张东
张东
性      别: 职      称: 副教授
籍      贯: 安徽固镇 现 居 地: 安徽
毕业院校: 浙江大学 专      业:
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出生年月: 1981-09-27 工作单位: 西北农林科技大学园艺学院
邮       箱: afant@nwsuaf.edu.cn 联系电话:
学       历: 博士

【人物简介】

张东,博士,副教授,硕士生导师,“仲英青年学者”,1981年9月出生,安徽固镇人,兼任国家现代苹果产业技术体系、国家苹果改良中心杨凌分中心和陕西果业发展协同创新中心学术秘书,国际园艺学会会员,是《Journal of Experiment Botany》等期刊审稿人。2004年毕业于安徽农业大学园艺系,获学士学位,2006年在浙江大学大学获硕士学位。2006-2009年,在淮北师范大学工作。2009-2012年在浙江大学攻读博士学位,期间曾获“浙江大学博士生引领计划一等资助”、“浙江省优秀毕业生”等奖励或称号,2012年6月,获得农学博士学位。 2012年7月,到西北农林科技大学工作至今。2013年10月至2017年9月,在职进入西北农林科技大学园艺学博士后流动站工作。2017年入选“仲英青年学者”。

【研究方向】

苹果砧木不定根发生生理分子机理与调控,砧穗互作分子机制、砧穗组合评价筛选与应用,花芽分化生理分子机制与调控;苹果砧木育种。

【研究成果】

主持国家自然科学基金、中国博士后科学基金批特别资助、教育部博士点基金和陕西省科技统筹重点项目、陕西省自然科学基金等科研项目10余项。先后在《Plant Biotechnology Journal》、《Plant Cell and Physiology》、《BMC Genomics》、《phytochemistry》、《Postharvest Biology and Technology》、《Frontiers in Plant Science》、《Plant Molecular Biology Reporter》、《Scientia Horticulturae》、《Genetic Resources and Crop Evolution》和《园艺学报》等杂志发表论文70余篇,其中SCI收录论文40余篇,参编专著1部,获授权国家发明专利10余项,获华耐园艺科技奖一等奖1项(3/20)和教育部高等学校科学研究优秀成果奖(科学技术)科技进步奖二等奖1项(10/20)。

【科研项目】

1) “仲英青年学者项目”2017-2019 2) 陕西省重点研发计划(重点项目)(2017NY0055)2017-2019 3) 国家自然科学基金(青年基金项目)(31301753)2014-2016 4) 中国博士后科学基金第七批特别资助(2014T70939) 2014-2017 5) 中国博士后科学基金项目(一等资助)(2014M56806) 2014-2017 6) 国家星火计划项目(2014GA850002)2014-2015 7) 教育部博士点基金(新教师类)(20130204120004)2014-2016 8) 陕西省自然科学基金(青年人才项目) (2013JQ3005) 2013-2014 9) 陕西省果业发展项目2014-2016

【论文著作】

5. 发表主要论文(*为通讯作者): 1) Mao J., Zhang D., Zhang X., Li K., Liu Z., Liu X., Meng Y., Lei C*. 2017. Effect of exogenous indole-3-butanoic acid (IBA) application on the morphology, hormone status, and gene expression of developing lateral roots in Malus hupehensis Scientia Horticulturae 232 (2018) 112–120. 2) Zheng L., Ma J., Zhang L., Gao C., Zhang D., Zhao C., Han M*. 2018. Revealing critical mechanisms of BR-mediated apple nursery tree growth using iTRAQ-based proteomic analysis Journal of Proteomics 173 139-154 3) Song C, Zhang D(Co-first author), Zheng L, Han M* (2017) miRNA and Degradome Sequencing Reveal miRNA and Their Target Genes That May Mediate Shoot Growth in Spur Type Mutant “Yanfu 6.” Frontiers in Plant Science. 2017;8:441. doi:10.3389/fpls.2017.00441. 4) Mao J., Zhang D.(Co-first author), Li K., Liu Z., Liu X., Song C., Li G., Zhao C., Ma J., Han M*. 2017. Effect of exogenous Brassinolide (BR) application on the morphology, hormone status, and gene expression of developing lateral roots in Malus hupehensis. Plant Growth Regul. 82 (4) :1-11 DOI 10.1007/ s10725-017-0264-5 5) Bai S, Sun Y, Yang F, Ni J, Qian M, Shu Qun, Zhang D*,Teng Y*. 2017, Transcriptome analysis of bagging-treated fruit peel of red Chinese sand pear ‘Meirensu’ (Pyrus pyrifolia Nakai) reveals insight of light response and differential regulation of anthocyanin accumulation related genes. Scientific Reports 7, 63 doi:10.1038/s41598-017-00069-z 6) Qian M, Ni J, Niu Q, Bai S, Bao L, Li J, Sun Y, Zhang D*,Teng Y*. 2017, Response of miR156-SPL module during the red peel coloration of bagging-treated Chinese sand pear (Pyrus pyrifolia Nakai). Frontiers in Physiology 8:550. doi: 10.3389/fphys.2017.00550 7) Fan S, Zhang D, Gao C, Zhao M, Wu H, Li Y, Shen Y and Han M*. 2017. Identification, Classification, and Expression Analysis of GRAS Gene Family in Malus domestica. Front. Physiol. 8:253. doi: 10.3389/fphys.2017.00253 8) Li Y., Zhang D., Zhang L., Zuo X., Fan S., Zhang X., Shalmani A., Han M*. 2017. Identification and expression analysis of cytokinin response-regulator genes during floral induction in apple (Malus domestica Borkh). Plant Growth Regul. DOI 10.1007/s10725-017-0311-2 9) Fan S, Zhang D, Zhang L., Gao C, Xin M, Mobeen M. Li Y, Ma J. Han M*. Comprehensive analysis of GASA family members in the Malus domestica genome: identification, characterization, and their expressions in response to apple flower induction. BMC Genomics (2017) 18:827. DOI 10.1186/s12864-017-4213-5 10) Fan S, Zhang D, Xing L., Qi S., Du L., Wu H., Shao H., Li Y., Ma J., Han M*. 2017. Phylogenetic analysis of IDD gene family and characterization of its expression in response to flower induction in Malus. Molecular Genetics and Genomics. doi:10.1007/s00438-017-1306-4 11) Chen H., Zuo X., Shao H., Fan S., Ma J., Zhang D., Zhao C., Yan X., Liu X., Han M.* Genome-wide analysis of carotenoid cleavage oxygenase genes and their responses to various phytohormones and abiotic stresses in apple (Malus domestica) 2017 Plant Physiology and Biochemistry DOI: 10.1016/j.plaphy.2017.12.001 12) Chen H., Shao H., Li K., ZhangD., Fan S., Li Y., Han M.* Genome-wide identification, evolution, and expression analysis of GATA transcription factors in apple (Malus ×domestica Borkh.) Gene. 2017, 5;627:460-472. doi: 10.1016/j.gene.2017.06.049. 13) Du L.,Qi S., Ma J., Xing L., Fan S., Zhang S., Li Y., Shen Y., Zhang D., Han M.* Identification of TPS family members in apple (Malus x domestica Borkh.) and the effect of sucrose sprays on TPS expression and floral induction. Plant Physiology and Biochemistry. 2017, 120,10-23 14) Bao L., Li K., Teng Y., Zhang D*. 2017. Characterization of the complete chloroplast genome of the wild Himalayan pear Pyrus pashia (Rosales: Rosaceae: Maloideae). Conservation Genet Resour, 9:1-3. 15) Zheng L., Ma J., Zhang L., Gao C., Zhang D., Zhao C., Song C., An N., Qi S., Han M*. 2017., Genome-wide identification and expression profiling analysis of brassinolide signal transduction genes regulating apple tree architecture. Acta Physiol Plant (2017) 39:177 16) Chen H, Shao H, Fan S, Ma J, Zhang D, Han M. 2016. Identification and Phylogenetic Analysis of the POLYGALACTURONASE Gene Family in Apple. Horticultural Plant Journal 2, 241-252. 17) Xing L., Zhang D.(Co-first author), Zhao C., Li Y., Ma J., An na., Han M*. 2016. Shoot bending promotes flower bud formation by miRNA-mediated regulation in apple (Malus domestica Borkh.) Plant Biotechnology Journal doi: 10.1111/pbi.12425 18) Xing L., Zhang D. (Co-first author), Song X. Weng K. Zhao C., Li Y., Ma J., An na., Han M*. 2016. Identifying genome-wide sequence variations and comparing floral-associated traits based on re-sequencing of two varieties of apple (Malus domestica Borkh.) ‘Nagafu No. 2’ and ‘Qinguan’. Frontiers in Plant Science 19) Fan S, Zhang D (Co-first author), Zhao C, Ma J., Han M*.2016. Correlative Proteome by iTRAQ Analysis Reveals Critical Mechanisms in Alternate Bearing Malus prunifolia; Journal of Proteome Research, 2016, 15(10). 20) Zhang S, Zhang D (Co-first author), Fan S, Du L, Shen Y, Xing L, Li Y, Ma J, Han M* Effect of exogenous GA3 and its inhibitor paclobutrazol on floral formation, endogenous hormones, and flowering-associated genes in ‘Fuji’ apple (Malus domestica Borkh.);Plant Physiology and Biochemistry; 2016 107:178-186 21) Song C., Zhang D.(Co-first author), Zhao C., Han M*.2016.Expressions analysis of key auxin synthesis, transport and metabolism genes in different young dwarfing apple trees. Acta Physiologiae Plantarum DOI 10.1007/s11738-016-2065-2 22) Bao L., Li K., Liu Z., Han M., Zhang D*. 2016. Characterization of the complete chloroplast genome of the Chinese crabapple Malus prunifolia (Rosales: Rosaceae: Maloideae). Conservation Genet Resour. DOI 10.1007/s12686-016-0540-0 23) Li G., Ma J., Tan M., Mao J., An na., Sha G., Zhang D., Zhao C., Han M*. 2016. Transcriptome analysis reveals the effects of sugar metabolism and auxin and 4 cytokinin signaling pathways on root growth and development of grafted apple, BMC Genomics, DOI 10.1186/s12864-016-2484-x 24) Xing L., Zhang D.(Co-first author), Li Y., Zhao C., Zhang S., Shen Y., An na., Han M*. 2015. 'Transcription profiles reveal sugar and hormone signaling pathways mediating flower induction in apple (Malus domestica Borkh.). Plant Cell Physiology doi:10.1093/pcp/pcv124 25) Xing L., Zhang D.(Co-first author), Li Y., Zhao C., Zhang S., Shen Y., An na., Han M*. 2014. Genome-wide identification of vegetative phase transition-associated microRNAs and target predictions using degradome sequencing in Malus hupehensis. BMC Genomics, 15:1125 doi:10.1186/1471-2164-15-1125 26) Li Y., Zhang D.(Co-first author), Xing L., Zhao C., Han M*.2015. Effect of 6-benzylaminopurine (6-BA) spraying on branch type, floral induction and initiation, and related gene expression in'Fuji'apple (Malus domestica Borkh). Plant Growth Regulation DOI 10.1007/s10725-015-0111-5 27) Li B., Wang J., Ren X., Bao L., Zhang L., Zhang L., Han M., Zhang D.*. 2015 Root growth, yield and fruit quality of 'Red Fuji' apple trees in relation to planting depth of dwarfing interstock on the Loess Plateau. European Journal of Horticultural Science, 2015, 80(3):109-116. 28) Teng Y*, Zhang D, Yu B, Qian M, Wang S, Li X, Su J and Shu Q. 2015. Comparison of anthocyanin accumulation of red Chinese sand pear (Pyrus pyrifolia Nakai) grown at two locations. Acta Horticulturae, 1094:175-182. 29) Qian M, Sun Y, Andrew A. Teng Y, Zhang D*. 2014. The red sport of 'Zaosu'pear and its red-striped pigmentation pattern are associated with demethylation of the PyMYB10 promoter. Phytochemistry 107:16-23. (IF=3.5) 30) Qian M, Yu B, Teng Y, Zhang D*. 2014. Isolation and expression analysis of anthocyanin biosynthesis genes from the red Chinese sand pear, Pyrus pyrifolia Nakai cv. Mantianhong, in response to methyl jasmonate treatment and UV-B/VIS conditions. Plant Molecular Biology Reporter 32:48-437 (IF=2.8) 31) Sun Y, Qian M, Wu R, Niu Q, Teng Y, Zhang D*. 2014.Postharvest pigmentation in red Chinese sand pears (Pyrus pyrifolia Nakai) in response to optimum light and temperature. Postharvest Biology and Technology 91:64-71. 32) Zhang Q, Han M*, Song C, Song X, Zhao C, Liu H, Hirst PM, Zhang D. 2014. Optimizing planting density for production of high-quality apple nursery stock in China. New Zealand Journal of Crop and Horticultural Science. http://dx.doi.org/10.1080/01140671.2014.900093 33) Zhang D, Qian M, Yu B and Teng Y. 2013. Effect of fruit maturity on UV-B-induced post-harvest anthocyanin accumulation in red Chinese sand pear. Acta Physiologiae Plantarum. 35 (9):2857-2866. 34) Zhang D, Teng Y and Bao L. 2011. Genetic diversity of red skinned Chinese sand pear cultivars revealed by AFLP markers. Acta Horticulturae, 918:679-684. 35) Zhang D, Yu B, Bai J, Qian M, Shu Q, Su J, Teng Y. 2012. Effects of high temperatures on UV-B/visible irradiation induced postharvest anthocyanin accumulation in 'Yunhongli No. 1' (Pyrus pyrifolia Nakai) pears. Scientia Horticulturae, 134:53-59. 36) Qian M, Zhang D(Co-first author), Yue X, Wang S, Li X and Teng Y. 2013. Analysis of different pigmentation patterns in 'Mantianhong' (Pyrus pyrifolia Nakai) and 'Cascade' (P. communis L.) under bagging treatment and postharvest UV-B/visible irradiation conditions. Scientia Horticulturae, 151:75-82. 37) Yu B, Zhang D(Co-first author), ang C, Qian M, Zheng X. Teng Y, Su J, and Shu Q. 2012. Isolation of anthocyanin biosynthetic genes in red Chinese sand pear (Pyrus pyrifolia Nakai) and their expression as affected by organ/tissue, cultivar, bagging and fruit side. Scientia Horticulturae, 136:29-37. 38) Liu D, Zhang D, Liu G, Hussain S and Teng Y. 2013. Influence of heat stress on leaf ultrastructure, photosynthetic performance and ascorbate peroxidase gene expression of two pear cultivars (Pyrus pyrifolia). Journal of Zhejiang University SCIENCE B 14(12):1070-1083. 39) Bao L, Chen K, Zhang D, Li X and Teng Y. 2008. An Assessment of Genetic Variability and Relationships within Asian Pears Based on AFLP (Amplified Fragment Length Polymorphism) Markers. Scientia Horticulturae, 116:374-380. 40) Bao L, Chen K,Zhang D,Cao Y, Yamamoto T and Teng Y. 2007. Genetic diversity and similarity of pear cultivars native to East Asia revealed by SSR (Simple Sequence Repeat) markers. Genetic Resources and Crop Evolution, 54:959-971. 41) 张宝娟,张东,马娟娟,宋春晖,李文强,赵彩平,杨杰,韩明玉.渭北地区不同砧穗组合富士苹果幼树树体易成形性及早花早果性的研究. 园艺学报, 2017(10): 1837-1848. 42) 宋春晖,张东,马娟娟,毛江萍,张宝娟,韩明玉. 苹果生长素运输基因MdABCB19克隆及其在矮化自根砧苗木中的表达分析. 园艺学报, 2017 (03): 409-421. 43) 齐思言, 邢利博, 张东, 等. 苹果'长富2号'开花调控转录因子基因MdIDD7的克隆及表达分析. 园艺学报, 2017(05): 828-838. 44) 杜利莎, 齐思言, 马娟娟, 邢利博,樊胜,李有梅,张东,赵彩平,韩明玉*. '长富2号'苹果短枝幼果摘除对芽叶可溶性糖积累和成花相关基因表达的影响. 园艺学报, 2017(04): 622-632. 45) 刘小杰,樊胜,李国防,檀鸣,默宁,马娟娟,张东,韩明玉*. 苹果全基因组PIN成员鉴定及MdPIN15的克隆和在腋芽萌发中的表达分析. 园艺学报,2017,44 (11): 2041–2054. 46) 张宝娟,马娟娟,张东,宋春晖,李文强,许云鹏,韩明玉. 渭北地区不同砧穗组合富士苹果幼树树体易成形性及早花早果性研究. 西北农业学报, 2017(03): 405-411. 47) 樊胜,雷超,辛明志,邵红霞,Muhammad Mobeen Tahir,张东,韩明玉. 苹果赤霉素信号转导因子MdGAMYB 的克隆和表达分析. 园艺学报,2017,44 (5):817-827. 48) 许云鹏, 赵彩平, 张东, 檀鸣, 张宝娟, 韩明玉. 不同育苗容器对苹果苗木生长和生理特性的影响. 北方园艺, 2017(01):18-23. 49) 张东,张宝娟,李文强,马娟娟,檀鸣,杜俊兰,韩明玉. 渭北黄土高原苹果不同砧穗组合幼树根系发育和分布的特征. 园艺学报, 2016, 43(4)623-632 50) 张东,郑立伟,韩明玉,高琛稀,罗文文,马娟娟. 黄土高原成龄富士苹果园土壤养分含量标准值研究. 园艺学报, 2016, 43(1)121-132 51) 樊胜,张岚清,刘柯,雷超,陈欣,姚殿城,张东,韩明玉.'长富2号'开花调控转录因子MdSPL6基因的克隆及表达分析.2016,43 (11):2089-2098. 52) 陈鸿飞, 邵红霞, 樊胜,马娟娟,张东,韩明玉. 苹果全基因组多聚半乳糖醛酸酶基因家族的鉴定及进化分析. 园艺学报, 2016, 43(10):1863-1877. 53) 郑立伟, 马娟娟, 张东, 等. 苹果矮化砧木T337 MdCBB1基因的克隆与表达分析. 西北农业学报, 2016(09):1365-1370. 54) 高琛稀,刘航空,韩明玉,张东,杨杰. 矮化自根砧苹果苗木生长动态及其根系分布特征分析 西北农林科技大学学报(自然科学版),2016, 44(5)170-176 55) 张洁,宋春晖,韩明玉,张东,高琛稀. 影响苹果砧木水分利用效率的叶片形态生理参数筛选研究. 林业科学,2016 56) 张东,赵娟,韩明玉,高琛稀,罗文文,郑立伟. 2014. 黄土高原富士苹果叶片矿质养分与果实品质相关性分析. 园艺学报,41(11): 2179-2187 57) 罗文文,高琛稀,张东*,韩明玉*,赵彩平,刘航空. 2014. 不同海拔环境因子对富士苹果叶片和果实品质的影响。 应用生态学报,25 (8): 2243-2250 58) 杨伟伟,陈锡龙,刘航空,张满让,张东,韩明玉. 矮化中间砧短枝富士苹果高纺锤树形冠层结构与光能截获的三维模拟. 中国农业科学. 2014,47(23):4680-4694 59) 刘小媛,宋春晖,韩明玉,张东,赵彩平. 2014. 喷施普洛马林对苹果幼树形态建成与15 N 吸收利用的影响. 果树学报, 31(2): 206~212 60) 李有梅,邢利博,张东,申亚文,张松文, 韩明玉. 2014. 喷施IAA抑制富士幼树花芽孕育的机制研究. 西北农业学报 61) 张东,俞波,钱敏杰,王苏珂,李秀根,滕元文. 2012. 机械伤促进红色砂梨着色的机制分析. 园艺学报,39(1):23-30. 62) 张东,滕元文. 2011. 红梨资源及其果实着色机理研究进展. 果树学报,28 :485-492. 63) 张东,舒群,滕元文,仇明华,鲍露. 2007. 中国红皮砂梨的SSR分析. 园艺学报,34:47-52. 64) 鲍露,张东,滕元文,陈昆松. 2006. DNA标记技术在梨属植物研究中的应用. 果树学报,23:270-275. 6.出版专著情况: 韩明玉主编,李丙智、范崇辉、张立新、张林森和张东参编. 黄土高原苹果发育调控理论与实践. 中国农业出版社. 2015年5月. 97万字. 张东承担第四章(共5章),黄土高原苹果园产量与质量控制,约20.5万字

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freemarker.core.Environment.visit(Environment.java:332) at freemarker.core.Environment.process(Environment.java:305) at freemarker.template.Template.process(Template.java:384) at com.xatrm.common.web.springmvc.SimpleFreeMarkerView.renderMergedTemplateModel(SimpleFreeMarkerView.java:114) at org.springframework.web.servlet.view.AbstractTemplateView.renderMergedOutputModel(AbstractTemplateView.java:167) at org.springframework.web.servlet.view.AbstractView.render(AbstractView.java:303) at org.springframework.web.servlet.DispatcherServlet.render(DispatcherServlet.java:1257) at org.springframework.web.servlet.DispatcherServlet.processDispatchResult(DispatcherServlet.java:1037) at org.springframework.web.servlet.DispatcherServlet.doDispatch(DispatcherServlet.java:980) at org.springframework.web.servlet.DispatcherServlet.doService(DispatcherServlet.java:897) at org.springframework.web.servlet.FrameworkServlet.processRequest(FrameworkServlet.java:970) at org.springframework.web.servlet.FrameworkServlet.doGet(FrameworkServlet.java:861) at javax.servlet.http.HttpServlet.service(HttpServlet.java:622) at org.springframework.web.servlet.FrameworkServlet.service(FrameworkServlet.java:846) at javax.servlet.http.HttpServlet.service(HttpServlet.java:729) at org.apache.catalina.core.ApplicationFilterChain.internalDoFilter(ApplicationFilterChain.java:230) at org.apache.catalina.core.ApplicationFilterChain.doFilter(ApplicationFilterChain.java:165) at org.apache.tomcat.websocket.server.WsFilter.doFilter(WsFilter.java:52) at org.apache.catalina.core.ApplicationFilterChain.internalDoFilter(ApplicationFilterChain.java:192) at org.apache.catalina.core.ApplicationFilterChain.doFilter(ApplicationFilterChain.java:165) at org.jasig.cas.client.session.SingleSignOutFilter.doFilter(SingleSignOutFilter.java:76) at org.apache.catalina.core.ApplicationFilterChain.internalDoFilter(ApplicationFilterChain.java:192) at org.apache.catalina.core.ApplicationFilterChain.doFilter(ApplicationFilterChain.java:165) at ci.filter.SqlInjectFilter.doFilter(SqlInjectFilter.java:157) at org.apache.catalina.core.ApplicationFilterChain.internalDoFilter(ApplicationFilterChain.java:192) at org.apache.catalina.core.ApplicationFilterChain.doFilter(ApplicationFilterChain.java:165) at ci.filter.XssFilter.doFilter(XssFilter.java:96) at org.apache.catalina.core.ApplicationFilterChain.internalDoFilter(ApplicationFilterChain.java:192) at org.apache.catalina.core.ApplicationFilterChain.doFilter(ApplicationFilterChain.java:165) at ci.filter.SecurityFilter.doFilter(SecurityFilter.java:25) at org.apache.catalina.core.ApplicationFilterChain.internalDoFilter(ApplicationFilterChain.java:192) at org.apache.catalina.core.ApplicationFilterChain.doFilter(ApplicationFilterChain.java:165) at com.xatrm.common.web.XssFilter.doFilter(XssFilter.java:40) at org.apache.catalina.core.ApplicationFilterChain.internalDoFilter(ApplicationFilterChain.java:192) at org.apache.catalina.core.ApplicationFilterChain.doFilter(ApplicationFilterChain.java:165) at org.apache.shiro.web.servlet.AbstractShiroFilter.executeChain(AbstractShiroFilter.java:449) at org.apache.shiro.web.servlet.AbstractShiroFilter$1.call(AbstractShiroFilter.java:365) at org.apache.shiro.subject.support.SubjectCallable.doCall(SubjectCallable.java:90) at org.apache.shiro.subject.support.SubjectCallable.call(SubjectCallable.java:83) at org.apache.shiro.subject.support.DelegatingSubject.execute(DelegatingSubject.java:383) at org.apache.shiro.web.servlet.AbstractShiroFilter.doFilterInternal(AbstractShiroFilter.java:362) at org.apache.shiro.web.servlet.OncePerRequestFilter.doFilter(OncePerRequestFilter.java:125) at org.springframework.web.filter.DelegatingFilterProxy.invokeDelegate(DelegatingFilterProxy.java:346) at org.springframework.web.filter.DelegatingFilterProxy.doFilter(DelegatingFilterProxy.java:262) at org.apache.catalina.core.ApplicationFilterChain.internalDoFilter(ApplicationFilterChain.java:192) at org.apache.catalina.core.ApplicationFilterChain.doFilter(ApplicationFilterChain.java:165) at org.springframework.orm.hibernate4.support.OpenSessionInViewFilter.doFilterInternal(OpenSessionInViewFilter.java:151) at org.springframework.web.filter.OncePerRequestFilter.doFilter(OncePerRequestFilter.java:107) at org.apache.catalina.core.ApplicationFilterChain.internalDoFilter(ApplicationFilterChain.java:192) at org.apache.catalina.core.ApplicationFilterChain.doFilter(ApplicationFilterChain.java:165) at org.springframework.web.filter.CharacterEncodingFilter.doFilterInternal(CharacterEncodingFilter.java:197) at org.springframework.web.filter.OncePerRequestFilter.doFilter(OncePerRequestFilter.java:107) at org.apache.catalina.core.ApplicationFilterChain.internalDoFilter(ApplicationFilterChain.java:192) at org.apache.catalina.core.ApplicationFilterChain.doFilter(ApplicationFilterChain.java:165) at com.xatrm.common.web.ProcessTimeFilter.doFilter(ProcessTimeFilter.java:35) at org.apache.catalina.core.ApplicationFilterChain.internalDoFilter(ApplicationFilterChain.java:192) at org.apache.catalina.core.ApplicationFilterChain.doFilter(ApplicationFilterChain.java:165) at org.apache.catalina.core.StandardWrapperValve.invoke(StandardWrapperValve.java:198) at org.apache.catalina.core.StandardContextValve.invoke(StandardContextValve.java:108) at org.apache.catalina.authenticator.AuthenticatorBase.invoke(AuthenticatorBase.java:472) at org.apache.catalina.core.StandardHostValve.invoke(StandardHostValve.java:140) at org.apache.catalina.valves.ErrorReportValve.invoke(ErrorReportValve.java:79) at org.apache.catalina.valves.AbstractAccessLogValve.invoke(AbstractAccessLogValve.java:620) at org.apache.catalina.core.StandardEngineValve.invoke(StandardEngineValve.java:87) at org.apache.catalina.connector.CoyoteAdapter.service(CoyoteAdapter.java:349) at org.apache.coyote.http11.Http11Processor.service(Http11Processor.java:783) at org.apache.coyote.AbstractProcessorLight.process(AbstractProcessorLight.java:66) at org.apache.coyote.AbstractProtocol$ConnectionHandler.process(AbstractProtocol.java:789) at org.apache.tomcat.util.net.NioEndpoint$SocketProcessor.doRun(NioEndpoint.java:1455) at org.apache.tomcat.util.net.SocketProcessorBase.run(SocketProcessorBase.java:49) at java.util.concurrent.ThreadPoolExecutor.runWorker(ThreadPoolExecutor.java:1142) at java.util.concurrent.ThreadPoolExecutor$Worker.run(ThreadPoolExecutor.java:617) at org.apache.tomcat.util.threads.TaskThread$WrappingRunnable.run(TaskThread.java:61) at java.lang.Thread.run(Thread.java:745)