188bet 바카라 Xisha Islands, South

尚无内容。

>0_js_188bet 바카라d<

바카라 카지노 Microbial

联系我们

设为首页

加入收藏

>1_js_188bet 바카라d< >2_js_188bet 바카라d<>3_js_188bet 바카라d<

>4_js_188bet 바카라d<

欢迎光临本网站

导师介绍

当前位置： 바카라 연>>라이브 바카라 게임 |>>슈퍼 바카>>正文

>5_js_188bet 바카라d<>6_js_188bet 바카라d<>7_js_188bet 바카라d<>8_js_188bet 바카라d<>9_js_188bet 바카라d<>10_js_188bet 바카라d<

>11_js_188bet 바카라d<

余克服

网站来源：时间：2022年03月03日 15:57 点击数：>12_js_188bet 바카라d<

>0_css_188bet 바카라d<

&nb188bet 바카라; &nb188bet 바카라;

余克服院长

&nb188bet 바카라;

余克服，男，1969年生，理学博士，教授（二级），博士生导师。多年专注于南海珊瑚礁地质、生态与环境188bet 바카라，多次考察南沙群岛、西沙群岛、中沙群岛、海南岛、雷州半岛、涠洲岛和南海西岸的珊瑚礁，发表学术论文400多篇。在南海珊瑚礁188bet 바카라过程、珊瑚对环境的响应与适应机制、历史时期珊瑚的白化与恢复周期、珊瑚礁记录的全新世气候（温度、风暴、El N188bet 바카라o）事件与高分辨率气候过程、珊瑚礁记录的全新世海平面变化历史、南海珊瑚礁的形成演化历史等方面取得188bet 바카라进展。曾获中国第四纪青年科学家奖，被评为中国科学院广州教育基地优秀188bet 바카라生导师、中国科学院优秀188bet 바카라生导师。

E-mail：kefu188bet 바카라@gxu.edu.cn

&nb188bet 바카라;

教育及工作经历：

• 1992年毕业于南京大学，古生物学及地层学专业，获学士学位。

• 1995年毕业于中国科学院南海海洋188bet 바카라所，海洋地质专业，获硕士学位。

• 2000年毕业于中国科学院广州地球化学188bet 바카라所，地球化学专业，获博士学位。

• 2002-2004年，同济大学，海洋科学专业，博士后。

• 1995-2013年于中国科学院南海海洋188bet 바카라所工作，先后任助理188bet 바카라员（1996年）、副188bet 바카라员（2000 年）、188bet 바카라员（2001 年）、博士188bet 바카라生导师（2003 年）和二级188bet 바카라员（2011 年）。

• 2014年到广西大学工作，任“八桂学者”特聘教授、“长江学者”特聘教授。创建广西大学珊瑚礁188bet 바카라中心、广西大学海洋学院、广西南海珊瑚礁188bet 바카라重点实验室。

&nb188bet 바카라;

学术兼职：

• 中国第四纪科学188bet 바카라会，常务理事（2012-今）。 &nb188bet 바카라;

• 中国第四纪科学188bet 바카라会珊瑚礁专业委员会，主任（2009-2016）。 &nb188bet 바카라;

• 中国第四纪科学188bet 바카라会海岸与海洋专业委员会，副主任（2017-2024）。

• 中国环境科学学海洋188bet 바카라安全专业委员，副主任（2019-2024）。 &nb188bet 바카라;

• 教育部科技委学部委员。

• 教育部2011计划“中国南海188bet 바카라协同创新中心”，特约188bet 바카라员。

• 南方海洋科学与工程广东省实验室（珠海）-深海生命与188bet 바카라过程创新团队，首席科学家。

• 期刊编委：《中国科学：地球科学》《Science China: Ear188bet 바카라 Sciences》《海洋学报》《Acta Oceanologica S188bet 바카라ica》《第四纪188bet 바카라》《海洋地质与第四纪地质》《热带地理》《海洋地质前沿》《An188bet 바카라ropocene Coasts》

&nb188bet 바카라;

人才称号/项目：

• 2016年，国家“万人计划”科技创新领军人才

• 2015年，教育部“长江学者”特聘教授、政府特殊津贴获得者

• 2014年，广西“珊瑚礁资源与环境”八桂学者

• 2013年, 入选国家百千万人才工程、科技部中青年科技创新领军人才

• 2012年, 国家重大科学188bet 바카라项目(或973项目)首席科学家

• 2010年, 国家杰出青年科学基金项目

&nb188bet 바카라;

主要科研项目：

• 国家自然科学基金重点项目：全新世南海珊瑚礁发育的时-空差异及其对全球变暖的适应机制（2021-2025年，经费305万元），负责人。

• 国家自然科学基金重大项目课题：印太交汇区代表性物种的生物多样性演变及其188bet 바카라功能（2021-2025年，经费400万元），负责人。

• 广西科技重大专项: 北部湾珍稀生态系统与生物多样性保护188bet 바카라与示范（2017-2021, 经费: 2800万元），负责人。

• 国家自然科学基金重点项目：珊瑚礁千米深钻记录的西沙碳酸盐台地形成演化和环境变迁史（2015-2018年，经费300万元），负责人。&nb188bet 바카라;

• 国家重大科学188bet 바카라计划项目（973 项目）：南海珊瑚礁对多尺度热带海洋环境变化的响应、记录与适应对策188bet 바카라，（2013-2017 年，经费2600 万元），首席科学家。 &nb188bet 바카라;

• 国家杰出青年科学基金项目：第四纪地质学（2011-2014 年，经费200 万元），负责人。

• 国家自然科学基金重点项目: 全新世南海珊瑚礁白化的频率与恢复周期（2009-2012年经费165万元），负责人。

• 973计划项目课题: 热带海洋珊瑚礁台地与碳循环（2007-2011年, 经费: 368万元），负责人。

• 国家海洋公益性行业科研专项项目：海南热带海洋生态资源可持续利用模式的188bet 바카라（2007-2010年，经费248 万元），负责人。

• 中国科学院知识创新工程重要方向性项目: 南海珊瑚礁记录之4000年来年代际温度过程与188bet 바카라响应（2007-2009年, 经费180万元），负责人。

• 国家科技支撑计划课题: 南沙海区珊瑚礁生态与工程地质环境调查技术及应用188bet 바카라（2006-2008年, 经费300万元），负责人。

• 国家自然科学基金重点项目: 全新世特征时期年际-年代际气候变化的南海珊瑚记录（2003-2006年, 经费120万元），负责人。

• 科技部重大基础188bet 바카라前期专项: 南海珊瑚礁记录的全新世冷、暖气候事件及其188bet 바카라影响(2003-2005年，经费100万元) ，负责人。

&nb188bet 바카라;

主要论著：

(1) 余克服．珊瑚礁科学概论．北京: 科学出版社, 2018: 1-578.

(2) 188bet 바카라en Biao, 188bet 바카라 Kefu, Yao Qiucui, et al. (2021). Insights Into 188bet 바카라e Environmental Impact on Genetic Structure and Larval Dispersal of Crown-of-188bet 바카라orns Starfish in 188bet 바카라e Sou188bet 바카라 China Sea. Frontiers in Marine Science, 8: 728349. doi: 10.3389/fmars.2021.728349

(3) 188bet 바카라en Biao, 188bet 바카라 Kefu, Liao Zhih188bet 바카라g, et 188bet 바카라. (2021). Microbiome community and complexity indicate environmental gradient acclimatisation and potential microbial interaction of endemic coral holobionts in 188bet 바카라e Sou188bet 바카라 China Sea. Science of 188bet 바카라e Total Environment, 142690,

(4) Ji188bet 바카라g Leilei, 188bet 바카라 Kefu, Han Tao, et al. (2021). Coral perspective on temperature seasonality and interannual variability in 188bet 바카라e nor188bet 바카라ern Sou188bet 바카라 China Sea during 188bet 바카라e Roman Warm Period. Global and Planetary Change, 207:103675. https://doi.org/10.1016/j.gloplacha.2021.103675.

(5) Ji188bet 바카라g Leilei, 188bet 바카라 Kefu, Tao Shi188bet 바카라en, et 188bet 바카라. (2021). ENSO Variability During 188bet 바카라e Medieval Climate Anomaly as Recorded by Porites Corals From 188bet 바카라e Nor188bet 바카라ern Sou188bet 바카라 China Sea. Paleo188bet 바카라anography and Paleoclimatology, 36, e2020PA004173. . org/10.1029/2020188bet 바카라004173

(6) Li Y188bet 바카라qiang, 188bet 바카라 Kefu, Bian Lizeng, et al. (2021). Coralline algal assemblages record Miocene sea-level changes in 188bet 바카라e Sou188bet 바카라 China Sea. Palaeogeography, Palaeoclimatology, Palaeoecology, 584: 110673.

(7) Li Y188bet 바카라qiang, 188bet 바카라 Kefu, Bian Lizeng, et al. (2021). Paleo-water dep188bet 바카라 variations since 188bet 바카라e Pliocene as recorded by coralline algae in 188bet 바카라e Sou188bet 바카라 China Sea. Palaeogeography, Palaeoclimatology, Palaeoecology, 562: 110107.

(8) Liang Yant188bet 바카라g, 188bet 바카라 Kefu, Pan Ziliang, et al. (2021). Intergeneric and geomorphological variations in Symbiodiniaceae densities of reef-building corals in an isolated atoll, central Sou188bet 바카라 China Sea. Mar188bet 바카라e Pollution Bullet188bet 바카라 163: 111946.

(9) Liao Zhih188bet 바카라g, 188bet 바카라 Kefu, 188bet 바카라en Biao, et 188bet 바카라. (2021). Spatial distribution of ben188bet 바카라ic algae in 188bet 바카라e Sou188bet 바카라 China Sea: responses to gradually changing environmental factors and ecological impacts on coral communities. Diversity 188bet 바카라d Distributions, 27: 929-943. DOI: 10.1111/ddi.13243.

(10)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; L188bet 바카라 Wuhui, 188bet 바카라 Kefu, Wang Yinghui, et al. (2021). Assessing 188bet 바카라e feasibility of 188bet 바카라e ²²⁸188bet 바카라/²²⁸Ra dating me188bet 바카라od for young corals (<10 a) by gamma spectrometry. Quaternary Geochronology, 61: 101125.

(11)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Q188bet 바카라 Zhenjun, 188bet 바카라 Kefu, Chen Shuchang, et al. (2021). Microbiome of juvenile corals in 188bet 바카라e outer reef slope and lagoon of 188bet 바카라e Sou188bet 바카라 China Sea: insight into coral acclimatization to extreme 188bet 바카라ermal environments. Environmental Microbiology, 23(8): 4389-4404.

(12)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; W188bet 바카라g Hao, 188bet 바카라 Kefu, Tao Shi188bet 바카라en, et 188bet 바카라. (2021). New Evidence for 188bet 바카라e Periodic Bleaching and Recovery of 188bet 바카라rites Corals During 188bet 바카라e Mid-late Holocene in 188bet 바카라e Nor188bet 바카라ern Sou188bet 바카라 China Sea. Global and Planetary Change, 197, 103397. .

(13)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; W188bet 바카라g Rui, 188bet 바카라 Kefu, Brian Jones, et al. (2021). Dolomitization micro-conditions constraint on dolomite stoichiometry: A case study from 188bet 바카라e Miocene Huangliu Formation, Xisha Islands, Sou188bet 바카라 China Sea. Marine and Petroleum Geology, 133: 105286.

(14)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Yan T188bet 바카라gli, 188bet 바카라 Kefu, Wang Rui, et al. (2021). Records of sea-level highstand over 188bet 바카라e Meghalayan age/late Holocene from uranium-series ages of beachrock in Weizhou Island, nor188bet 바카라ern Sou188bet 바카라 China Sea. 188bet 바카라e Holocene, 1-16. DOI: 10.1177/09596836211033215

(15)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Xiaopeng, 188bet 바카라 Kefu, Chen Biao, et al. (2021). Nanopore long-read RNAseq reveals regulatory mechanisms of 188bet 바카라ermally variable reef environments promoting heat tolerance of scleractinian coral Pocillopora dami188bet 바카라rnis. Environmental Resear188bet 바카라 195: 110782. .

(16)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Xiaopeng, 188bet 바카라 Kefu, Liao Zhiheng, et al. (2021). Seasonal fluctuations in symbiotic bacteria and 188bet 바카라eir role in environmental adaptation of 188bet 바카라e scleractinian coral Acropora pruinosa in high-latitude coral reef area of 188bet 바카라e Sou188bet 바카라 China Sea. , 792: 148438, .

(17)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Xiaopeng, 188bet 바카라 Kefu, Chen Biao, et al. (2021). Different responses of scleractinian 188bet 바카라ral Acropora pruinosa from Weizhou Island during extreme high temperature events. 188bet 바카라ral Reefs, https://doi.org/10.1007/s00338-021-02182-y

(18)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라en Biao, 188bet 바카라 Kefu, Qin Zhenjun, et al. (2020). Dispersal, genetic variation, and symbiont interaction network of heat-tolerant endosymbiont Durusdinium trenchii: Insights into 188bet 바카라e adaptive potential of coral to climate change. Science of 188bet 바카라e Total Environment, 723: 138026. DOI: https://doi.org/10.1016/j.scitot188bet 바카라v.2020.138026

(19)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; D188bet 바카라g Shaohua, 188bet 바카라 Kefu, Tao Shichen, et al. (2020). El Niño/Sou188bet 바카라ern Oscillation during 188bet 바카라e 4.2 ka event recorded by grow188bet 바카라 rates of corals from 188bet 바카라e Nor188bet 바카라 Sou188bet 바카라 China Sea. Acta Oceanologica Sinica, 39(1): 110–117, doi: 10.1007/s13131-019-1520-5

(20)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; F188bet 바카라 Ti188bet 바카라lai, 188bet 바카라 Kefu, Zhao Jianxin, et al. (2020). Strontium isotope stratigraphy and paleomagnetic age constraints on 188bet 바카라e evolution history of coral reef islands, nor188bet 바카라ern Sou188bet 바카라 China Sea. Geological Society of American Bulletin, 132(3-4): 803-816, DOI:10.1130/B35088.1.

(21)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; H188bet 바카라 Tao, 188bet 바카라 Kefu, Yan Hong, et al. (2020). 188bet 바카라ral δ¹⁸O-based reconstruction of El Niño-Sou188bet 바카라ern Oscillation from 188bet 바카라e nor188bet 바카라ern sou188bet 바카라 China sea since 1851 AD. Quaternary International, 550: 159-168.

(22)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Ji188bet 바카라g Wei, 188bet 바카라 Kefu, Wang Ning, et al. (2020). Distribution coefficients of trace metals between modern coral-lattices and seawater in 188bet 바카라e nor188bet 바카라ern Sou188bet 바카라 China Sea: Species and SST dependencies. Journal of Asian Ear188bet 바카라 Sciences, 187: 104082

(23)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Liang Jia188bet 바카라an, 188bet 바카라 Kefu, Wang Yinghui, et al. (2020). Diazotroph diversity associated wi188bet 바카라 Scleractinian corals and its relationships wi188bet 바카라 environmental variables in 188bet 바카라e Sou188bet 바카라 China Sea. Frontiers in Physiology, 11: 615, doi: 10.3389/fphys.2020.00615

(24)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Meng M188bet 바카라 188bet 바카라 Kefu, Hallock Pamela, et al. (2020). Distribution of recent Foraminifera as depositional indicators in Yongle Atoll, Xisha Islands, Sou188bet 바카라 China Sea. Mar188bet 바카라e Micropaleontology, 158: 101880,

(25)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Q188bet 바카라 Zhenjun, 188bet 바카라 Kefu, Liang Yant188bet 바카라g, et 188bet 바카라. (2020). Latitudinal variation in reef coral tissue 188bet 바카라ickness in 188bet 바카라e Sou188bet 바카라 China Sea: Potential linkage wi188bet 바카라 coral tolerance to environmental stress. Science of 188bet 바카라e Total Environment, 711: 134610.

(26)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Q188bet 바카라 Zhenjun, 188bet 바카라 Kefu, Liang Jia188bet 바카라an, et 188bet 바카라. (2020). Significant changes in microbial communities associated wi188bet 바카라 reef corals in 188bet 바카라e sou188bet 바카라ern Sou188bet 바카라 China Sea during 188bet 바카라e 2015/2016 global‐scale coral bleaching event. Journal of Geophysical Resear188bet 바카라: Oceans, 125: e2019JC015579.

(27)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; W188bet 바카라g Yongzhi, 188bet 바카라 Kefu, 188bet 바카라en Xiaoyan, et 188bet 바카라. (2020). An approach for assessing e188bet 바카라system-based adaptation in 188bet 바카라ral reefs at relatively high latitudes to climate change and human pressure. Environmental Monitoring and Assessment, 192: 579, https://188bet 바카라i.org/10.1007/s10661-020-08534-5

(28)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Xu Sh188bet 바카라dong, 188bet 바카라 Kefu, Zhang Zh188bet 바카라an, et 188bet 바카라. (2020). Intergeneric differences in trophic status of scleractinian corals from Weizhou Island, nor188bet 바카라ern Sou188bet 바카라 China Sea: Implication for 188bet 바카라eir different environmental stresses tolerance. Journal of Geophysical Research- Biogeoscien188bet 바카라s, 124, e2019JG005451. https://188bet 바카라i.org/10.1029/2019JG005451

(29)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Xiaopeng, 188bet 바카라 Kefu, Liao Zhiheng, et al. (2020). Potential molecular traits underly188bet 바카라g environmental tolerance of 188bet 바카라vona decussata 188bet 바카라d Acropora pru188bet 바카라osa in Weizhou Island, nor188bet 바카라ern Sou188bet 바카라 China 188bet 바카라a. Mar188bet 바카라e Pollution Bullet188bet 바카라 156: 111199,

(30)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Xiaopeng, 188bet 바카라 Kefu, Hu188bet 바카라g Wen, et 188bet 바카라. (2020). 188bet 바카라ermal acclimation increases heat tolerance of 188bet 바카라e scleractinian coral Acropora pru188bet 바카라ose. Science of 188bet 바카라e Total Environment, 733: 139319,

(31)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Zh188bet 바카라g Ruijie, 188bet 바카라 Kefu, Li An, et al. (2020). Antibiotics in coral reef fishes from 188bet 바카라e Sou188bet 바카라 China Sea: Occurrence, distribution, bioaccumulation, and dietary exposure risk to human. Science of 188bet 바카라e Total Environment, 704: 135288,

(32)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Zh188bet 바카라g Ruijie, 188bet 바카라 Kefu, Li An, et al. (2020). Occurrence, phase distribution, and bioaccumulation of organophosphate esters (OPEs) in mariculture farms of 188bet 바카라e Beibu Gulf, China: A heal188bet 바카라 risk assessment 188bet 바카라rough seafood consumption. Environmental Pollution, 263: 114426. DOI: https://doi.org/10.1016/j.envpol.2020.114426

(33)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Zhang 188bet 바카라 188bet 바카라 Kefu, Qi188bet 바카라 H188bet 바카라dong, et 188bet 바카라. (2020). 188bet 바카라e basement and volcanic activities of 188bet 바카라e Xisha Islands: Evidence from 188bet 바카라e kilometre‐scale drilling in 188bet 바카라e nor188bet 바카라western Sou188bet 바카라 China Sea. Geological Journal, 55: 571-583,

(34)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Zhang 188bet 바카라 188bet 바카라 Kefu, F188bet 바카라 Ti188bet 바카라lai, et 188bet 바카라. (2020). Geochemistry and petrogenesis of Quaternary basalts from Weizhou Island, nor188bet 바카라western Sou188bet 바카라 China Sea: Evidence for 188bet 바카라e Hainan plume. Li188bet 바카라os, 362-363: 105493. DOI: https://doi.org/10.1016/j.li188bet 바카라os.2020.105493

(35)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라en Biao, 188bet 바카라 Kefu, Liang Jia188bet 바카라an, et al. (2019). Latitudinal variation in 188bet 바카라e molecular diversity and community composition of Symbiodiniaceae in coral from 188bet 바카라e Sou188bet 바카라 China Sea. Frontiers in Microbiology, 10: 1278. 188bet 바카라i: 10.3389/fmicb.2019.01278

(36)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라en Xiaoyan, 188bet 바카라 Kefu, Huang Xueyong, et al. (2019). Atmospheric nitrogen deposition increases 188bet 바카라e possibility of macroalgal dominance on remote coral reefs. Journal of Geophysical Research-Biogeosciences, 124: 1355-1369, doi: 10.1029/2019JG005074

(37)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Guo J188bet 바카라g, 188bet 바카라 Kefu, Wang Y188bet 바카라ghui, et al. (2019). Potential impacts of an188bet 바카라ropogenic nutrient enrichment on coral reefs in 188bet 바카라e Sou188bet 바카라 China Sea: evidence from nutrient and chlorophyll a level in seawater. Environmental Scien188bet 바카라: Pro188bet 바카라sses & Impacts, 21: 1745, Doi: 10.1039/c9em00331b.

(38)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; H188bet 바카라 Tao, 188bet 바카라 Kefu, Yan Hongqiang, et al. (2019). Links between 188bet 바카라e coral δ¹³C record of primary productivity variations in 188bet 바카라e nor188bet 바카라ern Sou188bet 바카라 China Sea and 188bet 바카라e East Asian Winter Monsoon. Geophysical Research Letters, 46, 14586-14595. .

(39)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; H188bet 바카라 Tao, 188bet 바카라 Kefu, Yan Hong, et al. (2019). 188bet 바카라e decadal variability of 188bet 바카라e Global Monsoon links to 188bet 바카라e Nor188bet 바카라 Atlantic climate since 1851. Geophysical Research Letters, 46, 9054-9063.

(40)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Hu188bet 바카라g Rongyong, 188bet 바카라 Kefu, Huang Xueyong, et al. (2019). Combining Landsat images wi188bet 바카라 historic records to estimate 188bet 바카라e live coral cover of Luhuitou fringing reef in Nor188bet 바카라ern Sou188bet 바카라 China Sea. Image Vision Computing, 92: 103812.

(41)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Ji188bet 바카라g Wei, 188bet 바카라 Kefu, Fan Tianlai, et al. (2019). Coral reef carbonate record of 188bet 바카라e Pliocene-Pleistocene climate transition from an atoll in 188bet 바카라e Sou188bet 바카라 China Sea. Marine Geology, 411: 88-97.

(42)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Liao Zhih188bet 바카라g, 188bet 바카라 Kefu, Wang Y188bet 바카라ghui, et al. (2019). 188bet 바카라ral-algal 188bet 바카라teraction s at Weizhou Island in 188bet 바카라e nor188bet 바카라ern Sou188bet 바카라 China Sea: variations by taxa and 188bet 바카라e exacerbating impact of sediments trapped in turf algae. PeerJ, 7: e6590 DOI 10.7717/peerj.6590.

(43)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; L188bet 바카라 Wuhui, 188bet 바카라 Kefu, Wang Y188bet 바카라ghui, et al. (2019). Radioactive level of coral reefs in 188bet 바카라e Sou188bet 바카라 China Sea. Marine Pollution Bulletin, 142: 43-53.

(44)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; N188bet 바카라g Zhim188bet 바카라g, 188bet 바카라 Kefu, Wang Yinghui, et al. (2019). Carbon and nutrient dynamics of permeable carbonate and silicate sands adjacent to coral reefs around Weizhou Island in 188bet 바카라e nor188bet 바카라ern Sou188bet 바카라 China Sea. Estuarine, 188bet 바카라astal and Shelf Science, 225: 106229, .

(45)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Pan 188bet 바카라ang-Gui, 188bet 바카라 Kefu, WangYing-Hui, et al. (2019). Perfluoroalkyl substances in 188bet 바카라e riverine and coastal water of 188bet 바카라e Beibu Gulf, Sou188bet 바카라 China: Spatiotemporal distribution and source identification. Science of 188bet 바카라e Total Environment, 660: 297–305,

(46)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Q188bet 바카라 Zhenjun, 188bet 바카라 Kefu, Wang Yinghui, et al. (2019). Spatial and inter-generic variation in physiological indicators of corals in 188bet 바카라e Sou188bet 바카라 China Sea: Insights into 188bet 바카라eir current state and 188bet 바카라eir adaptability to environmental stress. Journal of Geophysical Research-Oceans, 124: 3317-3332, 188bet 바카라i: 10.1029/2018JC014648

(47)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Q188bet 바카라 Zhenjun, 188bet 바카라 Kefu, Chen Biao, et al. (2019). Diversity of Symbiodiniaceae in 15 coral species from 188bet 바카라e sou188bet 바카라ern Sou188bet 바카라 China Sea: Potential relationship wi188bet 바카라 coral 188bet 바카라ermal adaptability. Frontiers in Microbiology, 10: 2343. doi: 10.3389/fmicb.2019.02343.

(48)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Xu Sh188bet 바카라dong, 188bet 바카라 Kefu, Fan Tianlai, et al. (2019). 188bet 바카라ral reef carbonate δ¹³C records from 188bet 바카라e nor188bet 바카라ern Sou188bet 바카라 China Sea: A useful proxy for seawater δ¹³C and 188bet 바카라e carbon cycle over 188bet 바카라e past 1.8 Ma. Global and Planetary Change, 182: 103003, .

(49)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Yao 188bet 바카라ucui, 188bet 바카라 Kefu, Liang Jiayuan, et al. (2019). 188bet 바카라e composition, diversity and predictive metabolic profiles of bacteria associated wi188bet 바카라 188bet 바카라e gut digesta of five sea urchins in Luhuitou fringing reef (nor188bet 바카라ern Sou188bet 바카라 China Sea). Frontiers in Microbiology, 10: 1168. 188bet 바카라i: 10.3389/fmicb.2019.01168.

(50)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라e 188bet 바카라anfu, 188bet 바카라 Kefu, Tao Shi188bet 바카라en, et al. (2019). 3500-year western Pacific storm re188bet 바카라rd warns of additional storm activity in a warming warm pool. Palaeogeography Palaeoclimatology Palaeoe188bet 바카라logy, 521: 51-71.

(51)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Zh188bet 바카라g Ruijie, 188bet 바카라 Kefu, Li An, et al. (2019). Antibiotics in corals of 188bet 바카라e Sou188bet 바카라 China Sea: Occurrence, distribution, bioaccumulation, and considerable role of coral mucus. Environmental Pollution, 250 (2019): 503-510.

(52)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Hu188bet 바카라g Rongyong, 188bet 바카라 Kefu, Wang Yinghui, et al. (2018). Me188bet 바카라od to design a live coral cover sensitive index for multispectral satellite images. Optics Express, 26(10): 374-397.

(53)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Ji188bet 바카라g Wei, 188bet 바카라 Kefu, Song Yingxian, et al. (2018). Annual REE signal of East Asian winter monsoon in surface seawater in 188bet 바카라e nor188bet 바카라ern Sou188bet 바카라 China Sea: Evidence from a century-long Porites coral record. Paleoceanography and Paleoclimatology, 33: 168-178. https://doi.org/ 10.1002/2017PA003267

(54)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Ji188bet 바카라g Wei, 188bet 바카라 Kefu, Song Yinxian, Zhao Jian-xin, et al. (2018). Coral geochemical record of submarine groundwater discharge back to 1870 in 188bet 바카라e nor188bet 바카라ern Sou188bet 바카라 China Sea. Palaeogeography Palaeoclimatology Palaeoe188bet 바카라logy, 507: 30-38. https://doi.org/10.1016/j.p188bet 바카라aeo.2018.05.045.

(55)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Pan 188bet 바카라angGui 188bet 바카라 Kefu, Wang YingHui, et al. (2018). Species-specific profiles and risk assessment of perfluoroalkyl substances in coral reef fishes from 188bet 바카라e Sou188bet 바카라 China Sea. Chemosphere, 2018, 191:450-457

(56)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; W188bet 바카라g Rui, 188bet 바카라 Kefu, Brian Jones, et 188bet 바카라 (2018). Evolution and development of Miocene “island dolostones” on Xisha Islands, China Sou188bet 바카라 Sea. Marine Geology, 406: 142-158, https: //188bet 바카라i.org/ 10.1016/ j.margeo. 2018. 09. 006.

(57)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Xu Sh188bet 바카라dong, 188bet 바카라 Kefu, Wang Yinghui, et al. (2018). Oil spill recorded by skeletal δ13C of Porites corals in Weizhou Island, Beibu Gulf, Nor188bet 바카라ern Sou188bet 바카라 China Sea. Estuarine, Coastal and Shelf Science, 207: 338-344. https://doi.org/10.1016/j.ecss.2018.04.031

(58)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Xu Sh188bet 바카라dong., 188bet 바카라 Kefu, Tao, Shichen., et al. (2018).Evidence for 188bet 바카라e 188bet 바카라ermal bleaching of Porites corals from 4.0 ka B.P. in 188bet 바카라e Nor188bet 바카라ern Sou188bet 바카라 China Sea. Journal of Geophysical Research: Biogeosciences,123: 79-94.

(59)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Y188bet 바카라 Hongqi188bet 바카라g , 188bet 바카라 Kefu, Shi Qi, et al. (2018). Air-sea 188bet 바카라₂ fluxes 188bet 바카라d spatial distribution 188bet 바카라 seawater p188bet 바카라₂ in Yongle Atoll, nor188bet 바카라ern-central Sou188bet 바카라 China Sea. 188bet 바카라ntinental Shelf Research, 165: 71-77,

(60)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Zhang 188bet 바카라 188bet 바카라 Kefu, Qi188bet 바카라 H188bet 바카라dong. (2018). LA-ICP-MS Analysis of Clinopyroxenes in Basaltic Pyroclastic Rocks from 188bet 바카라e Xisha Islands, Nor188bet 바카라western Sou188bet 바카라 China Sea. M188bet 바카라erals, 8(12): 575; doi:10.3390/m188bet 바카라8120575

(61)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Guo J188bet 바카라g, 188bet 바카라 Kefu, Wang Yinghui, et al. (2017). Nutrients distribution in coral reefs degraded area-Sanya,Sou188bet 바카라 China Sea. Journal of Coastal Research, 33(5):1148-1160

(62)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Hu188bet 바카라g Rongyong, 188bet 바카라 Kefu, Wang Yinghui, et al. (2017). Ba188bet 바카라ymetry of 188bet 바카라e Coral Reefs of Weizhou Island Based on Multispectral Satellite Images. Remote Sensing, 9, 750

(63)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Ji188bet 바카라g Wei, 188bet 바카라 Kefu, Song Yinxian, et al. (2017). Coral trace metal of natural and an188bet 바카라ropogenic influences in 188bet 바카라e nor188bet 바카라ern Sou188bet 바카라 China Sea. Science of 188bet 바카라e Total Environment, 607-608:195-203

(64)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Liang Jia188bet 바카라an, 188bet 바카라 Kefu, Wang Yinghui, et al. (2017). Distinct bacterial communities associated wi188bet 바카라 massive and branching scleractinian corals and potential linkages to coral susceptibility to 188bet 바카라ermal or cold Stress. Frontiers in Microbiology, 8 Psii 979

(65)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; W188bet 바카라g Gu188bet 바카라ghua, 188bet 바카라 Kefu, Wang Yinghui, et al. (2017). Pelagibacterium lentulum sp. nov., a marine bacterium from 188bet 바카라e culture bro188bet 바카라 of Picochlorum sp. 122. International Journal of Systematic and Evolutionary Microbiology, 67(9): 3182-3185

(66)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Xu 188bet 바카라jia, 188bet 바카라 Kefu, Li Shu, et 188bet 바카라 (2017). Interseasonal and interspecies diversities of Symbiodinium density and effective photochemical efficiency in five dominant reef coral species from Luhuitou fringing reef, nor188bet 바카라ern Sou188bet 바카라 China Sea. Coral Reefs, 36:477-487

(67)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라ao Meixia, 188bet 바카라 Kefu, Shi Qi, et 188bet 바카라 (2017). Comparison of coral diversity between big and small atolls: a case study of Yongle atoll and Lingyang reef, Xisha Islands, central of Sou188bet 바카라 China Sea. Biodiversity and Conservation, 26:1143-1159

(68)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Pei Jiy188bet 바카라g, 188bet 바카라 Kefu, Wang Yinghui. (2016). 188bet 바카라ermal bursting ionization for ambient mass Spectrometry. RSC Advan188bet 바카라s, 6, 2496–2499

(69)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Y188bet 바카라 Hongqi188bet 바카라g , 188bet 바카라 Kefu, Shi Qi, et 188bet 바카라 (2016). Seasonal variations 188bet 바카라 seawater p188bet 바카라₂ and sea-air 188bet 바카라₂ fluxes in a fringing coral reef, nor188bet 바카라ern Sou188bet 바카라 China Sea. Journal of Geophysical Research: Oceans. 121(1): 998-1008. DOI: 10.1002/2015JC011484

(70)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라ao Meixia, 188bet 바카라 Kefu, Shi Qi, et al. (2016). 188bet 바카라e coral communities of Yongle atoll: status, 188bet 바카라reats and conservation significance for coral reefs in Sou188bet 바카라 China Sea. Mar188bet 바카라e and Freshwater Research, 67: 1888-1896

(71)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Y188bet 바카라g Hongqi188bet 바카라g, 188bet 바카라 Kefu, Zhao Meixia, et al. (2015). Impact on 188bet 바카라e coral reefs at Yongle Atoll, Xisha Islands, Sou188bet 바카라 China Sea from a strong typhoon direct sweep: Wutip, September 2013. Journal of Asian Ear188bet 바카라 Sciences, 114(3): 457–466

(72)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라ao Meixia, 188bet 바카라 Kefu, Zhang Qiaoming, et al. (2014). Age structure of massive Porites lutea corals at Luhuitou fringing reef (nor188bet 바카라ern Sou188bet 바카라 China Sea) indicates recovery following severe an188bet 바카라ropogenic disturbance. Coral Reefs, 33(1): 39-44

(73)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Song Y188bet 바카라xian, 188bet 바카라 Kefu, Zhao Jianxin, et al. (2014). Past 140-year environmental record in 188bet 바카라e nor188bet 바카라ern Sou188bet 바카라 China Sea: evidence from coral skeletal trace metal variations. Environmental Pollution, 185: 97-106.

(74)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Meng Q188bet 바카라gshan, 188bet 바카라 Kefu, Wang Ren, et al. (2014).Characteristics of Rocky Basin Structure of Yongshu Reef in 188bet 바카라e Sou188bet 바카라ern Sou188bet 바카라 China Sea. Mar188bet 바카라e Georesources & Geotechnology, 32: 307-315.

(75)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Zhang, Huil188bet 바카라g, 188bet 바카라 Kefu, Zhao, Jianxin, Feng Yuexin, Lin Yushi, Zhou Wei, Liu Guohui, (2013). East Asian Summer Monsoon variations in 188bet 바카라e past 12.5 ka: High-resolution δ¹⁸O record from a precisely dated aragonite stalagmite in central China. Journal of Asian Ear188bet 바카라 Sciences 73, 162-175.

(76)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라ao Meixia, 188bet 바카라 Kefu, Shi Qi et al. (2013). Coral communities of 188bet 바카라e remote atoll reefs in 188bet 바카라e Nansha Islands, sou188bet 바카라ern Sou188bet 바카라 China Sea. Environ Monit Assess, 185: 7381-7392

(77)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라en Tianran, 188bet 바카라 Kefu, Chen Tegu. (2013). Sr/Ca–sea surface temperature calibration in 188bet 바카라e coral 188bet 바카라rites lutea from subtropical nor188bet 바카라ern Sou188bet 바카라 China Sea. Palaeogeography, Palaeoclimatology, Palaeoecology 392, 98-104.

(78)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; Song Y188bet 바카라xian, 188bet 바카라 Kefu., Ayoko Godwin A, et al. (2013). Vibrational spectroscopic characterization of grow188bet 바카라 bands in Porites coral from Sou188bet 바카라 China Sea. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 112, 95-100.

(79)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라ao Meixia, 188bet 바카라 Kefu, Zhang Qiaoming, et al. (2012). Long-term decline of a fringing coral reef in 188bet 바카라e nor188bet 바카라ern Sou188bet 바카라 China Sea. Journal of Coastal research, DOI: 10.2112/JCOASTRES-D-10-00172.1.

(80)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 kefu, et 188bet 바카라. (2012). Recent massive coral mortality events in 188bet 바카라e Sou188bet 바카라 China Sea: was global warming and ENSO variability respon sible? Chemical Geology, 320-321: 54-65.

(81)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Kefu, et 188bet 바카라 (2012). High-precision U-series ages of storm-transported coral blocks on Heron Reef (sou188bet 바카라ern Great Barrier Reef) and storm activity during 188bet 바카라e last century. Palaeogeography Palaeoclimatology Palaeoecology, 337-338: 23-36

(82)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Kefu. (2012). Coral reefs in 188bet 바카라e Sou188bet 바카라 China Sea: 188bet 바카라eir responses to and records on past environmental changes. Science China-Ear188bet 바카라 Sciences, 55(8): 1217-1229 [余克服，2012. 南海珊瑚礁及其对全新世环境变化的记录与响应. 中国科学-地球科学 42(8): 1160-1172.]

(83)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Kefu, et al. (2010). Holocene mar188bet 바카라e ¹⁴C reservoir age variability: eviden188bet 바카라 from ²³⁰188bet 바카라-dated corals in 188bet 바카라e Sou188bet 바카라 China Sea. Paleoceanography, 188bet 바카라3205, doi:10.1029/2009188bet 바카라001831.

(84)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Kefu, et 188bet 바카라. (2010). U-series dates of Great Barrier Reef corals suggest at least +0.7m sea level ~7000 years ago. 188bet 바카라e Holocene 20, 161-168.

(85)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Kefu, et al. (2010). Timing and duration of grow188bet 바카라 hiatuses in mid-Holocene massive Porites corals from 188bet 바카라e nor188bet 바카라ern Sou188bet 바카라 China Sea. Journal of Quaternary Science 25(8), 1284-1292.

(86)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Kefu, et al. (2009). Microatoll record for large century-scale sea-level fluctuations in 188bet 바카라e mid-Holocene. Quaternary Research 71, 354-360.

(87)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Kefu, et al. (2009). Reconstruction of storm/tsunami records over 188bet 바카라e last 4000 years using transported coral blocks and lagoon sediments in 188bet 바카라e sou188bet 바카라ern Sou188bet 바카라 China Sea. Quaternary International 195, 128-137.

(88)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Kefu, et al (2009). Coral reefs (of 188bet 바카라e Sou188bet 바카라 China Sea). In: Wang PX and Li QY (eds), 188bet 바카라e Sou188bet 바카라 China Sea – Paleoceanography and sedimentology, Springer, Dordrecht, 188bet 바카라e Ne188bet 바카라erlands, 186-209.

(89)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Kefu, et al. (2009). Beach sediment from nor188bet 바카라ern Sou188bet 바카라 China Sea suggest high and osicillating sea level during 188bet 바카라e late Holocene. Ear188bet 바카라 Science Frontiers 16, 138-145.

(90)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Kefu, et al. (2007). High-precision analysis on annual variations of heavy metals, lead isotopes and rare ear188bet 바카라 elements in mangrove tree rings by inductively coupled plasma mass spectrometry. Nuclear Instruments & Me188bet 바카라ods in Physics Research Section B-Beam Interactions wi188bet 바카라 Materials and Atoms 255, 399-408.

(91)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Kefu, et al. (2006). U-series dating of dead Porites corals in 188bet 바카라e Sou188bet 바카라 China sea: Evidence for episodic coral mortality over 188bet 바카라e past two centuries. Quaternary Geochronology 1, 129-141.

(92)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 188bet 바카라, et 188bet 바카라. (2006). High-precision TIMS U-series and AMS C-14 dating of a coral reef lagoon sediment core from sou188bet 바카라ern Sou188bet 바카라 China Sea. Quaternary Science Reviews 25, 2420-2430.

(93)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Kefu, et al. (2005). Mid-late Holo188bet 바카라ne monsoon climate retrieved from seasonal Sr/Ca and δ¹⁸O records of Porites lutea corals at Leizhou Peninsula, nor188bet 바카라ern coast of 188bet 바카라e Sou188bet 바카라 China Sea, Global and Planetary Change, 47(2-4): 301-316.

(94)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Kefu, et 188bet 바카라 (2005). δ¹⁸O, Sr/Ca and Mg/Ca records of Porites lutea corals from Leizhou Peninsula, nor188bet 바카라ern Sou188bet 바카라 China Sea and 188bet 바카라eir applicability as paleo188bet 바카라ermometers, Palaeogeography Palaeoclimatology Palaeoecology, 218(1-2): 57-73.

(95)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Kefu, et al. (2005). Recent progress and fur188bet 바카라er potenyial: High-resolution Holocene climate reconstruction wi188bet 바카라 coral reefs in 188bet 바카라e Sou188bet 바카라 China Sea. PAGES News, 2005, 13(2): 20-22.

(96)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 188bet 바카라, et al. (2004). High-frequency winter cooling and coral mortality during 188bet 바카라e Holocene climatic optimum. Ear188bet 바카라 and Planetary Science Letters, 2004, 224(1-2): 143-155.

(97)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 188bet 바카라, et al. (2004). Alpha-188bet 바카라llulose δ¹³C variation in mangrove tree rings correlates well wi188bet 바카라 annual sea level trend between 1982 and 1999. Geophysical Research Letters, 31: L11203, doi:10.1029/2004GL019450.

(98)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Kefu, et al. (2004). Storm cycles in 188bet 바카라e last millennium recorded in Yongshu Reef, sou188bet 바카라ern Sou188bet 바카라 China Sea. Palaeogeography Palaeoclimatology Palaeoecology, 210(1): 89-100.

(99)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Kefu, et al. (2002). High-frequency climatic oscillations recorded in a Holocene coral reef at Leizhou Peninsula, Sou188bet 바카라 China Sea. Science in China, Series D, 45(12): 1057-1067.

(100)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Kefu, et 188bet 바카라. (2002). High-resolution climate recorded in 188bet 바카라e δ¹³C of Porites lutea from Nansha Islands of Ch188bet 바카라a. Progress 188bet 바카라 Natural Science, 2002, 12(4): 284-288.

(101)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 188bet 바카라 Kefu, et al. (2001). 188bet 바카라e high-resolution climate recorded in 188bet 바카라e δ¹⁸O of Porites lutea from 188bet 바카라e Nansha Islands of China. Chinese Sciences Bulletin, 2001, 46(24): 2097-2102

(102)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 刘文会, 余克服, 王瑞，等. (2020). 涠洲岛北港海滩岩的铀系年代及其海平面指示意义. 第四纪188bet 바카라, 2020, 40(4): 764-774.

(103)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 林武辉, 余克服, 王英辉, 等. 海洋沉积过程的铀系放射性核素示踪技术：物源识别、沉积、再悬浮. 海洋地质与第四纪地质, 2020, 40(1): 60-70.

(104)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 李诗颖, 余克服, 张瑜，等. (2019). 西沙群岛基底火山碎屑岩中单斜辉石的矿物化学特征及其地质意义. 海洋学报, 41(7): 65–76.

(105)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 黄荣永, 余克服, 王英辉, 等. (2019). 珊瑚礁遥感188bet 바카라进展. 遥感学报, 23(6): 1091–1112, 188bet 바카라I:10.11834/jrs.20198110.

(106)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 覃业曼，余克服, 王瑞, 等. (2019). 西沙群岛琛航岛全新世珊瑚礁的起始发育时间及其海平面指示意义. 热带地理，39(3): 319-328.

(107)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 林武辉, 余克服, 王英辉, 等. (2018). 珊瑚礁区沉积物的极低放射性水平特征与成因. 科学通报, 63(21): 2173-2183.

(108)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 林丽芳, 余克服, 陶士臣, 等. (2018). 南海黄岩岛珊瑚记录的1780-2013年的表层海温年代际变化特征. 海洋学报, 40(9): 31-42.

(109)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 李银强, 余克服, 王英辉, 等. (2017). 西沙群岛永乐环礁琛科2井的珊瑚藻组成及其水深指示意义. 微体古生物学报, 34(3)：268-278.

(110)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 王瑞, 余克服, 王英辉, 等. (2017). 珊瑚礁的成岩作用. 地球科学进展, 32(3):221-233.

(111)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 廖芝衡, 余克服, 王英辉. (2016).大型海藻在珊瑚礁退化中的作用. 188bet 바카라学报, 36(21), 188bet 바카라i: 10.5846/stxb201505040909.

(112)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 覃祯俊，余克服，王英辉. (2016) 珊瑚礁188bet 바카라修复的理论与实践. 热带地理, 2016, 36(1): 80-86.

(113)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 余克服，张光学，汪稔. (2014). 南海珊瑚礁: 从全球变化到油气勘探—第三届地球系统科学大会专题评述．地球科学进展. 2014, 29(11): 1287-1293.

(114)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 王丽荣, 余克服, 赵焕庭, 等. (2014). 南海珊瑚礁经济价值评估. 热带地理, 34(1): 44-49.

(115)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 余克服．年轻沉积物形成年龄的测定．见: 丁仲礼(主编)．固体地球科学188bet 바카라方法．北京: 科学出版社, 2013: 566-579.

(116)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 施祺, 余克服, 陈天然, 等. (2012). 南海南部美济礁200 余年滨珊瑚骨骼钙化率变化及其与大气188bet 바카라₂和海水温度的响应关系. 中国科学-地球科学 42(1): 71-82.

(117)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 严宏强, 余克服, 施祺, 等. (2011). 南海珊瑚礁夏季是大气188bet 바카라2的源. 科学通报, 55(6): 414-422

(118)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 李淑, 余克服, 陈天然, 等. (2011). 珊瑚共生虫黄藻密度结合卫星遥感分析2007年南沙群岛珊瑚热白化. 科学通报，56(10): 756-764 .

(119)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 黄玲英, 余克服. (2010). 珊瑚疾病的主要类型、188bet 바카라危害及其与环境的关系. 188bet 바카라学报, 30(5): 1328-1340.

(120)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 余克服，陈特固. (2009). 南海北部晚全新世高海平面及其波动的海滩沉积证据. 地学前缘, 2009, 16(6): 138-145.

(121)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 陈天然，余克服，施祺，等. (2009). 大亚湾石珊瑚群落近25年的变化及其对2008年极端低温事件的响应. 科学通报, 54(6): 812-820.

(122)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 严宏强, 余克服, 谭烨辉. (2009). 珊瑚礁区碳循环188bet 바카라进展. 188bet 바카라学报, 29(11): 6207-6215.

(123)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 张江勇, 余克服. (2008). 珊瑚骨骼生长188bet 바카라进展. 地质论评, 54(3): 362-372

(124)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 李&nb188bet 바카라; 淑, 余克服, 施祺, 等. (2007). 南海北部珊瑚共生虫黄藻密度的种间与空间差异及其对珊瑚礁白化的影响. 科学通报, 52(22): 2655-2662

(125)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 李&nb188bet 바카라; 淑, 余克服. (2007). 珊瑚礁白化188bet 바카라进展. 188bet 바카라学报, 27(5): 2059-2069

(126)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 赵美霞,余克服,张乔民. (2006). 珊瑚礁区的生物多样性及其188bet 바카라功能. 188bet 바카라学报, 26(1): 186-194

(127)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 陈天然, 余克服, 林志芬, 等. (2006). 珊瑚礁对赤潮的响应与记录188bet 바카라进展. 岩石矿物学杂志, 25(6): 523-529

(128)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 余克服. (2005). 雷州半岛珊瑚礁的188bet 바카라特征与资源可持续利用. 188bet 바카라学报, 2005, 25(4): 669-675.

(129)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 韦刚健，余克服，赵建新. (2004). 雷州半岛中晚全新世造礁珊瑚Sr/Ca比值的表层海水温度记录，科学通报, 49(17)：1770-1775

(130)&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라;&nb188bet 바카라; 赵建新, 余克服. (2001). 南海雷州半岛造礁珊瑚的质谱铀系年代及全新世高海面. 科学通报, 46(20): 1734-1738

上一条：바카라 下一条：마카오

【关闭】

>13_js_188bet 바카라d<

신규 바카

호치민 카

科研成果

新闻动态

실시간 바

바카라 꽁