Yuri R. Vasiliev's scientific contributions
What is this page?
This page lists the scientific contributions of an author, who either does not have a ResearchGate profile, or has not yet added these contributions to their profile.
It was automatically created by ResearchGate to create a record of this author's body of work. We create such pages to advance our goal of creating and maintaining the most comprehensive scientific repository possible. In doing so, we process publicly available (personal) data relating to the author as a member of the scientific community.
If you're a ResearchGate member, you can follow this page to keep up with this author's work.
If you are this author, and you don't want us to display this page anymore, please let us know.
It was automatically created by ResearchGate to create a record of this author's body of work. We create such pages to advance our goal of creating and maintaining the most comprehensive scientific repository possible. In doing so, we process publicly available (personal) data relating to the author as a member of the scientific community.
If you're a ResearchGate member, you can follow this page to keep up with this author's work.
If you are this author, and you don't want us to display this page anymore, please let us know.
Publications (3)
This animated movie shows the evolution of the potential temperature (°C) in the model of the lithospheric destruction by the hot thermo-chemical plume. Model time in mln years is shown in the left corner. The solid curve marks the boundary of the depleted lithosphere.
This animated movie shows the evolution of the chemical composition of the mantle (content of the pyroxenitic/eclogitic component), in the model of the lithospheric destruction by the hot thermo-chemical plume. Model time in mln years is shown in the left corner.
Large igneous provinces (LIPs) are known for their rapid production of enormous volumes of magma (up to several million cubic kilometres in less than a million years), for marked thinning of the lithosphere, often ending with a continental break-up, and for their links to global environmental catastrophes. Despite the importance of LIPs, controvers...
Citations
... Geochemical data and fossil records of Meishan from Grasby et al. (2017) and Wang et al. (2019a), Chahe from Chu et al. (2020), Jinzhong from Wang et al. (2021a), and Dalongkou from Chu et al. (2015) and Shen et al. (2019). Abbreviations refer to Fig. 1. the most probable direct killer accountable for the great dying (Huang et al., 2017(Huang et al., , 2019bZhang et al., 2018Zhang et al., , 2020, and the volatile release from the STLIP is likely the ultimate trigger of the kill mechanisms, and drove the P-Tr mass extinction (Reichow et al., 2009;Svensen et al., 2009;Sobolev et al., 2011;Black et al., 2012Black et al., , 2014Burgess and Bowring, 2015;Burgess et al., 2017;Grasby et al., 2017;Wang et al., 2018Wang et al., , 2019aChen et al., 2018;Shen et al., 2019Shen et al., , 2021Dal Corso et al., 2020. Besides, the coeval volatile volcanisms occurring along the convergent continent margin in, or near, southwestern South China as a result of the closure of the Paleo-Tethys Ocean may also have contributed to environmental devastation, at least, in South China (Gao et al., 2013;Chen et al., 2018;Wang et al., 2019b;Zhang et al., 2021a;Dal Corso et al., 2022). ...
![[object Object]](https://i1.rgstatic.net/ii/profile.image/273702378012684-1442267140716_Q64/Stephan-Sobolev.jpg)
![[object Object]](https://i1.rgstatic.net/ii/profile.image/272298250862608-1441932370658_Q64/Alexander-Sobolev-8.jpg)
![[object Object]](https://i1.rgstatic.net/ii/profile.image/857722824183808-1581508465362_Q64/Nadezhda-Krivolutskaya.jpg)
