitudes with new isotopic tools. Applying such paleoaltimetric techniques, however, requires an understanding not only of how the atmosphere transports isotopes, but how the evolving high terrain affected surface temperatures at times in the past.

50年来，青藏高原一直被认为是扰动大气环流的最大地形特征。它是一个理想的野外实验室，可以用来了解形成高地的地球动力学过程。因此，高原的生长应该改变了大气环流，因此不仅在东亚区域气候上，而且在全球气候上写下了不断演变的古气候特征。尽管最近有许多研究，我们仍然不知道青藏高原何时达到目前的规模，以及它如何扰乱大气环流。该项目汇集了地球动力学家、大气科学家和古气候学家，对何时和如何进行多学科研究。该项目的主要目标之一是量化西藏通过地壳增厚、逆冲断层和褶皱、地壳内流动重新分配物质而增长的程度，或由较热的物质替换较冷的地幔岩石圈（均处于均衡平衡状态）。这样的量化将使我们在理解高原是如何形成的以及大陆岩石圈如何变形方面迈出一大步，这些都是地球动力学的前沿课题。要确定西藏是如何发展的，需要使用基本的野外方法和现代实验室技术，确定地壳缩短和增厚发生的时间，并使用新的同位素工具量化古海拔。然而，应用这种古高度测量技术不仅需要了解大气如何传输同位素，还需要了解过去不断变化的高地形如何影响地表温度。

项目成果

期刊论文数量（0）

专著数量（0）

科研奖励数量（0）

会议论文数量（0）

专利数量（0）

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Richard Edwards其他文献

HIV/AIDS and the South African State: Sovereignty and the Responsibility to Respond

DOI：
10.1111/1753-6405.12336
发表时间：
2015-06-01
期刊：
Research article
影响因子：
作者：
Nick Wilson;George Thomson;Richard Edwards
通讯作者：
Richard Edwards

Correction: Improving on estimates of the potential relative harm to health from using modern ENDS (vaping) compared to tobacco smoking

DOI：
10.1186/s12889-022-13983-3
发表时间：
2022-09-21
期刊：
BMC PUBLIC HEALTH
影响因子：
3.600
作者：
Nick Wilson;Jennifer A. Summers;Driss Ait Ouakrim;Janet Hoek;Richard Edwards;Tony Blakely
通讯作者：
Tony Blakely

9. England and Wales

DOI：
10.1007/bf00597963
发表时间：
1996-01-01
期刊：
INTERNATIONAL REVIEW OF EDUCATION
影响因子：
1.600
作者：
Peter Raggatt;Richard Edwards
通讯作者：
Richard Edwards

Simulation of self-assembly and lyotropic liquid crystal phases in model discotic solutions

盘状溶液模型中自组装和溶致液晶相的模拟

DOI：
发表时间：
1995
期刊：
影响因子：
0
作者：
Richard Edwards;J. Henderson;R. Pinning
通讯作者：
R. Pinning

Addressing barriers and identifying facilitators to support informed consent and recruitment in the Cavernous malformations A Randomised Effectiveness (CARE) pilot phase trial: insights from the integrated QuinteT recruitment intervention (QRI)

解决障碍并确定促进因素，以支持海绵状血管畸形的知情同意和招募随机有效性 (CARE) 试点阶段试验：来自综合 QuinteT 招募干预 (QRI) 的见解

DOI：
10.1016/j.eclinm.2024.102557
发表时间：
2024
期刊：
eClinicalMedicine
影响因子：
15.1
作者：
Julia Wade;Nicola Farrar;Alba X. Realpe;Jenny L. Donovan;Laura Forsyth;Kirsty A. Harkness;Peter J. A. Hutchinson;Neil Kitchen;Steff C. Lewis;James J. M. Loan;Jacqueline Stephen;R. Al‐Shahi Salman;Conor Mallucci;Philip M White;Madeleine Eriksson;Raza Hayat;Elaine Kinsella;Katherine Lewis;A. Neilson;David C.S. White;Julia Boyd;Alastair Bullen;Morag Maclean;Andrew Stoddart;Sandra Phair;Helen Evans;Jo Noakes;Debra Alexander;C. Keerie;Christopher Linsley;Garry Milne;John Norrie;Janet Bunch;Kathryn Douthwaite;Simon Temple;James Hogg;David Scott;Pat Spallone;Ian Stuart;Joanna M. Wardlaw;Jeb Palmer;E. Sakka;Nitin Mukerji;Emanuel Cirstea;Susan Davies;V. Giannakaki;Ammar Kadhim;Oliver Kennion;Moidul Islam;Lucie Ferguson;Manjunath Prasad;Andrew Bacon;Emma Richards;Jo Howe;C. Kamara;Jonathan Gardner;Madalina Roman;Mary Sikaonga;Julian Cahill;A. Rossdeutsch;Varduhi Cahill;Imron Hamina;Kishor Chaudhari;Mihai Danciut;Emma Clarkson;A. Bjornson;Diederik Bulters;R. Digpal;Winnington Ruiz;Mirriam Taylor;Divina Anyog;K. Tluchowska;Jackson Nolasco;Daniel Brooks;Kleopatra Angelopoulou;Bethany Welch;N. Broomes;Ioannis Fouyas;A. MacRaild;Chandru Kaliaperumal;J. Teasdale;M. Coakley;Paul Brennan;Drahoslav Sokol;Anthony Wiggins;Mairi MacDonald;Sarah Risbridger;Pragnesh Bhatt;Janice Irvine;Sohail Majeed;Sandra Williams;John Reid;Annika Walch;Farah Muir;J. van Beijnum;Paul Leach;Tom Hughes;Milan Makwana;Khalid Hamandi;Dympna McAleer;Belinda Gunning;Daniel Walsh;Oliver Wroe Wright;Sabina Patel;Nihal Gurusinghe;S. Raza;Terri;Allan Brown;Sonia Raj;Ruth Pennington;Charlene Campbell;Shakeelah Patel;F. Colombo;Mario Teo;Jack Wildman;Kerry Smith;Elizabeth Goff;Deanna Stephens;B. Borislavova;R. Worner;S. Buddha;Philip Clatworthy;Richard Edwards;Evangeline Clayton;Karen Coy;Lisa Tucker;Sandra Dymond;Andrew Mallick;Rebecca Hodnett;F. Spickett;Patrick Grover;A. Banaras;Sifelani Tshuma;William Muirhead;C. Hill;Rupal Shah;Thomas Doke;Rebecca Hall;Sonny Coskuner;L. Aslett;R. Vindlacheruvu;Anthony Ghosh;Teresa Fitzpatrick;Lauren Harris;Tom Hayton;Arlo Whitehouse;Andrew McDarby;Rebecca Hancox;C. K. Auyeung;Ramesh Nair;Rhys Thomas;Heather McLachlan;A. Kountourgioti;Guillelme Orjales;Jan Kruczynski;Sophie Hunter;N. Bohnacker;Rosette Marimon;Lydia Parker;O. Raha;Puneet Sharma;Christopher Uff;Geetha Boyapati;Marios Papadopoulos;Siobhan Kearney;R. Visagan;Ellaine Bosetta;Hasan Asif;Adel Helmy;Liliana Chapas;S. Tarantino;K. Caldwell;M. Guilfoyle;Smriti Agarwal;Daniel Brown;Sarah Holland;T. Tajsic;Clare Fletcher;Aisha Sebyatki;S. Ushewokunze;Sarah Ali;John Preston;Carole Chambers;Mohammed Patel;D. Holsgrove;D. Mclaughlan;Tracey Marsden;K. Cawley;Hellen Raffalli;Stephanie Lee;Anil Israni;Rachael Dore;Taya Anderson;D. Hennigan;Shelley Mayor;Samantha Glover;E. Chavredakis;Debbie Brown;Giannis Sokratous;John Williamson;Cathy Stoneley;A. Brodbelt;J. Farah;Sarah Illingworth;A. B. Konteas;Deborah Davies;Carol Owen;Loretta Kerr
通讯作者：
Loretta Kerr