资源学院分论坛,关于举办华南理工大学

作者:管家婆正版四不像图

2018年中国矿业大学海外青年学者“越崎论坛”

广大师生: 华南理工大学“海内外优秀青年学者论坛”旨在面向全球邀请拥有不同学术背景的青年才俊,围绕国际科学前沿、热点研究领域以及行业产业的技术问题等展开探讨和交流。希望藉此平台,互相启迪、开拓视野,增强国际交流与合作,促进双方共同发展。现将医学院分论坛有关安排通知如下:一、论坛时间2018年10月24日14:00-17:00二、论坛地点华南理工大学大学城校区B2-513会议室 三、论坛议程

资源学院分论坛

日期

间:2018年6月6日-7日

时间

主办单位:资源与地球科学学院

事项或议程

欢迎全校师生踊跃参加!

地点

第一会场

10月23日

地点:煤层气资源与成藏过程教育部重点实验室319会议室

全天

(文昌校区北门外大学科技园B座)

报到、入住;

时间:2018年6月7日9点

大学城中心酒店

报告一:Particle-based modeling of pull-apart basin development

10月24日

报告人:刘源,博士后, 德国弗莱贝格工业大学

14:00-17:00学术报告主持人:廉哲雄

报告摘要:

报告人:曾筑天(加拿大卡尔加里大学Cumming 医学院博士后)题目:To See the Unseen: Intravital imaging reveals key immune defense mechanisms against bloodstream bacterial infection

1. A scale-independent modeling approach based on the Discrete Element Method has been built to investigate pull-apart basin development.

B2-513会议室

2. The shape of a pull-apart basin is the consequence of both initial strike-slip geometry and its various evolution stages.

报告人:叶浩彬(科罗拉多大学医学院博士后)题目:Management of Leukemia from Metabolic Perspectives

3. Minimum displacements to form pull-apart basins, and minimum ages of initiation for pull-apart basins can be estimated.

欢迎广大师生参加! 医学院2018年10月22日1.报告人:曾筑天(加拿大卡尔加里大学Cumming 医学院博士后)报告题目:To See the Unseen: Intravital imaging reveals key immune defense mechanisms against bloodstream bacterial infection内容摘要:Bloodstream bacterial infection is on the rise due to the wide spread use of indwelling intravenous catheters and immunosuppressive iatrogenic interventions. First-pass clearance of blood-borne bacteria is critical to control bloodstream infections and to prevent systemic dissemination. The liver has been well known as a blood-filtering organ capable of sequestering circulating bacteria via its vast pool of intravascular macrophages-Kupffer cells. However, the molecular mechanism underlying Kupffer cell mediated capture of circulating pathogens under shear conditions remains less understood. Taking advantage of high-speed real time intravital imaging, we visualized the dynamic process of bacterial capture by Kupffer cells, and revealed novel mechanisms utilized by Kupffer cells to catch bacteria. We observed a pattern recognition role for complement receptor-CRIg in the capture of circulating Gram-positive bacteria from the bloodstream by directly binding to the Lipoteichoic Acid of Gram-positive bacteria, such as S. aureus. We also observed a sex-biased difference of Kupffer cells in capture circulating enteropathogenic E. coli . While complement opsonization was indispensable for the capture of EPEC in male mice; however, a faster, complement-independent process involving abundant preexisting antibodies to EPEC was detected in female mice. These antibodies were elicited predominantly in female mice at puberty in response to estrogen regardless of microbiota-colonization conditions. Estrogen-driven antibodies were maternally transferrable to offspring and conferred protection during infancy. Thus, an estrogen-driven, innate antibody-mediated immunological strategy conferred protection to females and their offspring. 报告人简介︰曾筑天博士于2004年至2008年就读于中国科学技术大学生命科学学院,取得学士学位。随后在中国科学技术大学免疫学研究所师从田志刚院士并于2014年7月获得细胞生物学博士学位。2014年8月至今,曾筑天博士在加拿大卡尔加里大学师从国际著名免疫学专家Paul Kubes教授进行博士后研究。在博士及博士后研究期间,曾筑天博士在肝脏天然免疫学及感染应答机制等方向做出一系列具有延续性和创新型的重要研究,主要利用高分辨率活体显微成像技术实现了对肝脏局部免疫细胞和血液中微生物动态相互作用的实时成像观测,揭示了肝脏抗细菌感染免疫的分子细胞机制,发现了全新的由雌激素诱导的天然抗体新群体,并对慢性病毒感染状态下肝脏免疫功能低下致使乙肝病毒不能被有效清除阐明了机制。其研究成果以第一作者身份发表在了Nature Immunology, Cell Host&Microbe, Journal of Experimental Medicine, Journal of Immunology等高水平免疫学期刊上。曾筑天博士是免疫学领域的优秀青年学者,多年来致力于肝脏疾病免疫学基础研究及潜在免疫治疗方法的开发,在肝脏免疫这一重要领域具有坚实的研究基础,具有清晰合理的未来规划以及巨大的发展潜力。曾筑天博士掌握独特的科研技术,能对活体小动物肝脏,肾脏,脾脏等多个脏器免疫细胞进行直接实时动态的显微成像检测及分析,是目前国际上为数不多的能对上述多个脏器进行活体动态成像研究的学者之一。 2.报告人:叶浩彬(科罗拉多大学医学院博士后)报告题目:Management of Leukemia from Metabolic Perspectives内容摘要:Obese leukemia patients have a poorer prognosis compared to normal weight patients, suggesting that obesity-associated conditions protect leukemia cells/leukemia stem cells from chemotherapy. Further, obese population have a higher risk for leukemia, indicating that obesity promotes disease development and progression. However, the biological mechanisms underlying these phenomena remain unknown. In today’s presentation, the author introduces two studies that reveal the mechanisms for the phenomena mentioned above. The first study has demonstrated that adipose tissue functions as a sanctuary for LSCs. Briefly, LSCs are found to be enriched in adipose tissue. Tranome comparisons show that compared to hematopoietic tissue-resident LSCs, adipose-resident LSCs display a pro-inflammatory gene signature, which leads to an inflamed state in adipose tissue, and consequently an increased lipolysis rate as evidenced by elevated serum fatty acids level. Lipolysis-derived fatty acids are utilized by two distinct pathways: 1) fatty acids-induced inflammation pathway and 2) fatty acid oxidation pathway. Interestingly, a LSC subpopulation that has a high-level expression of the fatty acid transporter CD36 (CD36 LSCs) displays a significantly higher FAO rate compared to CD36- LSCs and is strikingly enriched in adipose tissue. Further, CD36 LSCs are more chemo-resistant compared to CD36- LSCs partially due to CD36-mediated FAO. More importantly, a CD36 LSC subpopulation is also observed in primary human leukemia patient samples. Human CD36 LSCs display a higher FAO rate and are chemo-resistant compared to CD36- LSCs. Collectively, this study shows that the interplay between leukemia cells and adipose tissue creates a unique microenvironment that supports the metabolic demands and survival of a distinct LSC population.The second study demonstrates that leukemic disease causes aberrancies in multiple tissues including adipose tissue, pancreas, gut and gut microbiota to subvert the systemic glucose metabolism to support growth of leukemia cells. Briefly, leukemia mice are found to have characteristics of both type 2 and type 1 diabetes: insulin resistance and insulin defect, conditions that inhibit glucose utilization in normal tissues. Mechanistically, leukemia induces a high-level production of IGFBP1 from adipose tissue, which results in insulin resistance. Further, leukemic disease impairs gut functions causing loss of gut-derived serotonin and dysbiosis. Serotonin loss results in inhibition of insulin secretion and dysbiosis leads to insulin resistance and less production of microbiota-derived short chain fatty acids such as butyrate and propionate. Supplementation of serotonin or SCFAs impedes leukemia progression. Importantly, combination of serotonin and SCFAs supplementations drastically reduce leukemic burden and prolong survival of leukemic mice by directly increasing the uptake and utilization of glucose in normal tissues. Together, these data demonstrate that restoration of normal glucose regulation may be a feasible strategy to suppress systemic growth of malignant cell types. Taking together, these two studies suggest that interventions by targeting either intracellular metabolism of LSCs or systemic metabolism are effective means for disease management.报告人简介︰叶浩彬,博士,男,1986年出生,毕业于罗切斯特大学医学院 (University of Rochester Medical Center),现为科罗拉多大学医学院(University of Colorado Medical Campus)博士后,主要进行白血病病理和白血病干细胞代谢及其微环境研究。已在Cancer Cell、 Cell Stem Cell、blood和Journal of Biological Chemistry等期刊上发表论文及摘要8篇。担任Cancers、International Journal of Molecular Sciences、Molecules和Vaccines等国际学术期刊审稿人。

个人简介:

附件:

刘源,2018年4月博士毕业于德国弗莱贝格工业大学(TU Bergakademie Freiberg),博士论文德国评分获得“magna cum laude”(优秀),现继续博士后研究。专业是构造地质学,研究方向为地质过程的数值模拟,博士阶段师从国际著名岩石力学和数值模拟专家Heinz Konietzky教授,学习用离散元数值模拟方法解决地质构造过程中的断裂扩展问题,属学科交叉研究。首次将离散元(DEM)方法应用到大尺度的地质构造演化模拟中,建立了拉分盆地的断裂和盆地演化过程的数值模型,通过对模型尺度和断裂参数的分析研究,首次基于离散元方法(颗粒流PFC)模拟了拉分盆地形成演化过程中的断裂扩展问题,揭示了菱形拉分盆地的起源问题,给出了计算拉分盆地形成的最小位移和最小时间的方法,为拉分盆地的形成演化过程提供了新的研究思路和方法,相关成果以第一作者兼通讯作者发表于构造地质学界顶级期刊Tectonics(IF:3.784)上。

报告二:Understanding the mechanical properties of shale in nanoscale

报告人:刘扣其博士,美国北达科他大学

报告摘要:Shale, nanoindentation , Modulus, Creep

个人简介:

刘扣其,美国北达科他大学应届博士毕业。主要研究方向为页岩微孔结构分析和微观力学性能表征。博士期间以第一作者发表SCI 论文12 篇(7篇top),参与编著专著一部,参加国际会议10余次。SPE, AAPG, ARMA, SEG, AGU, TSOP 等国际组织会员。Fuel,Energy& Fuel, Marine and petroleum geology, JPSE, JNGSE 等期刊审稿人。

第二会场

地点:大学科技园515会议室(文昌校区北门外大学科技园B座)

时间:2018年6月7日9点

报告题目:基于土壤水文理论的降雨诱发滑坡预警。

报告人:邵伟,博士后,南京信息工程大学

个人简介:

邵伟,博士毕业于荷兰代尔夫特理工大学,从事极端暴雨条件下山坡水文过程模拟及滑坡灾害防治。曾利用半年时间访学于香港科技大学土木与环境工程学院,从事坡地植被生态修复工程研究。在山区生态水文、渗流-边坡稳定性模型构建及数值模拟方面具有深厚技术积累,目前为南京信息工程大学博士后。发表SCI论文12篇,第一作者6篇,获得中国博士后基金两项。

第三会场

地点:南湖校区资源学院A508

时间:2018年6月7日9点

报告一:虚拟源在四维地震监测的应用

报告人:赵杨,博士,沙特阿美国家石油公司北美研发中心

报告摘要:Interferometric virtual source redatuming converts surface-triggered source records into the equivalent records as if they originated from buried receiver locations by crosscorrelating downgoing waves with the corresponding upgoing waves. The theory suggests that when the receivers are surrounded by an enclosing boundary of sources, then the VS has an isotropic radiation pattern and yields an accurate response. The resultant records should determine improvement in the seismic repeatability and image quality compared with non-VS. However, in the presence of a complex near surface, an intricate shallow structure and highly variable weathering layers can severely distort the raypath, such that it produces uneven angle coverage to the buried VS. In addition, near-surface reverberations, surface multiples, and other mode-converted waves may leak into the time-gated early arrivals and further corrupt the direct wavefields. The above-mentioned issues can result in distorted radiation patterns and contaminated responses of the VS. We address these issues explicitly by spatially filtering the potentially contaminated direct wavefields using a zero-phase matched filter, such that the filtered wavefield is consistent with a model-based ideal direct P-wavefield observed at common receiver locations. This ideal reference response is computed from a homogeneous approximation to the local near-surface overburden on top of each VS. The phases of the original direct arrivals are preserved. Components associated with the reverberations and other noises can be effectively suppressed as their spatial radiation patterns deviate from that of the ideal single P-wave mode. Toward an isotropic radiation pattern by the iterative matched filter, we reduce the unbalanced illumination arising from imperfect source coverage and near-surface complexity. In addition, we have developed a new interferometric redatuming method based on crosscorrelation in the wavelet domain. Specifically, by transforming time-offset data into the local time-scale and local TS-wavenumber domains, we have designed and applied filters on the amplitude of the cross spectra in each domain to suppress the aforementioned artifacts and noise, while maintaining accurate kinematic information by retaining the original phase spectra. Components associated with scattering noise and ground roll can be effectively suppressed because our designed filters tackle their features accurately in the local TS and local TS-wavenumber domains, respectively. Compared with previous methods, the new VS approach provides significantly improved image quality and repeatability based on a pilot field of 13 time-lapse surveys, which solved a significant repeatability problem across a 17 month survey gap.

个人简介:

赵杨, 男,34岁,出生于山西太原。2006年北京大学本科赴美学习,2012年在美国加州伯克利大学获得博士学位,现就职于沙特阿美国家石油公司北美研发中心,任资深地球物理勘探师。赵杨博士拥有6年在美国石油公司的工业界经验,分别在沙特阿美,壳牌,道达尔和康菲石油参与多个关于墨西哥湾深水和陆上页岩气勘探和研发项目,并获得了宝贵的一线实际生产和前沿的科研经验。科研兴趣和专长主要包括:地震干涉,四维地震处理,弹性波逆时偏移成像,地震基准面重建,并同时熟练使用专业地震数据处理软件,如paradigm, seispace等等。获美国勘探地球物理协会 2012年度最佳论文奖, 并担任SEG非常规地震技术委员会核心成员(passive seismic technical committee) , 获得沙特阿美公司2017年度青年学者奖(young professional award).

报告二:海洋地震采集及处理新技术

报告人:沈洪垒博士,CGG地球物理公司

个人简介:

沈洪垒,2009年毕业于吉林大学勘查技术与工程专业,2014年获浙江大学工学博士,现供职于全球最大的海上地球物理公司CGG,任研发项目工程师。求学期间曾赴挪威FUGRO公司及挪威奥斯陆大学从事访问研究工作,主要研究领域包括高分辨率地震数据采集及分析、复杂噪音压制、海洋气枪震源优化设计及高效地震数据采集。目前已发表多篇国际学术期刊和会议论文,并申请多项美国及中国发明专利。曾荣获2011年度林百欣高科技奖三等奖、2012年度全国博士生学术论坛优秀论文二等奖并入围2016年度CGG公司技术奖评选。

第四会场

地点:南湖校区资源学院B300

时间:2018年6月6日14点30分

报告题目:Coupling maximum entropy modeling with geotagged social media

data to determine the geographic distribution of tourists /《耦合最大熵模型及地

理标记的社交媒体数据进行地理分布建模》

报告人:严滢伟(研究员/ 博士(后))

个人简介:

严滢伟,博士,全职研究员,兼任讲师,任职于新加坡国立大学文学

暨社会科学院。2016-2017 年,德国海德堡大学地理研究所,从事博士后研究;

2012-2016 年,新加坡国立大学地理系,获地理信息科学(GIS)专业博士学位;

2011-2012 年,香港中文大学地理与资源管理系,获GIS 专业硕士学位;2005-2009

年,山东建筑大学,土木工程学院,获测绘工程专业学士学位。

主要研究兴趣是自发式地理信息(Volunteered Geographic Information)及其

在生态、灾害、土地利用、数字人文等方面的应用研究。合作主持新加坡教育部

科研项目一项:《新加坡数字人文GIS》; 另参与完成相关科研项目包括:《基于

众包的土地利用及土地覆盖监测》、《基于众包的自然灾害

和危机管理》、《Village Tree》(新加坡国立大学大众社交

媒体创新中心),以及《志愿者地理众包视频在智能城市管理中的应用研究》(新

加坡中国合作项目)。

多篇研究成果先后在International Journal of Geographical Information

Science ,Applied Geography, ISPRS International Journal of Geo-information

(IJGI), Geojournal 等国际学术期刊和会议上发表。其中两篇论文获得Esri

际优秀青年学者奖,该奖项由Esri 创始人兼总裁Jack Dangermond 以及

Michael Frank Goodchild 教授于美国圣地亚哥亲自颁发;一篇作为IJGI 杂志封面

文章进行发表。他的研究成果也受到多个国际媒体关注并且被公开报道,包括新

加坡海峡时报,BioTech In Asia 及CIO ASIA 等。

严滢伟博士也曾担任International Journal of Geographical Information Science,

ISPRS International Journal of Geo-Information,Arabian Journal of Geosciences,

Environments, Sustainability 等多个SCI 和EI 期刊匿名审稿人

本文由2019年香港四不像正版发布,转载请注明来源

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