[1]Meng Xianmin.Wetlands and Global Environmental Change[J].Scientia Geographica Sinica,1999,19(5):385-391.[孟宪民.湿地与全球环境变化[J].地理科学,1999,19(5):385-391.][2]Li Haiyan,Chen Zhanghe.Growth and Dissolved Organic Carbon Exudates from Roots of Three Wetland Plants[J].Journal of Tropical and Subtropical Botany,2011,19(6):536-542.[李海燕,陈章和.三种湿地植物的生长及根系溶解性有机碳分泌物研究[J].热带亚热带植物学报,2011,19(6):536-542.][3]Kokaly R F,Despain D G,Clark R N,et al.Mapping Vegetation in Yellowstone National Park Using Spectral Feature Analysis of AVIRIS Data[J].Remote Sensing of Environment,2003,84(3):437-456.[4]Xu Xuegong.Study on Evaluation and Pre-warning of Ecological Environment in the Yellow River Delta[J].Acta Ecologica Sinica,1996,16(5):460-468.[许学工.黄河三角洲生态环境的评估和预警研究[J].生态学报,1996,16(5):460-468.][5]Wang Xianli,Hu Yuanman,Bu Rencang.Analysis of Wetland Landscape Changes in Liaohe Delta[J].Scientia Geographica Sinica,1996,16(3):260-264.[王宪礼,胡远满,布仁仓.辽河三角洲湿地的景观变化分析[J].地理科学,1996,16(3):260-264.][6]Adam E,Mutanga O,Rugege D.Multispectral and Hyper Spectral Remote Sensing for Identification and Mapping of Wetland Vegetation a Review[J].Wetlands Ecology and Management,2010,18(3):281-296.[7]Thenkabail P S,Smith R B,De Pauw E,et al.Hyperspectral Vegetation Indices and Their Relationships with Agricultural Crop Characteristics [J].Remote Sensing of Environment,2000,71(2):158-182.[8]Bi Xiaoli,Wang Hui,Ge Jianping.Wave-type Time Series Variation of the Correlation between NDVI and Climatic Factors[J].Chinese Journal of Applied Ecology,2005,16(2):284-288.[毕晓丽,王辉,葛剑平.植被归一化指数(NDVI)及气候因子相关起伏型时间序列变化分析[J].应用生态学报,2005,16(2):284-288.][9]Chang Shouzhi,Wang Zongming,Song Kaishan,et al.Monitoring Cropland Phenology in Sanjiang Plain based on NDVI Data[J].Remote Sensing Technology and Application,2011,26(1):82-88.[常守志,王宗明,宋开山,等.基于NDVI数据的三江平原农田物候监测[J].遥感技术与应用,2011,26(1):82-88.][10]Huete A R,Jackson R D.Soil and Atmosphere Infuences on the Spectra of Partial Canopies[J].Remote Sensing of Environment,1988,25(1):89-105.[11]Middleton E M.Solar Zenith Angle Effects on Vegetation Indices in Tall Grass Prairie[J].Remote Sensing of Environment,1991,38(1):45-62.[12]Qi J,Moran M S,Cabot F,et al.Normalization of Sun/View Angle Effects Using Spectral Albedo-based Vegetation Indices[J].Remote Sensing of Environment,1995,52(3):207-217.[13]Sellers P J.Canopy Reflectance,Photosynthesis and Transpiration[J].International Journal of Remote Sensing,1985,6(8):1335-1372.[14]Gao X,Huete A R,Ni W,et al.Optical Biophysical Relationships of Vegetation Spectra without Background Contam Ination[J].Remote Sensing of Environment,2000,74(3):609-620.[15]Wang Fumin,Huang Jingfeng,Wang Xiuzhen,et al.Effects of Band Position and Bandwidth on NDVI Measurements of Rice at Different Growth Stages[J].Journal of Remote Sensing,2008,12(4):626-632.[王福民,黄敬峰,王秀珍,等.波段位置和宽度对不同生育期水稻NDVI影响研究[J].遥感学报,2008,12(4):626-632.][16]Wang Fumin,Huang Jingfeng,Tang Yanlin,et al.Estimation of Rice LAI by Using NDVI at Different Spectral Bandwidths[J].Chinese Journal of Applied Ecology,2007,18(11):2444-2450.[王福民,黄敬峰,唐延林,等.采用不同光谱波段宽度的归一化植被指数估算水稻叶面积指数[J].应用生态学报,2007,18(11):2444-2450.][17]Liu Jianqiu,Zeng Congsheng,Chen Ning.Research of Minjiang River Estuary Wetland[M].Beijing:Science Press,2006.[刘剑秋,曾从盛,陈宁.闽江河口湿地研究[M].北京:科学出版社,2006.][18]Zeng Congsheng,Wang Weiqi,Tong Chuan.Effects of Different Exogenous Electron Acceptors and Salt Import on Methane Production Potential of Estuarine Marsh Soil[J].Geographical Research,2008,27(6):1321-1330.[曾从盛,王维奇,仝川.不同电子受体及盐分输入对河口湿地土壤甲烷产生潜力的影响[J].地理研究,2008,27(6):1321-1330.][19]Tong C,Wang W Q,Zeng C S,et al.Methane (CH4) Emission from a Tidal Marsh in the Min River Estuary,Southeast China[J].Journal of Environmental Science and Health,Part A,2010,45(4):506-516.[20]Zhang W L,Zeng C S,Tong C,et al.Analysis of the Expanding Process of the Spartina Alterniflora Salt Marsh in Shanyutan Wetland Minjiang River Estuary by Remote Sensing[J].Procedia Environmental Sciences,2011,2(10):2472-2477. |