Search

Your search keyword '"Lu, Tianyu"' showing total 224 results
Start Over Author "Lu, Tianyu" Search Limiters Available in Library Collection
224 results on '"Lu, Tianyu"'

1. ESM All-Atom: Multi-scale Protein Language Model for Unified Molecular Modeling

Author

Zheng, Kangjie, Long, Siyu, Lu, Tianyu, Yang, Junwei, Dai, Xinyu, Zhang, Ming, Nie, Zaiqing, Ma, Wei-Ying, and Zhou, Hao

Subjects
Quantitative Biology - Biomolecules, Computer Science - Computational Engineering, Finance, and Science, Computer Science - Machine Learning
Abstract

Protein language models have demonstrated significant potential in the field of protein engineering. However, current protein language models primarily operate at the residue scale, which limits their ability to provide information at the atom level. This limitation prevents us from fully exploiting the capabilities of protein language models for applications involving both proteins and small molecules. In this paper, we propose ESM-AA (ESM All-Atom), a novel approach that enables atom-scale and residue-scale unified molecular modeling. ESM-AA achieves this by pre-training on multi-scale code-switch protein sequences and utilizing a multi-scale position encoding to capture relationships among residues and atoms. Experimental results indicate that ESM-AA surpasses previous methods in protein-molecule tasks, demonstrating the full utilization of protein language models. Further investigations reveal that through unified molecular modeling, ESM-AA not only gains molecular knowledge but also retains its understanding of proteins. The source codes of ESM-AA are publicly released at https://github.com/zhengkangjie/ESM-AA., Comment: ICML2024 camera-ready, update some experimental results, add github url, fix some typos

Published
2024

2. Vocal learning-associated convergent evolution in mammalian proteins and regulatory elements.

Author

Wirthlin, Morgan, Schmid, Tobias, Elie, Julie, Zhang, Xiaomeng, Kowalczyk, Amanda, Redlich, Ruby, Shvareva, Varvara, Rakuljic, Ashley, Ji, Maria, Bhat, Ninad, Kaplow, Irene, Schäffer, Daniel, Lawler, Alyssa, Wang, Andrew, Phan, BaDoi, Annaldasula, Siddharth, Brown, Ashley, Lu, Tianyu, Lim, Byung, Azim, Eiman, Clark, Nathan, Meyer, Wynn, Pond, Sergei, Chikina, Maria, Yartsev, Michael, Pfenning, Andreas, Andrews, Gregory, Armstrong, Joel, Bianchi, Matteo, Birren, Bruce, Bredemeyer, Kevin, Breit, Ana, Christmas, Matthew, Clawson, Hiram, Damas, Joana, Di Palma, Federica, Diekhans, Mark, Dong, Michael, Eizirik, Eduardo, Fan, Kaili, Fanter, Cornelia, Foley, Nicole, Forsberg-Nilsson, Karin, Garcia, Carlos, Gatesy, John, Gazal, Steven, Genereux, Diane, Goodman, Linda, Grimshaw, Jenna, Halsey, Michaela, Harris, Andrew, Hickey, Glenn, Hiller, Michael, Hindle, Allyson, Hubley, Robert, Hughes, Graham, Johnson, Jeremy, Juan, David, Karlsson, Elinor, Keough, Kathleen, Kirilenko, Bogdan, Koepfli, Klaus-Peter, Korstian, Jennifer, Kozyrev, Sergey, Lawless, Colleen, Lehmann, Thomas, Levesque, Danielle, Lewin, Harris, Li, Xue, Lind, Abigail, Lindblad-Toh, Kerstin, Mackay-Smith, Ava, Marinescu, Voichita, Marques-Bonet, Tomas, Mason, Victor, Meadows, Jennifer, Moore, Jill, Moreira, Lucas, Moreno-Santillan, Diana, Morrill, Kathleen, Muntané, Gerard, Murphy, William, Navarro, Arcadi, Nweeia, Martin, Ortmann, Sylvia, Osmanski, Austin, Paten, Benedict, Paulat, Nicole, Pollard, Katherine, Pratt, Henry, Ray, David, Reilly, Steven, Rosen, Jeb, and Ruf, Irina

Subjects
Animals, Chiroptera, Vocalization, Animal, Motor Cortex, Chromatin, Enhancer Elements, Genetic, Motor Neurons, Larynx, Epigenesis, Genetic, Genome, Gene Expression Regulation, Evolution, Molecular, Proteins, Amino Acid Sequence, Eutheria, Machine Learning
Abstract

Vocal production learning (vocal learning) is a convergently evolved trait in vertebrates. To identify brain genomic elements associated with mammalian vocal learning, we integrated genomic, anatomical, and neurophysiological data from the Egyptian fruit bat (Rousettus aegyptiacus) with analyses of the genomes of 215 placental mammals. First, we identified a set of proteins evolving more slowly in vocal learners. Then, we discovered a vocal motor cortical region in the Egyptian fruit bat, an emergent vocal learner, and leveraged that knowledge to identify active cis-regulatory elements in the motor cortex of vocal learners. Machine learning methods applied to motor cortex open chromatin revealed 50 enhancers robustly associated with vocal learning whose activity tended to be lower in vocal learners. Our research implicates convergent losses of motor cortex regulatory elements in mammalian vocal learning evolution.

Published
2024

6. Secret Key Generation for IRS-Assisted Multi-Antenna Systems: A Machine Learning-Based Approach

Author

Chen, Chen, Zhang, Junqing, Lu, Tianyu, Sandell, Magnus, and Chen, Liquan

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

Physical-layer key generation (PKG) based on wireless channels is a lightweight technique to establish secure keys between legitimate communication nodes. Recently, intelligent reflecting surfaces (IRSs) have been leveraged to enhance the performance of PKG in terms of secret key rate (SKR), as it can reconfigure the wireless propagation environment and introduce more channel randomness. In this paper, we investigate an IRS-assisted PKG system, taking into account the channel spatial correlation at both the base station (BS) and the IRS. Based on the considered system model, the closed-form expression of SKR is derived analytically considering correlated eavesdropping channels. Aiming to maximise the SKR, a joint design problem of the BS precoding matrix and the IRS phase shift vector is formulated. To address this high-dimensional non-convex optimisation problem, we propose a novel unsupervised deep neural network (DNN)-based algorithm with a simple structure. Different from most previous works that adopt iterative optimisation to solve the problem, the proposed DNN-based algorithm directly obtains the BS precoding and IRS phase shifts as the output of the DNN. Simulation results reveal that the proposed DNN-based algorithm outperforms the benchmark methods with regard to SKR., Comment: This paper has been submitted to IEEE Transactions for possible publications. arXiv admin note: substantial text overlap with arXiv:2301.08179

Published
2023

7. Machine Learning-Based Secret Key Generation for IRS-assisted Multi-antenna Systems

Author

Chen, Chen, Zhang, Junqing, Lu, Tianyu, Sandell, Magnus, and Chen, Liquan

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

Physical-layer key generation (PKG) based on wireless channels is a lightweight technique to establish secure keys between legitimate communication nodes. Recently, intelligent reflecting surfaces (IRSs) have been leveraged to enhance the performance of PKG in terms of secret key rate (SKR), as it can reconfigure the wireless propagation environment and introduce more channel randomness. In this paper, we investigate an IRS-assisted PKG system, taking into account the channel spatial correlation at both the base station (BS) and the IRS. Based on the considered system model, the closed form expression of SKR is derived analytically. Aiming to maximize the SKR, a joint design problem of the BS precoding matrix and the IRS reflecting coefficient vector is formulated. To address this high-dimensional non-convex optimization problem, we propose a novel unsupervised deep neural network (DNN) based algorithm with a simple structure. Different from most previous works that adopt the iterative optimization to solve the problem, the proposed DNN based algorithm directly obtains the BS precoding and IRS phase shifts as the output of the DNN. Simulation results reveal that the proposed DNN-based algorithm outperforms the benchmark methods with regard to SKR., Comment: Accepted by ICC 2023

Published
2023

9. Joint Precoding and Phase Shift Design in Reconfigurable Intelligent Surfaces-Assisted Secret Key Generation

Author

Lu, Tianyu, Chen, Liquan, Zhang, Junqing, Chen, Chen, and Hu, Aiqun

Subjects
Computer Science - Information Theory, Computer Science - Cryptography and Security
Abstract

Key generation is a promising technique to establish symmetric keys between resource-constrained legitimate users. However, key generation suffers from low secret key rate (SKR) in harsh environments where channel randomness is limited. To address the problem, reconfigurable intelligent surfaces (RISs) are introduced to reshape the channels by controlling massive reflecting elements, which can provide more channel diversity. In this paper, we design a channel probing protocol to fully extract the randomness from the cascaded channel, i.e., the channel through reflecting elements. We derive the analytical expressions of SKR and design a water-filling algorithm based on the Karush-Kuhn-Tucker (KKT) conditions to find the upper bound. To find the optimal precoding and phase shift matrices, we propose an algorithm based on the Grassmann manifold optimization methods. The system is evaluated in terms of SKR, bit disagreement rate (BDR) and randomness. Simulation results show that our protocols significantly improve the SKR as compared to existing protocol.

Published
2022

12. Random Embeddings and Linear Regression can Predict Protein Function

Author

Lu, Tianyu, Lu, Alex X., and Moses, Alan M.

Subjects
Quantitative Biology - Biomolecules, Computer Science - Machine Learning
Abstract

Large self-supervised models pretrained on millions of protein sequences have recently gained popularity in generating embeddings of protein sequences for protein function prediction. However, the absence of random baselines makes it difficult to conclude whether pretraining has learned useful information for protein function prediction. Here we show that one-hot encoding and random embeddings, both of which do not require any pretraining, are strong baselines for protein function prediction across 14 diverse sequence-to-function tasks.

Published
2021

14. A new method for evaluating lung volume: AI-3D reconstruction

Author

Wang Rui, Shang Yuhang, Li Yang, Yang Yue, Tang Ze, Zhao Yujie, Ma Xiaochao, Qin Da, Cui Youbin, and Lu Tianyu

Subjects
lung volume calculation, AI-3D reconstruction, ICC, donor-recipient lung volume matching, lung transplantation, Physiology, QP1-981
Abstract

Objective: This study aims to explore the clinical application of an AI-3D reconstruction system in measuring lung volume and analyze its practical value in donor-recipient size matching in lung transplantation.Methods: The study retrospectively collected data from 75 subjects who underwent a plethysmography examination and lung CT at the First Hospital of Jilin University. General data and information related to lung function, and imaging results were collected. The correlation between actual total lung volume (aTLV), predicted total lung volume (pTLV), and artificial intelligence three-dimensional reconstruction CT lung volume (AI-3DCTVol) was analyzed for the overall, male, and female groups. The correlation coefficient and the absolute error percentage with pTLV and AI-3DCTVol were obtained.Results: In the overall, male, and female groups, there were statistical differences (p

Published
2023
Full Text
View/download PDF

18. Clinical application of liquid biopsy based on circulating tumor DNA in non-small cell lung cancer

Author

Liu Xin, Yang Yue, Ren Zihan, Cui Youbin, Lu Tianyu, and Wang Rui

Subjects
liquid biopsy, non-small cell lung cancer, early diagnosis, prognosis, recurrence, adjuvant therapy, Physiology, QP1-981
Abstract

Lung cancer is a widely occurring and deadly malignancy, with high prevalence rates in China and across the globe. Specifically, non-small cell lung cancer (NSCLC) represents about 85% of all lung cancer cases. The 5-year disease-free survival rate after surgery for stage IB-IIIB NSCLC patients (disease-free survival, DFS) has notably declined from 73% to 13%. Early detection of abnormal cancer molecules and subsequent personalized treatment plans are the most effective ways to address this problem. Liquid biopsy, surprisingly, enables safe, accurate, non-invasive, and dynamic tracking of disease progression. Among the various modalities, circulating tumor DNA (ctDNA) is the most commonly used liquid biopsy modality. ctDNA serves as a credible “liquid biopsy” diagnostic tool that, to a certain extent, overcomes tumor heterogeneity and harbors genetic mutations in malignancies, thereby providing early information on tumor genetic alterations. Despite considerable academic interest in the clinical significance of ctDNA, consensus on its utility remains lacking. In this review, we assess the role of ctDNA testing in the diagnosis and management of NSCLC as a reference for clinical intervention in this disease. Lastly, we examine future directions to optimize ctDNA for personalized therapy.

Published
2023
Full Text
View/download PDF

20. Experimental Research on the Seismic Ductility Performance of Wavy Web PEC Beams.

Author

Yang, Kejia, Lu, Tianyu, Li, Jie, and Lou, Hanzhong

Abstract

To improve the out-of-plane stability of partially encased composite (PEC) beam webs and enhance the synergy between concrete and section steel, a new type of wavy web PEC beam was designed and fabricated. In this study, the flange thickness and shear–span ratio were varied as key parameters. Low-cycle reversed loading tests were conducted to investigate the effects of these variables on the load-bearing capacity, failure patterns, deformation capacity, hysteretic energy dissipation capacity, and stiffness degradation of the wavy web PEC beams. Numerical simulations were performed using ABAQUS CAE2023, a finite element analysis (FEA) software, under low-cycle reversed loading conditions. The applicability of the ABAQUS software CAE2023 for the corrugated web PEC beam model was validated by comparing test results with finite element analysis results. A detailed parametric analysis was then carried out using the finite element model to further investigate the mechanical properties of the wavy web PEC beams. The research findings are as follows: the wavy web PEC beams exhibited good ductility; a larger shear–span ratio led to a transition in the failure pattern from shear failure to flexural failure; varying the flange thickness significantly affected the failure location and characteristics; and reducing the flange thickness could limit the propagation of concrete cracks, thereby improving toughness and energy dissipation capacity. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

21. Effect of Heat Treatment on Microstructure and Properties of Powder Metallurgy High-Speed Steel Prepared by Hot Isostatic Pressing.

Author

Zhang, Deyin, Lu, Tianyu, Hao, Xu, Wu, Yixiao, Zhang, Jiaxun, Sun, Mingming, Jia, Baorui, Wu, Haoyang, Qin, Mingli, and Qu, Xuanhui

Abstract

The microstructure and properties of powder metallurgy high-speed steel prepared by hot isostatic pressing with different heat treatments have been studied. The microstructure, phase composition, effect of quenching and tempering parameters, fracture morphology, and mechanical properties of the sample are discussed in detail. The H-HSS sample presents the characteristics of the powder prior to the particle boundary and consists of carbide and ferrite, in which the carbides are fine and evenly dispersed without segregation. The bending strength and hardness of the H-HSS sample are 3112 MPa and 56.3 HRC, respectively. The Q-HSS sample is mainly composed of martensite, residual austenite, and carbides. With the increase in quenching temperature, the grain size of the matrix gradually grows, and the small carbide particles dissolve into the matrix, causing an increase in carbide size and a decrease in quantity. The bending strength and hardness of the Q-HSS sample quenched at 1210 °C achieve the maximum values of 3114 MPa and 68.8 HRC, respectively. After tempering, the martensite is transformed from a quenched lath shape to a needle shape, the residual austenite content decreases, and secondary carbides precipitate from the matrix, resulting in a secondary hardening. The T-HSS sample that is quenched at 1120 °C followed by tempering at 550 °C for 20 min has the best bending strength of 4355 MPa. However, the T-HSS sample that is quenched at 1240 °C followed by tempering at 550 °C for 120 min has a maximum hardness value of 69.5 HRC. The fracture mode of Q-HSS sample is brittle fracture, and the fracture mechanism is cleavage fracture. After tempering, the fracture mechanism of the T-HSS sample presents a transitional fracture mode between the cleavage fracture and micropore aggregation fracture. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

30. Magnetically-responsive silica–gold nanobowls for targeted delivery and SERS-based sensing

Author

Mo, Alexander H, Landon, Preston B, Gomez, Karla Santacruz, Kang, Heemin, Lee, Joon, Zhang, Chen, Janetanakit, Woraphong, Sant, Vrinda, Lu, Tianyu, Colburn, David A, Akkiraju, Siddhartha, Dossou, Samuel, Cao, Yue, Lee, Kuo-Fen, Varghese, Shyni, Glinsky, Gennadi, and Lal, Ratnesh

Subjects
Physical Sciences, Engineering, Nanotechnology, Biomedical Engineering, Bioengineering, Cell Line, Tumor, Gold, Humans, Nanoparticles, Polystyrenes, Silicon Dioxide, Spectrum Analysis, Raman, Chemical Sciences, Technology, Nanoscience & Nanotechnology, Chemical sciences, Physical sciences
Abstract

Composite colloidal structures with multi-functional properties have wide applications in targeted delivery of therapeutics and imaging contrast molecules and high-throughput molecular bio-sensing. We have constructed a multifunctional composite magnetic nanobowl using the bottom-up approach on an asymmetric silica/polystyrene Janus template consisting of a silica shell around a partially exposed polystyrene core. The nanobowl consists of a silica bowl and a gold exterior shell with iron oxide magnetic nanoparticles sandwiched between the silica and gold shells. The nanobowls were characterized by electron microscopy, atomic force microscopy, magnetometry, vis-NIR and FTIR spectroscopy. Magnetically vectored transport of these nanobowls was ascertained by time-lapsed imaging of their flow in fluid through a porous hydrogel under a defined magnetic field. These magnetically-responsive nanobowls show distinct surface enhanced Raman spectroscopy (SERS) imaging capability. The PEGylated magnetically-responsive nanobowls show size-dependent cellular uptake in vitro.

Published
2016

36. Effects of miR-99a on the migration and proliferation of glioma cells

Author

Xu Yifan, Lu Tianyu, Xu Wu, Dai Yuxiang, Liang Weibang, and Jin Wei

Subjects
mir-99a, migration, proliferation, glioma, Medicine
Abstract

Background To evaluate the effects of miR-99a on the migration and proliferation of glioma cells. Materials and Methods: Glioma cell line LN229 with stable up-regulation of miR-99a was constructed by transfection of hsa-miR-99a mimics, and cells with stable miR-99a knock-down were established by transfection of hsa-miR-99a inhibitor. The proliferation capacities of two groups were detected by the MTT assay, and their migration capacities were detected by the scratch assay. Results: LN229 cells with stable up-regulation and knock-down of miR-99a were successfully constructed. Up-regulating miR-99a inhibited the proliferation and migration of glioma cells, but knocking down this gene promoted their proliferation and migration. Conclusion: MiR-99a significantly affected the proliferation and migration of glioma cells, as a potentially eligible target for glioma therapy.

Published
2018
Full Text
View/download PDF

39. Adsorption Behavior and Kinetics of 1,4-Dioxane by Carbon Aerogel.

Author

Lu, Tianyu, Huang, Huihui, Lv, Guifen, Li, Fei, Song, Ren-jie, and Cai, Yuting

Subjects
ADSORPTION kinetics, MICROPOROSITY, ADSORPTION isotherms, AEROGELS, ADSORPTION capacity, SCANNING electron microscopes
Abstract

1,4-dioxane is a potential carcinogen in water and is difficult to deal with due to its robust cycloether bond and complete miscibility with water. To remove 1,4-dioxane in an economically viable and environmentally friendly way, a series of carbon aerogels were synthesized as adsorbents for 1,4-dioxane. The experiment results showed that adsorption performances were closely related to the preparation conditions of carbon aerogels, such as the molar ratio, heating rate, pyrolysis temperature and residence time, which were carefully controlled. Scanning electron microscope analysis revealed the presence of a three-dimensional porous network structure in carbon aerogels. Brunauer–Emmett–Teller analysis results demonstrated an increase in specific surface area (673.89 m2/g) and total pore volume after carbonization, with an increase in mesoporous porosity and a decrease in microporosity. When considering each variable individually, the highest specific surface area of prepared carbon aerogels was achieved at a pyrolysis temperature of 800 °C, a holding time of 1 h, and a heating rate of 2 °C/min. Under optimal experimental conditions, the adsorption removal of 1,4-dioxane by carbon aerogels exceeded 95%, following quasi-second-order kinetics and Langmuir isothermal adsorption isotherms, indicating that monolayer adsorption on the surface of carbon aerogels occurred. The maximum adsorption capacity obtained was 67.28 mg/g at a temperature of 318 K, which was attributed to the presence of a large proportion of mesopores and abundant micropores simultaneously in carbon aerogels. Furthermore, with the interference of chlorinated solvents such as trichloroethylene (TCE), the removal efficiency of 1,4-dioxane had no obvious inhibition effect. Regeneration experiments showed that after five continuous cycles, the carbon aerogels still kept a comparable adsorption capacity, which illustrates its potential application in 1,4-dioxane-polluted water purification. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

45. Research on the Influence of the Disturbance Rejection Rate of a Roll–Pitch Seeker on Stable Tracking Characteristics.

Author

Xiao, Bowen, Lu, Tianyu, Ma, Zeyuan, and Xia, Qunli

Subjects
ARTIFICIAL satellite tracking, ANGULAR velocity, PROPORTIONAL navigation, TRANSFER functions, TORQUE
Abstract

The disturbance rejection rate (DRR) is an inherent problem of the seeker. The additional line-of-sight (LOS) angular velocity information of the seeker caused by the DRR will affect the attitude of the aircraft through the guidance system, thus forming a parasitic loop in the guidance and control system of the aircraft, which has a great influence on the guidance accuracy. In this study, the influence of the DRR of the roll–pitch seeker on the stable tracking of a maneuvering target is explored. First, the tracking principle of the roll–pitch seeker is analyzed and the conditions for completely isolating the disturbance of the aircraft attitude are deduced. Then, the expression of the frame error angle is derived, a semi-strap-down stable control closed-loop scheme is established, and the DRR transfer function is derived by adding different disturbance torque models. Finally, the simulation of stability tracking characteristics is carried out. The results show that when the aircraft attitude is disturbed at a low frequency or the target is maneuvering at a low frequency, the DRR caused by the spring torque has a great influence on the tracking angle of the two frames, the line of-sight rate accuracy of the optical axis output and the detector error angle. On the contrary, the damping torque DRR plays a leading role in tracking accuracy. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

46. Mass cytometry and single-cell RNA sequencing reveal immune cell characteristics of active and inactive phases of Crohn’s disease

Author

Lin, Wenjia, primary, Liu, Shiying, additional, Huang, Zhuojian, additional, Li, Haiwen, additional, Lu, Tianyu, additional, Luo, Yongxin, additional, Zhong, Jiamin, additional, Xu, Zewen, additional, Liu, Yu, additional, Li, Yanwu, additional, Li, Peiwu, additional, Xu, Qian, additional, Cai, Jiazhong, additional, Li, Huibiao, additional, and Chen, Xin-lin, additional

Published
2023
Full Text
View/download PDF

47. Targeting LncRNA LLNLR-299G3.1 with antisense oligonucleotide inhibits malignancy of esophageal squamous cell carcinoma cells in vitro and in vivo

Author

TIAN, LI, primary, HUANG, YONGYI, additional, ZHANG, BAOZHEN, additional, SONG, YI, additional, YANG, LIN, additional, CHEN, QIANQIAN, additional, WANG, ZHENG, additional, WANG, YILING, additional, HE, QIHAN, additional, YANG, WENHAN, additional, YU, SHUYONG, additional, LU, TIANYU, additional, LIU, ZICHEN, additional, GAO, KAIPING, additional, FAN, XIUJUN, additional, SONG, JIAN, additional, and ZHAI, RIHONG, additional

Published
2023
Full Text
View/download PDF

50. Petrogenesis of granites postdating the onset of the India-Eurasia collision in the southern Lhasa terrane, Tibet

Author

Lu, Tianyu

Subjects
ddc:550
Abstract

Die kontinentale Kruste, die für die biologische und geologische Geschichte der Erde von zentraler Bedeutung ist, weist eine andesitische bis dazitische Zusammensetzung auf mit einem vertikalen Aufbau von der mafischen unteren Kruste zur stärker entwickelten, felsischen oberen Kruste. Demnach dokumentieren felsische magmatische Gesteine die Bildung, Differenzierung und Rekonstruktion der kontinentalen Kruste sowie die Wechselwirkung der Kruste mit dem Erdmantel. Diese felsischen Magmen können durch Differenzierung von Primärmagmen durch fraktionierte Kristallisation innerhalb der Kruste oder des obersten Mantels oder durch teilweises Aufschmelzen von früherem Krustengestein entstehen. Für die Entstehung von Rhyolith hat sich in den letzten Jahrzehnten das "Mush-Modell" etabliert, bei dem allgemein davon ausgegangen wird, dass es sich bei Rhyolith um eine Schmelze handelt, die durch Fraktionierung von intermediären Magmen in der flachen Kruste entstanden ist. Es ist jedoch unklar, ob es sich bei felsischen Plutonen um erstarrte Schmelzen handelt, oder um die Überreste, die bei der Extraktion der entwickelten Schmelze zurückgeblieben sind. Daher ist ein besseres Verständnis der Prozesse erforderlich, die die Entstehung von felsischen plutonischen Gesteine steuern. Darüber hinaus sind adakitische Gesteine als eine Unterart von felsischen Gesteinen von entscheidender Bedeutung für die Entschlüsselung der Entwicklungsprozesse in der Kruste und der Bildung wirtschaftlicher Mineralisierungen, insbesondere der porphyrischen Kupferlagerstätten. Bisherige Studien konzentrierten sich jedoch vor allem auf die Quellen der adakitischen Magmen und ihre tektonische Umgebung, während über die Prozesse der Magmenentwicklung nach der Bildung dieser adakitischen Schmelzen relativ wenig bekannt ist. Der magmatische Gürtel von Gangdese, der in Südtibet am südlichsten Zipfel Eurasiens liegt, wurde von der Subduktion der Neotethys und der anschließenden Kollision von Indien und Eurasien beeinflusst, die zur Bildung des riesigen Gangdese-Batholith führte und somit umfangreiche Möglichkeiten zur Untersuchung der Entstehung felsischer plutonischer Gesteine bietet. In dieser Arbeit sollen verschiedene Phasen des felsischen Magmatismus innerhalb des Gangdese-Batholiths untersucht werden, die sich auf den Beginn der Indien-Eurasien-Kollision zurückdatieren lassen und sich im Wesentlichen in den kalkalkalischen Magmatismus des Paläozän bis Eozän und den adakitischen Magmatismus des späten Eozän bis Miozän gliedern. Damit soll unser allgemeines Verständnis erstens der transkrustalen magmatischen Prozesse, die zur Bildung felsischer plutonischer Gesteine führen, und zweitens des Ursprungs, der geodynamischen Mechanismen und der Mineralisierung von adakitischen Gesteinen verbessert werden. Um den paläozänen bis eozänen kalkalkalischen Magmatismus zu erforschen, untersuchten wir den ca. 50 Millionen Jahre (Ma) alten granitischen Pluton von Nyemo, der eine einzigartige geschichtete Zusammensetzung von mittleren bis hohen SiO2-Gehalten aufweist. Außerdem zeigt er einen Übergang von gleichkörnigen und porphyrischen Texturen an der Basis zu miarolitischen Texturen in der Dachzone und bietet somit eine einzigartige Gelegenheit, die Koexistenz von extrahierten Schmelzen und komplementären felsischen Kumulaten in einem der vollständigsten transkrustalen felsischen magmatischen Systeme der Erde zu belegen. Die einheitlichen Hf-Isotopenzusammensetzungen von Zirkon dieser Intrusivgesteine lassen auf eine gemeinsame, nicht-radiogene Magmenquelle mit Krustenassimilation in der tiefen Kruste schließen. Miarolit- und Rapakivi-Granite mit hohem SiO2-Gehalt weisen stark verarmte Ba-, Sr- und Eu-Gehalte und extrem niedrige Zirkon-Eu/Eu*- und -Dy/Yb-Verhältnisse auf, während der Monzogranit durch relativ angereicherte Ba- und Sr-Gehalte, niedrige Eu-Anomalien und hohe Zirkon-Eu/Eu*- und Dy/Yb-Verhältnisse gekennzeichnet ist. Wir argumentieren, dass die SiO2-reichen Granite hoch fraktionierte Schmelzen darstellen, die aus einem Kristallbrei-Reservoir gewonnen wurde, und dass der Monzogranit die komplementären restlichen felsischen Kumulate darstellt. Die zusammengetragenen geochronologischen und geochemischen Daten des adakitischen Magmatismus des späten Eozäns bis Miozäns im südlichen Lhasa-Subterrane liefern Beweise für die Identifizierung von zwei Phasen des adakitischen Magmatismus nach Einsetzen der Kollision (ca. 38-25 Ma und ca. 20-10 Ma), die Unterschiede in der Fraktionierung zwischen leichten und mittleren seltenen Erdelementen (REE) aufweisen. Die untersuchten adakitischen Monzogranite (ca. 30 Ma) und Granodiorite (ca. 15 Ma) von den Standorten Gyaca und Nyemo weisen alle einheitliche chemische Signaturen auf, wie z.B. geringfügige Eu-Anomalien, niedrige MgO- und schwere REE-Konzentrationen sowie niedrige Gehalte an kompatiblen Elementen. Das deutet darauf hin, dass diese Gesteine aus dem partiellen Aufschmelzen von verdickter unterer Kruste mit Resten von Eklogit und Granatamphibolit stammen. Darüber hinaus sind diese Gesteine durch variable positive εHf(t)-Werte von Zirkon gekennzeichnet, was auf eine juvenile Magmaquelle mit variierenden Anteilen alter Kruste hindeutet. Wir vermuten außerdem, dass die adakitischen Gesteine der frühen Phase durch die Anatexis der unteren Kruste des Lhasa-Terranes infolge der Krustenverkürzung und -verdickung nach dem Beginn der Indien-Eurasien-Kollision und des Auftriebs der heißen Asthenosphäre unter dem Lhasa-Terran durch den Abbruch der ozeanischen Platte der Neotethys entstanden sind, während die adakitischen Gesteine der späten Phase auf das Aufsteigen der Asthenosphäre nach der Delamination und/oder dem Abbruch der subduzierenden indischen Kontinentalplatte zurückzuführen sind. Um einen Einblick in die Entwicklung des adakitischen Magmas und die damit verbundenen wirtschaftlichen Mineralisierungsprozesse zu gewinnen, präsentieren wir die in situ-Spurenelementzusammensetzung von Zirkon der adakitischen Gesteine aus Nyemo aus dem Oligozän-Miozän in Kombination mit früheren geochemischen Gesamtgesteinsdaten. Systematische Variationen in der Spurenelementzusammensetzung von Zirkon belegen die fraktionierte Kristallisation bestimmter Minerale (z.B. Titanit, Magnetit) im Monzogranit und die Gleichgewichtskristallisation im Granodiorit. Dies wird auch durch thermodynamische Modellierungen bestätigt, die ergaben, dass die monzogranitischen und granodioritischen Magmen geringfügige fraktionierte Kristallisation (Schmelzanteil bis zu ~70 %) bzw. Gleichgewichtskristallisation durchliefen. Die progressiv verringerte Sauerstofffugazität während der Magnetitfraktionierung in den monzogranitischen Magmen führte zur Absonderung von Sulfiden, die der Schmelze Schwefel und chalcophile Elemente wie Ni und Cu entzogen. Daraus schließen wir, dass die Magnetitfraktionierung in der flachen bis mittelkontinentalen Kruste zur geringen Cu-Fertilität der Magmen beitragen kann, die einige der Cu-armen adakitischen Gesteine nach der Kollision im magmatischen Gürtel von Gangdese bilden.

Published
2023

Catalog

Books, media, physical & digital resources
See catalog results