Formation of Plant Communities of the Newly Created Wetland in Modern Yellow River Delta

文献类型: 外文期刊

第一作者: Xiang, Jun

作者: Xiang, Jun;Wu, Geng;Wu, Yongquan;Han, Peng;Li, Maoteng;Yu, Longjiang;Xiang, Jun;Wang, Qingfang

作者机构:

关键词: Yellow River Delta;wetland;germination;salinity;plant communities

期刊名称:INTERNATIONAL CONFERENCE ON ECOLOGICAL INFORMATICS AND ECOSYSTEM CONSERVATION (ISEIS 2010)

ISSN: 1878-0296

年卷期: 2010 年 2 卷

页码:

收录情况: SCI

摘要: To explore the cause of plant vegetation distributed on the newly created wetland in estuary of modern Yellow River Delta, we took field-based observation of the wetland plant diversity of the Yellow River Delta, Shandong, China. Based on the results of field investigation, we studied the effects of salinity on germination characteristics of four dominant species in wetland of Yellow River Delta, i.e. Suaeda salsa, Apocynum venetum, Phragmites australis and Typha orientalis. The germination conditions of the four dominant emerging plants at 0, 50, 100, 150, 200, 250 and 300 mM NaCl were studied, the results indicated that all species had a trend of decreased germination percentage and rate of germination with the increase of salinity levels, but the inhibitory effect of salinity on the germination percentage of each was different. S. salsa and A. venetum had higher tolerance of salinity than P. australis and T. orientalis. Germination percentage and germination rate of seeds of the four species were significantly affected by salinity. In conclusion, the results of seeds germination of the four dominant species in the newly created wetland were accorded with the results of field investigation of plant community distribution along the gradients of environmental salinity, and salinity is one of the most pivotal factors limited the distribution of the plant vegetation in the newly created wetland of Yellow River Delta. (C) 2010 Published by Elsevier Ltd.

分类号:

  • 相关文献

[1]Asynchrony among local communities stabilises ecosystem function of metacommunities. Wilcox, Kevin R.,Luo, Yiqi,Souza, Lara,Tredennick, Andrew T.,Tredennick, Andrew T.,Koerner, Sally E.,Grman, Emily,Hallett, Lauren M.,Hallett, Lauren M.,Avolio, Meghan L.,La Pierre, Kimberly J.,Houseman, Gregory R.,Isbell, Forest,Johnson, David Samuel,Alatalo, Juha M.,Baldwin, Andrew H.,Bork, Edward W.,Boughton, Elizabeth H.,Bowman, William D.,Bowman, William D.,Britton, Andrea J.,Cahill, James F., Jr.,Collins, Scott L.,Du, Guozhen,Zhang, Pengfei,Eskelinen, Anu,Eskelinen, Anu,Eskelinen, Anu,Gough, Laura,Jentsch, Anke,Kern, Christel,Klanderud, Kari,Knapp, Alan K.,Smith, Melinda D.,Kreyling, Juergen,Luo, Yiqi,Luo, Yiqi,McLaren, Jennie R.,Megonigal, Patrick,Onipchenko, Vladimir,Prevey, Janet,Price, Jodi N.,Robinson, Clare H.,Sala, Osvaldo E.,Sala, Osvaldo E.,Soudzilovskaia, Nadejda A.,Souza, Lara,Tilman, David,White, Shannon R.,Xu, Zhuwen,Yahdjian, Laura,Yu, Qiang,Zhang, Yunhai,Zhang, Yunhai. 2017

[2]Allelopathic effects of Hemistepta lyrata on the germination and growth of wheat, sorghum, cucumber, rape, and radish seeds. Gao, Xingxiang,Li, Mei,Gao, Zongjun,Li, Changsong,Sun, Zuowen.

[3]The annual emissions of sulfur gases from different tidal flats in the Yellow River Delta, China. Li Xinhua,Zhu Zhenlin,Sun Zhigao,Guo Honghai. 2015

[4]A geographically weighted model of the regression between grain production and typical factors for the Yellow River Delta. Tong, Xueqin.

[5]Temporal-spatial variation of evapotranspiration in the Yellow River Delta based on an integrated remote sensing model. Li, He,Chen, Zhongxin,Jiang, Zhiwei,Sun, Liang,Liu, Ke,Liu, Bin,Li, He,Chen, Zhongxin,Jiang, Zhiwei,Sun, Liang,Liu, Ke,Liu, Bin. 2015

[6]Investigating marsh sediment dynamics and its driving factors in Yellow River delta for wetland restoration. Lu, Qingshui,Kang, Lingyan,Shao, Hongbo,Bi, Xiaoli,Shi, Ping,Shao, Hongbo,Chen, Qiao,Kang, Lingyan,Zhao, Zhiping.

[7]Soil-water interacting use patterns driven by Ziziphus jujuba on the Chenier Island in the Yellow River Delta, China. Zhu, Jinfang,Lu, Zhaohua,Zhu, Jinfang,Liu, Jingtao,Lu, Zhaohua,Xia, Jiangbao,Sun, Jingkuan,Zhao, Yanyun,Shao, Hongbo,Shao, Hongbo.

[8]Landscape analysis of wetland plant functional types: The effects of image segmentation scale, vegetation classes and classification methods. Dronova, Iryna,Gong, Peng,Gong, Peng,Wang, Lin,Fu, Wei,Gong, Peng,Wang, Lin,Fu, Wei,Gong, Peng,Clinton, Nicholas E.,Wang, Lin,Qi, Shuhua,Liu, Ying.

[9]Changes in vegetative coverage of the Hongze Lake national wetland nature reserve: a decade-long assessment using MODIS medium-resolution data. Yu, Kun,Yu, Kun,Hu, Chuanmin. 2013

[10]Aerated Enhanced Treatment of Aquaculture Effluent by Three-stage, Subsurface-Flow Constructed Wetlands under a High Loading Rate. Zhang, Shi-yang,Li, Gu,Li, Xiao-li,Tao, Ling,Zhang, Shi-yang,Chang, Jun-jun. 2014

[11]Responses of dissolved organic carbon and dissolved nitrogen in surface water and soil to CO2 enrichment in paddy field. Deng, Aixing,Zhang, Weijian,Guo, Jia,Zhang, Mingqian,Zhang, Li,Bian, Xinmin,Zhang, Weijian,Zhu, Jianguo.

[12]A Review of Wetland Remote Sensing. Guo, Meng,Xu, Jiawei,Li, Jing,Sheng, Chunlei,Wu, Li. 2017

[13]A Comparative Study on the Growth and Nutrient Uptake Characteristics of Fifteen Wetland Species in Taihu Lake Region of China. Ying, J. F.,Xin, Ch,Cheng, L. A.,Ying, J. F.. 2011

[14]Effects of deer disturbance on soil respiration in a subtropical floodplain wetland of the Yangtze River. Chen, Jingrui,Wang, Qiulin,Li, Ming,Liu, Fan,Yin, Liyan,Chen, Jingrui,Li, Wei,Chen, Jingrui,Wang, Qiulin,Li, Wei,Li, Wei. 2013

[15]A new time series vegetation-water index of phenological-hydrological trait across species and functional types for Poyang Lake wetland ecosystem. Wang, Lin,Gong, Peng,Wang, Lin,Gong, Peng,Wang, Lin,Yang, Wenbo,Li, Yingren,Liu, Qing,Wang, Lin,Dronova, Iryna,Gong, Peng,Gong, Peng.

[16]In vitro regeneration protocol for synthetic seed production in upland cotton (Gossypium hirsutum L.). Genhai Hu,Na Dong,Yan Zhou,Wuwei Ye,Shuxun Yu.

[17]Effects of components in culture medium on glutamate decarboxylase activity and gamma-aminobutyric acid accumulation in foxtail millet (Setaria italica L.) during germination. Bai, Qingyun,Gu, Zhenxin,Cao, Xiaohong,Li, Yan,Liu, Kunlun,Bai, Qingyun,Chai, Meiqing. 2009

[18]Natural variation reveals that OsSAP16 controls low-temperature germination in rice. Wang, Xiang,Zou, Baohong,Shao, Qiaolin,Cui, Yongmei,Lu, Shan,Zhang, Yan,Huang, Ji,Hua, Jian,Huang, Quansheng,Hua, Jian. 2018

[19]Microarray-based gene expression analysis of strong seed dormancy in rice cv. N22 and less dormant mutant derivatives. Wu, Tao,Yang, Chunyan,Ding, Baoxu,Feng, Zhiming,Wang, Qian,He, Jun,Jiang, Ling,Wan, Jianmin,Wan, Jianmin,Tong, Jianhua,Xiao, Langtao. 2016

[20]Germination of embryo in soybean anther culture. Zhao, GL,Liu, YZ,Yin, AP,Li, JB. 1998

作者其他论文 更多>>

微信小程序