Plant Ecology Journal Club 分享主题和文献列表, 1-7, 2018年秋
第一期PEJC,2018年11月17日上午9:00,N2-146
SDU, Plant Ecology Journal Club November 16, 2018 (Session 1st)
内容:
1、为什么要做Journal Club (Liu Lele);
2、河流对植物种群遗传结构的影响系列综述(Wang Jingwen);
3、使用电镜观测植物根系的探索(Yin Meiqi);
4、How to skim a paper? A case (Liu Lele):
文献打包下载:百度网盘
第二期,2018年11月24日上午9:00,N2-146
SDU, Plant Ecology Journal Club November 24, 2018 (Session 2nd)
1、河流对植物种群遗传结构的影响系列综述2(Wang Jingwen)
PPT下载 (提取码:62bw)
Geng Q, Yao Z, Yang J, He J, Wang D, Wang Z, Liu H. Effect of Yangtze River on population genetic structure of the relict plant Parrotia subaequalis in eastern China. Ecology and evolution. 2015 Oct;5(20):4617-27.
Sander NL, Pérez‐Zavala F, Da Silva CJ, Arruda JC, Pulido MT, Barelli MA, Rossi AB, Viana AP, Boechat MS, Bacon CD, Cibrián‐Jaramillo A. Rivers shape population genetic structure in Mauritia flexuosa (Arecaceae). Ecology and Evolution. 2018.
Baker SA, Dyer RJ. Invasion genetics of Microstegium vimineum (Poaceae) within the James River Basin of Virginia, USA. Conservation Genetics. 2011 Jun 1;12(3):793-803.
2、Transgenerational epigenetics in non-model plants with common garden experiments (Liu Lele)
Groot MP, Wagemaker N, Ouborg NJ, Verhoeven KJ, Vergeer P. Epigenetic population differentiation in field‐and common garden‐grown Scabiosa columbaria plants. Ecology and evolution. 2018 Mar;8(6):3505-17.
Preite V, Oplaat C, Biere A, Kirschner J, van der Putten WH, Verhoeven KJ. Increased transgenerational epigenetic variation, but not predictable epigenetic variants, after environmental exposure in two apomictic dandelion lineages. Ecology and evolution. 2018 Mar;8(5):3047-59.
Herrera CM, Alonso C, Medrano M, Pérez R, Bazaga P. Transgenerational epigenetics: Inheritance of global cytosine methylation and methylation‐related epigenetic markers in the shrub Lavandula latifolia. American journal of botany. 2018 Apr;105(4):741-8.
Rendina González AP, Preite V, Verhoeven K, Latzel V. Transgenerational effects and epigenetic memory in the clonal plant Trifolium repens. Frontiers in Plant Science. 2018;9:1677.
文献打包下载:百度网盘
第三期,2018年12月1日上午9:00,N2-146
SDU, Plant Ecology Journal Club December 1, 2018 (Session 3rd)
1、Yin Meiqi: 不同生境芦苇形态特征和茎秆解剖结构分析 PPT
陈国仓, 张承烈. 不同生境芦苇形态特征和茎秆解剖结构的比较研究. 兰州大学学报 (自然科学版). 1991;27.
2、Wang Jingwen: The causes and consequences of DNA methylome variation in plants PPT
Seymour D K, Becker C. The causes and consequences of DNA methylome variation in plants[J]. Current Opinion in Plant Biology, 2017, 36:56-63.
3、Zhu Pengcheng: 水稻种植系统中,堆肥堆减少温室气体排放具有有益作用 PPT
Jeong S T , Kim G W , Hwang H Y , et al. Beneficial effect of compost utilization on reducing greenhouse gas emissions in a rice cultivation system through the overall management chain[J]. Science of The Total Environment, 2018, 613-614:115-122.
4、Sun Xiaohan: 植物交配系统研究初探 PPT
5、Liu Lele: The descriptors and drivers of reed die-back syndrome in Italy PPT
Coppi, A., Lastrucci, L., Cappelletti, D., Cerri, M., Ferranti, F., Ferri, V., Foggi, B., Gigante, D., Venanzoni, R., Viciani, D. and Selvaggi, R., 2018. AFLP Approach Reveals Variability in Phragmites australis: Implications for Its Die-Back and Evidence for Genotoxic Effects. Frontiers in plant science, 9, p.386.
Lastrucci, L., Lazzaro, L., Coppi, A., Foggi, B., Ferranti, F., Venanzoni, R., Cerri, M., Ferri, V., Gigante, D. and Reale, L., 2017. Demographic and macro-morphological evidence for common reed dieback in central Italy. Plant Ecology & Diversity, 10(2-3), pp.241-251.
Cerri, M., Ferranti, F., Coppi, A., Foggi, B., Gigante, D., Lastrucci, L., Onofri, A., Venanzoni, R., Viciani, D. and Reale, L., 2018. Influence of die-back syndrome on reproductive strategies within Phragmites australis populations. Plant Biosystems-An International Journal Dealing with all Aspects of Plant Biology, pp.1-7.
文献打包下载:百度网盘
第四期,2018年12月8日上午9:00,N2-146
SDU, Plant Ecology Journal Club December 8, 2018 (Session 4th)
1、Yin Meiqi: 芦苇形态结构对黄河三角洲不同生境的响应 PPT
韩鹏, 吴耿, 吴勇泉, et al. 芦苇形态结构对黄河三角洲不同生境的响应[J]. 湿地科学, 2011, 9(2):185-190.
2、Wang Jingwen: Genetic differentiation of Rubus chamaemorus populations PPT
Leišová‐Svobodová, L., Phillips, J., Martinussen, I. and Holubec, V., 2018. Genetic differentiation of Rubus chamaemorus populations in the Czech Republic and Norway after the last glacial period. Ecology and Evolution, 8(11), pp.5701-5711.
3、Liu Lele: Genetic and Epigenetic Contributions to Adaptation in Arabidopsis PPT
Fakheran, S., Paul-Victor, C., Heichinger, C., Schmid, B., Grossniklaus, U. and Turnbull, L.A., 2010. Adaptation and extinction in experimentally fragmented landscapes. Proceedings of the National Academy of Sciences, p.201010846.
Schmid, M.W., Heichinger, C., Schmid, D.C., Guthörl, D., Gagliardini, V., Bruggmann, R., Aluri, S., Aquino, C., Schmid, B., Turnbull, L.A. and Grossniklaus, U., 2018. Contribution of epigenetic variation to adaptation in Arabidopsis. Nature communications, 9(1), p.4446.
文献打包下载:百度网盘
第五期,2018年12月15日上午9:00,N2-146
SDU, Plant Ecology Journal Club December 15, 2018 (Session 5th)
1、Yin Meiqi: Anatomy study in three different ecotypes of reed. PPT
Liu, Y., Li, X., Liu, M., Cao, B., Tan, H., Wang, J. and Li, X., 2012. Responses of three different ecotypes of reed (Phragmites communis Trin.) to their natural habitats: leaf surface micro-morphology, anatomy, chloroplast ultrastructure and physio-chemical characteristics. Plant Physiology and Biochemistry, 51, pp.159-167.
2、Liu Lele: Plant Growth-Promoting Organisms in Soybean Hydroponics. PPT
Paradiso, R., Arena, C., De Micco, V., Giordano, M., Aronne, G. and De Pascale, S., 2017. Changes in Leaf Anatomical Traits Enhanced Photosynthetic Activity of Soybean Grown in Hydroponics with Plant Growth-Promoting Microorganisms. Frontiers in plant science, 8, p.674.
3、Zhu Pengcheng: Litter decomposition PPT
Allison, S.D., Lu, Y., Weihe, C., Goulden, M.L., Martiny, A.C., Treseder, K.K. and Martiny, J.B., 2013. Microbial abundance and composition influence litter decomposition response to environmental change. Ecology, 94(3), pp.714-725.
4、Li Yichen: 微生物肥料制备及有效性验证实验之实验设计讨论 PPT
第六期,2018年12月22日上午9:00,N2-146
SDU, Plant Ecology Journal Club December 22, 2018 (Session 6th)
1、Liu Lele: Root endophytes in Phragmites australis
Bowen JL, Kearns PJ, Byrnes JE, Wigginton S, Allen WJ, Greenwood M, Tran K, Yu J, Cronin JT, Meyerson LA. Lineage overwhelms environmental conditions in determining rhizosphere bacterial community structure in a cosmopolitan invasive plant. Nature communications. 2017 Sep 5;8(1):433.
Bickford WA, Goldberg DE, Kowalski KP, Zak DR. Root endophytes and invasiveness: no difference between native and non‐native Phragmites in the Great Lakes Region. Ecosphere. 2018 Dec;9(12):e02526.
Shearin ZR, Filipek M, Desai R, Bickford WA, Kowalski KP, Clay K. Fungal endophytes from seeds of invasive, non-native Phragmites australis and their potential role in germination and seedling growth. Plant and Soil. 2018 Jan 1;422(1-2):183-94.
White JF, Kingsley KI, Kowalski KP, Irizarry I, Micci A, Soares MA, Bergen MS. Disease protection and allelopathic interactions of seed-transmitted endophytic pseudomonads of invasive reed grass (Phragmites australis). Plant and Soil. 2018 Jan 1;422(1-2):195-208.
2、Wang Jingwen: Microsatellite markers in Phragmites australis
Saltonstall K. Microsatellite variation within and among North American lineages of Phragmites australis. Molecular Ecology. 2003 Jul;12(7):1689-702.
第七期,2018年12月28日19:00,N2-146
SDU, Plant Ecology Journal Club. December 28, 2018 (Session 7th)
1、Liu Lele : (1) Soil legacy (2) Paremtage analysis
Schmid, M. W., Hahl, T. , van Moorsel, S. J., Wagg, C. , De Deyn, G. B. and Schmid, B. (2018), Feedbacks of plant identity and diversity on the diversity and community composition of rhizosphere microbiomes from a long‐term biodiversity experiment. Mol Ecol. Accepted Author Manuscript. doi:10.1111/mec.14987
Flanagan, S. P. and Jones, A. G. (2018), The future of parentage analysis: from microsatellites to SNPs and beyond. Mol Ecol. Accepted Author Manuscript. doi:10.1111/mec.14988
2、Wang Jingwen: Epigenetic diversity increases the productivity and stability of plant populations
Latzel, V.I.T., Allan, E., Silveira, A.B., Colot, V., Fischer, M. and Bossdorf, O., 2013. Epigenetic diversity increases the productivity and stability of plant populations. Nature communications, 4, p.2875.
3、Yin Meiqi: Phenotypic differences among ploidy levels of Phragmites australis growing in Romania
Paucã-Comãnescu, M., Clevering, O.A., Hanganu, J. and Gridin, M., 1999. Phenotypic differences among ploidy levels of Phragmites australis growing in Romania. Aquatic Botany, 64(3-4), pp.223-234.