[1] 吴振斌,邱东茹, 贺锋, 等.沉水植物重建对富营养水体氮磷营养水平的影响[J].应用生态学报,2003, 14(8): 1351-1353.[2] MEERHOFF M, MAZZEO N, MOSS B, et al. The structuring role of free-floating versus submerged plants in a sub tropical shallow lake[J]. Aquatic Ecology, 2003, 37: 377-391.[3] WILLIAM F J, BARKO J W, BUTLER M G. Shear stress and sediment resuspension in relation to submersed macrophyte biomass [J]. Hydrobiologia, 2004, 515: 181-191.[4] DOGAN O K, AKYUREK Z, BEKLIOGLU M. Identification and mapping of submerged plants in a shallow lake using quickbird satellite data [J]. Journal of Environmental Management, 2009, 90: 2138-2143.[5] ZHAO D H, JIANG H, YANG T W, et al. Remote sensing of aquatic vegetation distribution in Taihu Lake using an improved classification tree with modified thresholds [J]. Journal of Environmental Management, 2012, 95(1): 98-107.[6] DAVRANCHE A, LEFEBVRE G, POULIN B. Wetland monitoring using classification trees and SPOT-5 seasonal time series [J]. Remote Sensing of Environment, 2010, 114(3): 552-562.[7] YUAN L, ZHANG L Q. The spectral responses of submerged plant Vallisneria spiralis with varying biomass using spectroradiometer [J]. Hydrobiologia, 2007, 579: 291-299.[8] WILLIAMS D J, RYBICKI N B, LOMBANA A V, et al. Preliminary investigation of submerged aquatic vegetation mapping using hyperspectral remote sensing [J]. Environmental Monitoring and Assessment, 2003, 81(1-3): 383-392.[9] ERIN L H, SHRUTI K, MARGARET E A. Identification of invasive vegetation using hyperspectral remote sensing in the California Delta ecosystem [J]. Remote Sensing of Environment, 2008, 112(11): 4034-4047.[10] ARTIGAS F J, YANG J S. Hyperspectral remote sensing of habitat heterogeneity bewteen tide-restrieted and tide-open areas in the NewJersey Meadow lands [J].Urban Habitats, 2004, 2(1): 112-129.[11] BEGET M E, DI BELLA C M. Flooding: The effect of water depth on the spectral response of grass canopies [J]. Journal of Hydrology, 2007, 335(3-4): 285-294.[12] ZOU W N, YUAN L, ZHANG L Q. Analyzing the spectral response of submerged aquatic vegetation in a eutrophic lake, Shanghai, China [J]. Ecological Engineering, 2013, 57: 65-71.[13] HESTIR E L, KHANNA S, ANDREW M E, et al. Identification of invasive vegetation using hyperspectral remote sensing in the California Delta ecosystem [J]. Remote Sensing of Environment, 2008, 112(11): 4034-4047.[14] WANG C, MENENTI M, STOLL M P, et al. Mapping mixed vegetation communities in salt marshes using airborne spectral data [J]. Remote Sensing of Environment, 2007, 107(4): 559-570.[15] FILIPPI A M, JENSEN J R. Fuzzy learning vector quantization for hyperspectral coastal vegetation classification [J]. Remote Sensing of Environment, 2006, 100(4): 512-530.[16] SCHMIDT K S, SKIDMORE A K. Spectral discrimination of vegetation types in a coastal wetland [J]. Remote Sensing of Environment, 2003, 85(1): 92-108.[17] ZHANG L Q, GAO Z G, ARMITAGE R, et al. Spectral characteristics of plant communities from salt marshes: A case study from Chongming Dongtan, Yangtze estuary, China [J]. Frontiers of Environmental Science and Engineering in China, 2008(2): 187-197.[18] CHENG X, LI X P. Long-term changes in nutrients and phytoplankton response in Lake Dianshan, a shallow temperate lake in China [J]. Journal of Freshwater Ecology, 2010, 25(4): 549-554[19] 徐霖林,马长安,田伟,等.淀山湖沉水植物恢复重建对底栖动物的影响[J] 复旦学报:自然科学版,2011,50(3) 260-267.[20] 吴迪, 岳峰, 罗祖奎, 等.上海大莲湖湖滨带湿地的生态修复[J].生态学报, 2011,31(11):2999-3008.[21] TUCKER C J. Red and photographic infrared linear combinations for monitoring vegetation [J]. Remote Sensing of Environment, 1979(8): 127-150.[22] 邹维娜, 袁琳, 张利权, 等. 盖度与冠层水深对沉水植物水盾草光谱特性的影响[J], 生态学报, 2012, 32(3): 706-714.[23] PINNEL N, HEEGE T, ZIMMERMANN S. Spectral discrimination of submergedmacrophytes in lakes using hyperspectral remote sensing data [J]. The International Society for Optical Engineering, 2004, 16: 25-29.[24] UNDERWOOD E, MULITSCH M, GREENBERG J, et al. Mapping invasive aquatic vegetation in the Sacramento-San Joaquin Delta using hyperspectral imagery [J]. Environmental Monitoring and Assessment, 2006, 121(1-3): 47-64.[25] DURAKO M J. Leaf optical properties and photosynthetic leaf absorptances in several Australian seagrasses [J]. Aquatic Botany, 2007, 87(1): 83-89.[26] ISTVA′ NOVICS V, HONTI M, KOVA′CS A, et al. Distribution of submerged macrophytes along environmental gradients in large, shallow Lake Balaton (Hungary) [J]. Aquatic Botany, 2008, 88: 317-330.[27] BECKER B L, LUSCH D P, QI J. Identifying optimal spectral bands from in situ measurements of Great Lakes coastal wetlands using second-derivative analysis [J]. Remote Sensing of Environment, 2005, 97(2):238-248. |