植物学硕士点简介

 

植物学硕士点简介

一、硕士点概况

我校植物学硕士点于2005年获批建立,植物学科是我校发展速度快、实力较强的学科之一,近年来该学科组建了一支实力较强的师资队伍,建设了很好的实验平台,形成了以孢子植物研究为特色的优势领域,近年来取得了喜人的科研成绩。本硕士点现有研究生导师11人,拥有藻类生物学、苔藓植物学、蕨类植物学、资源植物学、植物生理与分子生物学5个研究方向。

近五年来,本硕士点导师主持国家自然科学基金项目12项,参与国家重点重大项目4项,其他项目20余项,研究经费充足;发表论文150余篇,其中SCI收录的论文50余篇;出版教材、学术著作10余部;获国家自然科学二等奖1项,辽宁省科学技术一等奖1项,上海市科技进步二等奖1项。

硕士点负责人王全喜教授,为上海市教学名师,主持国家自然科学基金6项,参与国家重点项目4项,发表论文150余篇。

二、主要研究方向:

[1] 藻类生物学方向

主要研究藻类的区系分类、生理生态等问题,重点放在淡水藻类的系统分类、区系生态和藻类的资源利用等领域。

[2] 苔藓植物学方向

主要研究苔藓植物的区系分类、孢粉学、分子系统学、生态学以及对环境的指示作用等。

[3]蕨类植物学方向

研究蕨类植物的配子体发育生物学、蕨类生殖生物学、孢粉学、系统演化、蕨类植物的引种驯化,蕨类植物资源开发利用等。

[4] 资源植物学方向:主要研究植物有效成分的分离、纯化以及功能研究;蔬菜资源学研究,包括蔬菜品种的筛选和培育生物学研究;野生植物资源及其开发利用等。

[5] 植物学生理与分子生物学方向:主要以藻类研究对象,研究植物光合作用、生长发育的生理现象及其分子机制,植物蛋白组学等,重点放在光合作用中能量传递机制,植物逆境生理等问题上。

三、师资队伍

王全喜授,藻类分类与生态、微藻生物技术、蕨类植物生物学方向

郭水良授,苔藓植物方向,植物生态学方向

马为民授,藻类分子生物学

戴绍军授,植物蛋白组学方向

王全华研究员,植物资源学方向

曹建国教授,蕨类植物生殖发育与资源生物学方向

副教授,苔藓植物分类学方向

戴锡玲副教授,蕨类植物发育生物学、孢粉学方向

副教授,植物资源学方向

唐克轩授(兼职),植物次生代谢方向

米华玲研究员(兼职),植物光合作用方向

严跃鸿研究员(兼职),蕨类植物分类学方向

四、代表性论文

[1]Cao JG, Xia X, Chen XF, Xiao JB, Wang QX. 2013. Characterization of flavonoids from Dryopteris erythrosora and evaluation of their antioxidant, anticancer and acetylcholinesterase inhibition activities. Food and Chemical Toxicology. 51: 242–250.

[2]Cao JG, Xia X, Dai XL, Xiao JB, Wang QX, Andrae-Marobela K, Okatch H. 2013. Flavonoids profiles, antioxidant, acetylcholinesterase inhibition activities of extract from Dryoathyrium boryanum(Willd.) Ching. Food and Chemical Toxicology. 55: 121–128.

[3]Cao JG, Dai XL, Wang QX. 2012. Ultrastructural and cytochemical studies on oogenesis of the fern Pteridium aquilinum. Sex Plant Reprod. 25147-156.

[4]Cao JG, Dai XF, Wang QX. 2012. Cytological features of oogenesis and their evolutionary significance in the fern Osmunda japonicaSexual Plant Reproduction2561-69.

[5]Cao JG, Dai XL, Wang QX. 2011. Archegonial development and oogenesis of the fern Plagiogyria euphlebia and their phylogenetic significanceAmerican fern journal101: 231–240.

[6]Cao JG, Wang QX, Dai XL, Duckett JG. 2010. Ultrastructural observations of oogenesis in the fern Adiantum flabellulatum L. (Adiantaceae)American fern journal100: 93–102.

[7]Cao JG, Wang QX, Yang NY, Bao WM. (2010) Cytological events during zygote formation of the fern Ceratopteris thalictroides. J. Integr. Plant Biol.52(3), 254–264.

[8]Cao JG, Wang QX, Bao WM (2010) Formation of the fertilization pore during oogenesis of the fern Ceratopteris thalictroides. J. Integr. Plant Biol. 52(6), 518–527.

[9]Cao JG, YangNY, Wang Q X. 2009. Ultrastructure of the mature egg and fertilization in the fern Ceratopteris thalictroides (L.) BrongnJournal of Integrative Plant Biology51:(3) 243-250.

[10] Wei, L., Wang, Q., Ma, W. & Mi H. 2009 Effect of cell water amount on photosynthetic yield in the cyanobacterium Nostoc flagelliforme and involvement of NADPH dehydrogenase-mediated cyclic electron transport. Journal of Applied Phycology 21:179-184.

[11] You, Q., Liu, Y., Wang, Y. & Wang Q. 2009. Taxonomy and distribution of diatoms in the genera Epithemia and Rhopalodia from the Xinjiang, China. Nova Hedwigia 89:397-430.

[12] Liu, Y., Fu, C., Wang, Q. & Stoermer, E.F. 2010 Two new species of Pinnularia from Great Xing’an Mountains, China. Diatom Research 25(1):99-109.

[13] Liu, Y., Fu, C., Wang, Q. & Stoermer, E.F. 2010. A new species, Diatoma rupestris, from the Great Xing’an Mountains, China. Diatom Research 25:337-347.

[14] Wang, L., Chen, M., Wei, L., Gao, F., Lv, Z., Wang, Q. & Ma, W. 2010. Treatment with moderate concentrations of NaHSO3 enhances photobiological H2 production in the cyanobacterium Anabaena sp. strain PCC 7120. International Journal of Hydrogen Energy 35(23):12777 – 12783.

[15] Wu, S., Zhang, S. & Wang Q. 2010. Molecular Cloning and Characterization of Maltooliosyltrehalose Synthase gene from Nostoc flagelliformeJournal of Microbiology and Biotechnology 20(3): 579-586.

[16] Wu, S., Yan, G., Xu, L., Wang, Q. & Liu, X. 2010. Improvement of hydrogen production with expression of lba gene from soybean in chloroplast of Chlamydomonas reinhardtii. International Journal of Hydrogen Energy. (35): 13419-13426.

[17] Wu, S., Huang, R., Xu, L.i, Yan, G. & Wang, Q. 2010. Improvement of hydrogen production with expression of hemH gene and lba gene in chloroplast of Chlamydomonas reinhardtii. Journal of Biotechnology. 146(3): 120-125.

[18] Cao TongZuo B RGuo ShuiliangNew synonyms and combinations in the genus Ptychomitrium (BryopsidaPtychomitriaceae)J. Hattori Bot. Lab.200610041-52

[19]Guo Shuiliang, Bentio C. Tan, Vivii Virtanen, 2006, Taxonomic and morphometric comments on Macromitrium blumei Nees ex Schwägrichen, Macromitrium zollingeri Mitten ex Bosch & Sande Lacoste and M. annamense Brotherus & Paris (MuSCI: Orthotrichaceae), Nova Hedwigia, 82: (3-4):467-482

[20] Ma, W., Chen, M., Wang, L., Wei, L. & Wang, Q. 2011. Treatment with NaHSO3 greatly enhances photobiological H2 production in the green alga Chlamydomonas reinhardtiiBioresource Technology.102(18): 8635-8638

[21]Wu, S., He, L., Shen, R., Zhang, X. & Wang, Q. 2011. Molecular Cloning of Maltooligosyltrehalose Trehalohydrolase Gene from Nostoc flagelliforme and Trehalose- Related Response to Stresses. Journal of Microbiology and Biotechnology 21(8):830-837.

[22]Wu, S., Xu, L., Wang, R., Liu, X. & Wang, Q. 2011. A high yield mutant of Chlamydomonas reinhardtii for photoproduction of hydrogen. International Journal of Hydrogen Energy 36:14134-14140

[23]Wu, S., Xu, L,, Huang, R. & Wang, Q. 2011. Improved biohydrogen production with an expression of codon-optimized hemH and lba genes in the chloroplast of Chlamydomonas reinhardtiiBioresource Technology 102(3):2610-2616.

[24]Liu, Y., Wang, Q. &Fu, C. 2011. Taxonomy and distribution of diatoms in the genus Eunotia from the Da'erbin Lake and Surrounding BogNova Hedwigia 92: 205-232.

[25]Kociolek, J.P., Liu, Y. & Wang, Q. 2011. Internal valves in populations of Meridion circulare from the A'er Mountain region of northeastern China, Implications for taxonomy and systematics. Journal of  Systematics Evolution 49(5):486-494.

[26] Wu, S., Li, X., Yu, J. & Wang, Q. 2012. Improvement of hydrogen yield by co-culture of Chlamydomonas reinhardtii and Bradyrhizobium japonicumBioresource Technology 123: 184-188.

[27]Pang, W., Wang, Y. & Wang, Q. 2012.Ten new chrysophycean stomatocysts ornamented with spines from bogs near Da’erbin Lake, China. Nova Hedwigia 94(1): 193-207.

[28] Pang, W., Wang, Y. & Wang, Q. 2012. Six new chrysophycean stomatocysts ornamented with reticulum from the Great Xing’an Mountains, China. Chinese Journal of Oceanology and Limnology 30(3): 410-412.

 [29] Guo Shuiliang, Zhen Yuanyuan, Cao Tong & He Si. 2010. New synonym and record of the genus Ulota D. Mohr. (Musci, Orthotrichaceae) in moss flora of China. Acta Bryolichenologica Asiatica, 3:51-59.

[30]Yuan-Yuan Chen, Yu-Xia Lou, Shuiliang Guo & Cao Tong. 2009. Successful tissue culture of the medicinal moss Rhodobryum giganteum and factors influencing proliferation of its protonemata. Annual Botanical Fennici, 46: 516-524.

[31]Guo Shuiliang & He Si, 2008. Macromtrium hainanense, a new species of Orthotrichaceae from China, The bryologist,111(3):505-509.

[32]Guo Shuiliang & He Si. 2008. Macromitrium cavaleriei, a little known Chinese moss species (MuSCI: orthotrichiaceae), with its four new synonyms, Journal of Bryology, 30:264-270

[33]Guo Shuiliang, Johannes Enroth, Timo Koponen. 2007. Bryophyte flora of Hunan province, china. – Orthotrichaceae, Annual Botanica Fennica, 44: 1-34.

[34]Guo Shuiliang, Muo Yaying & Cao Tong. 2007. Orthotrichum courtoisii (Bryophyte), a new synonym of O. consobrinum Card. Acta Phytotaxonomica Sinica, 45(3):405-409.

[35] Cao Tong, Shi Chunglei, Guo Shuiliang. 2008. On Macromitrium microstomum, a notable moss species and its geographic distribution, Guihaia, 28(3): 336-339

[36]Guo Shuiliang & Tong CAO & Benito C. TAN, 2007. Three new species records of Orthotrichaceae ( Bryopsida ) in China, with comments on their type specimens, Cryptogamie Bryologie, 28(2): 149-158.

[37] Guo Shuiliang, Cao Tong, Betito C. Tan, & Song Guoyuan, 2007. Taxonomic notes on Asian species of Orthotrichaceae (Bryopsida): Macromitrium with gymnostomous capsules. Garden’s Bulletin Singapore 58(2): 155-178.

[38]Zuo Ben-Rong, Cao Tong, Guo Shui-liang. Comparison and assessment of three East-Asian species of the genus Scapania (Hepaticae: Scapaniaceae). Acta Phytotaxonomica Sinica; 200745(5): 742-750

[39] Cao TongZhu RuiLiangTan C. BentioGuo ShuiliangGao ChienWu PenChenLi XingJiangA report of the first national red list of Chinese endangered bryophytes. Journal of Hattori Botanical Laboratory200699275-295.

[40]Yu Jing, Guo Shuiliang, Ma YahongCao Tong. 2012. Taxonomic and morphometric comments on Macromitrium tosae Besch. (Orthotrichaceae), with its four new synonyms. The Bryologist, 115(3): 388-401.

[41]Yu Jing, Guo Shuiliang, Ma Yahong, Cao Tong. 2013. Macromitrium ousiense, a neglected Chinese moss species(Orthotrichaceae, Bryopsida) with new synonym and records. Nordric Journal of Botany, 31(3): 339-343.

[42]Yu Jing, Ma Ya-Hong, Guo Shuiliang. 2013. Modeling potential geographic distribution of epiphytic moss Macromitrium japonicum (Bryophyta: Musci) in China via a Maximum Entropy Algorithm and ArcGISAnnuales Botanici Fennici , 50(1-2): 35-42.

[43]Yu Jing, Guo Shuiliang, Ma Yahong. 2013. Typification of an endangered moss Macromitrium fortunatii (Orthotrichaceae). Chenia

[44]Xu Yan Yun, Zhen Yuan Yuan, Yu Jing Guo Shui Liang, Cao Tong2012. Experimental Studies on the Potential of Two Terrestrial Mosses in Monitoring Water Contaminated by Cd and Cr. Polish Journal of Environmental Studies51453-1459

[45]Zhang M; Cao JG; Dai XL; Chen XF; Wang QX. 2012. Flavonoids Contents and Free Radical Scavenging Activity of Extracts from Leaves, Stems, Rachis and Roots of Dryopteris erythrosora. The Iranian Journal of Pharmaceutical Research 11 (3): 991-997

五、主要科研项目

[1] 国家自然科学基金重大项目课题中国淡水藻志管壳缝目,20042009

[2] 国家科技基础研究专项课题,中国淡水藻志-硅藻门管壳缝目,20062011

[3] 国家自然科学基金,中国真蕨目孢子主要类型孢壁结构及其发育的研究,20032005

[4] 国家自然科学基金,大兴安岭沼泽藻类生物多样性的研究,20052007

[5] 国家自然科学基金,新疆硅藻植物区系分类的研究,20072009

[6] 国家自然科学基金,大兴安岭沼泽硅藻分类区系研究,20092011

[7] 国家自然科学基金,大兴安岭沼泽金藻孢囊分类与生态研究,20112013

[8] 国家自然科学基金,若尔盖湿地及其附近水域的硅藻分类与生态研究,20132016

[9] 上海市基础研究重点项目,陆生蓝藻发菜对极端环境适应机理的研究,20042006

[10] 上海市基础研究重点项目,产氢微藻藻种选育及其代谢调控的研究,20072009

[11] 上海市地方院校能力建设项目,高校产氢基因工程藻的构建与代谢调控,2009-2012

[12] 国家自然科学基金,中国木灵藓科植物的分类修订与分支系统学研究,2006-2008

[13] 国家自然科学基金,亚洲蓑藓属植物的分类学研究,2010-2012

[14] 国家自然科学基金,应用DNA C-值评估植物入侵性的理论与方法, 2011-2013

[15] 上海市科委创新行动计划基础研究重点项目,重要外来入侵植物对上海地区农业生态系统结构和功能影响的研究,  2010-2013

[16] 上海市教委科技创新重点项目,DNA C-值与外来植物入侵性关系的假设与实验研究, 2006-2008

[17] 上海教委科技创新重点项目,外来植物入侵风险评估理论与方法创新以长江三角洲地区为例, 2010-2012

[18] 上海市科委西部合作科研项目,西双版纳药用孢子植物资源的开发利用,2007-2010

[19] 上海市科委重点支撑项目,孢子植物在城市立体绿化上的应用及其生态功能评估,2012-2015

[20] 上海浦东区环保局科研项目,九段沙湿地自然保护区加拿大一枝黄花防控技术体系及其生态效益评价,2010-2012

[21] 上海浦东区环保局科研项目,九段沙湿地自然保护区加拿大一枝黄花分布区域、入侵机理、生态风险的研究,2008-2010

[22] 外来入侵植物多样性数据库建设国家检验检疫总局项目,2005-2007

[23] 国家自然科学基金项目,“水蕨受精作用及胚胎发育的研究 20072009

[24] 国家自然科学基金项目,“蕨类植物受精孔的发生、功能及其演化意义20102012

  

  

  

更新日期:2013.12


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