Please wait a minute...
img

Wechat

Remote Sensing Technology and Application  2014, Vol. 29 Issue (2): 224-231    DOI: 10.11873j.issn.1004-0323.2014.2.0224
    
Remote Sensing Inversion of Aboveground Biomass over the Honghe Wetland
Han Ying1,Pei Liang1,Du Jia2
(1.LiaoNing Technical University,Fuxin 123000,China;
2.Northeast Institute of Geography and Agro ecology,Chinese Academy of Sciences,Jilin 130012,China)
Download:  PDF (2639KB) 
Export:  BibTeX | EndNote (RIS)      
Abstract  

The remote sensing inversion models for the aboveground biomass of the Honghe Wetland were established by TM data and the field investigation of aboveground biomass around the Honghe Wetland. The spatial distribution of aboveground biomass of the Honghe Wetland and the relationship between the biomass and the DEM were analyzed.The reasons for within different biomasses,the correlation between biomass and elevation differences were analyzed too.The result showed:The multiple regressions had a higher fitting precision than other regressions,and R2 was 0.813;The total biomass of Honghe Wetland was 2.4856×108g and the average was 934.7105 g/m2 in 2007;The biomass mainly concentrated between 600 and 1 200 g/m2.The composite analysis of the biomass and DEM showed that the biomass was between 0 and 600 g/m2 which had a good correlation,the correlation coefficient was 0.79839.The biomass was between 600 and 1 200 g/m2 and above 1 200 g/m2 which showed a poor correlation.

Key words:  Aboveground Biomass      Correlation analysis      Inversion Model      Honghe Wetland     
Received:  05 April 2012      Published:  14 May 2014
TP 79  
Service
E-mail this article
Add to my bookshelf
Add to citation manager
E-mail Alert
RSS
Articles by authors
Han Ying
Pei Liang
Du Jia

Cite this article: 

Han Ying,Pei Liang,Du Jia. Remote Sensing Inversion of Aboveground Biomass over the Honghe Wetland. Remote Sensing Technology and Application, 2014, 29(2): 224-231.

URL: 

http://www.rsta.ac.cn/EN/10.11873j.issn.1004-0323.2014.2.0224     OR     http://www.rsta.ac.cn/EN/Y2014/V29/I2/224

[1]Wang Shugong,Li Xia,Zhou Yongzhang.Progress of Method for Wetland Vegetation Biomass[J].Geography and Geo-Information Science,2004,20(5):104-109.[王树功,黎夏,周永章.湿地植被生物量测算方法研究进展[J].地理与地理信息科学,2004,20(5):104-109.]

[2]Pan Yaozhong,Shi Peijun,Zhu Wenquan,et al.Remote Sensing Quantitative Measurement of the Chinese Terrestrial Ecosystems and Ecological Assets[J].Science in China,(Ser.D):Earth Sciences,2004,34(4):357-384.[潘耀忠,史培军,朱文泉,等.中国陆地生态系统生态资产遥感定量测量[J].中国科学D辑,2004,34(4):375-384.]

[3]Niu Ting,Li Xia,Lin Haijun,et al.The Construction of the Remote Sensing Estimation Models for Reed Biomass in the Lower Reaches of the Tarim River[J].Remote Sensing for Land &Resources,2011,(4):42-45.[牛  婷,李  霞,李海军,等.塔里木河下游芦苇生物量遥感估算模型研建[J].国土资源遥感,2011,(4):42-45.]

[4]Li Shuang,Zhang Zulu,Zhou Demin.An Estimation of Ab-oveground Vegetation Biomass in a National Natural Reserve Using Remote Sensing[J].Geographical Research,2011,30(2):278-290.[李爽,张祖陆,周德民.湿地植被地上生物量遥感估算模型研究——以洪河湿地自然保护区为例[J].地理研究,2011,30(2):278-290.]

[5]Wu Yanpeng,Chen Kelong,Zhang Fei,et al.Relationship between Species Diversity and Above-ground Biomass of Inland Alpine Wetlands of Qinghai Lake[J].Bulletin of Soil and Water Conservation,2011,31(1):76-78.[武彦朋,陈克龙,张斐,等.青海湖内陆高寒湿地地上物种多样性和地上生物量的关系[J].水体保持通报,2011,31(1):76-78.]

[6]Li Fengxiu,Zhang Bai,Liu Dianwei,et al.Hyper Spectral Remote Sensing Estimation Models for the Biomass of Carex Meyeriana in Honghe Nature Reserve[J].Wetland Science,2008,6(1):51-59.[李凤秀,张柏,刘殿伟,等.洪河自然保护区乌拉苔草生物量高光谱遥感估算模型[J].湿地科学,2008,6(1):51-59.]

[7]Li Xia,Ye Jiaan,Wang Shugong,et al.Estimating Mangrove Wetland Biomass Using Radar Remote Sensing[J].Journal of Remote Sensing,2006,10(3):387-396.[黎夏,叶嘉安,王树功,等.红树林湿地植被生物量的雷达遥感估算[J].遥感学报,2006,10(3):387-396.]

[8]Moreau S,Bosseno R,Gu X F,et al.Assessing the Biomass Dynamics of Andean Bofedal and Totora High Protein Wetland Grasses from NOAA/AVHRR[J].Remote Sensing of Envirnment,2003,85(4):516-529.

[9]Sophie M,Toan T L.Biomass Quantification of Andean Wetland Forages Using ERS Satellite SAR Data for Optimizing Livestock Management[J].Remote Sensing of Environment,2003,84(4):477-492.

[10]Zhu Baoguang,Dong Shubin,Zhu Liping,et al.Conservation of Functional Wetland Area and Compensation for  the Ecological Function of Wetland in Honghe National Nature in Reserve in China[J].Wetland Science & Mangement,2006,2(3):25-28.[朱宝光,董树斌,朱丽萍,等.洪河国家级自然保护区湿地功能区保育与湿地补偿研究[J].湿地科学与管理,2006,2(3):25-28.]

[11]Yang Liu,Ma Kepeng,Bai Xue,et al.The Least Ecological Water Demand and Water Supplement for Wetland in Honghe National Nature Reserve[J].Acta Ecologica Sinica,2008,28(9):4501-4507.[杨柳,马克朋,白雪,等.洪河国家自然保护区最小生态需水量与补水分析[J].生态学报,2008,28(9):4501-4507.]

[12]State Forestry Administration.Countrys Important Wetlands-Heilongjiang Honghe Wetland Profiles[EB/OL].http://www.forestry.gov.cn/portal/main/s/145/content-82394.html.[国家林业局:国家重要湿地黑龙江洪河湿地简况[EB/OL].http://www.forestry.gov.cn/portal/main/s/145/content-82394.html.]

[13]Zhang Wenbo,Chen Hongyan.Practical Data for Statistical Analysis and SPSS12.0 Application[M].Beijing:Posts& Telecom Press,2006.[章文波,陈红艳.实用数据统计分析及 SPSS 12.0应用[M].北京:人民邮电出版社,2006.]

[14]Zhang X,Chen J N.Selection of Variables in Regression Equations[J].Journal of Fujian Agricultural University(Natural Science),1999,28(3):357-360.[15]Xu Xiaojun,Du Huaqiang,Zhou Guomo,et al.Review on Correlation Analysis of Independent Variables in Estimation Models of Vegetation Biomass based on Remote Sensing[J].Remote Sensing Technology and Application,2008,23(2):239-247.[徐小军,杜华强,周国模,等.基于遥感植被生物量估算模型自变量相关性分析综述[J].遥感技术与应用,2008,23(2):239-247.]

[16]Pu Ruiliang,Gong Peng.Hyper Spectral Remote Sensing and Applications[M].Beijing:Higher Education Press,2003.[ 浦瑞良,宫鹏.高光谱遥感及其应用[M].北京:高等教育出版社,2003.]

[17]Zhou Demin,Gong Huili,Hu Jinming,et al.Probe into the Landscape Pattern of Freshwater Wetland Communities——A Case Study in the Honghe National Nature Reserve in Sanjiang Plain,China[J].Journal of Natural Resources,2007,22(1):86-96.[周德民,宫辉力,胡金明,等.三江平原淡水湿地生态系统景观格局特征研究——以洪河湿地自然保护区为例[J].自然资源学报,2007,22(1):86-96.]

[18]Wang Haiyang,Chen Jiakuan,Zhou Jin.Influence of Water Level Gradient on Plant Growth,Reproduction and Biomass Allocation of Wetland Plant Species[J].Acta Phytoecologica Sinica,1999,23(3):269-274.[王海洋,陈家宽,周进.水位梯度对湿地植物生长、繁殖和生物量分配的影响[J].植物生态学报,1999,23(3):269-274.]

[19]Keddy P A,Ellis T H.Seeding Recruitment off 11 Wetland Plants Species along a Water Level Gradient:Shared or Distinct Response[J].Canadian Journal of Botany,1985,63:1876-1879.

No Suggested Reading articles found!