[1] Michaels AF. Ecological stoichiometry: The biology of elements from molecules to the biosphere. Science, 2003, 300: 906-907 [2] 曾德慧, 陈广生. 生态化学计量学: 复杂生命系统奥秘的探索. 植物生态学报, 2005, 29(6): 141-153 [3] Jiang YF, Guo X. Stoichiometric patterns of soil carbon, nitrogen, and phosphorus in farmland of the Poyang Lake region in Southern China. Journal of Soils and Sedi-ments, 2019, 19: 3476-3488 [4] Sardans J, Rivas-Ubach A, Penuelas J. The elemental stoichiometry of aquatic and terrestrial ecosystems and its relationships with organismic lifestyle and ecosystem structure and function: A review and perspectives. Biogeochemistry, 2012, 111: 1-39 [5] 贺金生, 韩兴国. 生态化学计量学: 探索从个体到生态系统的统一化理论. 植物生态学报, 2010, 34(1): 2-6 [6] Lebauer DS, Treseder KK. Nitrogen limitation of net primary productivity in terrestrial ecosystems is globally distributed. Ecology, 2008, 89: 371-379 [7] Reich PB, Oleksyn J, Wright IJ. Leaf phosphorus influences the photosynthesis-nitrogen relation: A cross-biome analysis of 314 species. Oecologia, 2009, 160: 207-212 [8] 刘旭艳, 胡宇坤. 大兴安岭典型森林沼泽植物叶片和细根碳氮磷化学计量特征. 应用生态学报, 2020, 31(10): 3385-3394 [9] Agren G. The C:N:P stoichiometry of autotrophs: Theory and observations. Ecology Letters, 2004, 7: 185-191 [10] Schreeg LA, Santiago LS, Wright SJ, et al. Stem, root, and older leaf N:P ratios are more responsive indicators of soil nutrient availability than new foliage. Ecology, 2014, 95: 2062-2068 [11] 杨婷, 钟全林, 李宝银, 等. 3种功能型林木幼苗叶片与细根碳氮磷化学计量特征及其异速关系. 应用生态学报, 2020, 31(12): 4051-4057 [12] Li SN, Wang GX, Deng W, et al. Influence of hydro-logy process on wetland landscape pattern: A case study in the Yellow River Delta. Ecological Engineering, 2009, 35: 1719-1726 [13] Xu XG, Guo HH, Chen XL, et al. A multi-scale study on land use and land cover quality change: The case of the Yellow River Delta in China. GeoJournal, 2002, 56: 177-183 [14] Wang HJ, Yang ZS, Li GX, et al. Wave climate mode-ling on the abandoned Huanghe (Yellow River) delta lobe and related deltaic erosion. Journal of Coastal Research, 2006, 22: 906-918 [15] 王奎峰, 李念春, 王薇. 黄河三角洲多年海岸线动态变迁特征及演化规律. 应用海洋学学报, 2018, 37(3): 330-338 [16] Fa YB, Zhou DM, Ke YH, et al. Quantifying the correlated spatial distributions between tidal creeks and coas-tal wetland vegetation in the Yellow River estuary. Wetlands, 2020, 40: 2701-2711 [17] 宋德彬, 于君宝, 王光美, 等. 1961—2010年黄河三角洲湿地区年平均气温和年降水量变化特征. 湿地科学, 2016, 14(2): 248-253 [18] 宗敏, 韩广轩, 栗云召, 等. 基于MaxEnt模型的黄河三角洲滨海湿地优势植物群落潜在分布模拟. 应用生态学报, 2017, 28(6): 1833-1842 [19] Elser JJ, Fagan WF, Denno RF, et al. Nutritional constraints in terrestrial and freshwater food webs. Nature, 2000, 408: 578-580 [20] 樊月, 潘云龙, 陈志为, 等. 四种红树植物根茎叶的碳氮磷化学计量特征. 生态学杂志, 2019, 38(4): 1041-1048 [21] Chapin FS, Chulze ED, Mooney HA. The ecology and economics of storage in plants. Annual Review of Ecology & Systematics, 1990, 21: 423-447 [22] Rong QQ, Liu JT, Cai YP, et al. Leaf carbon, nitrogen and phosphorus stoichiometry of Tamarix chinensis Lour. in the Laizhou Bay coastal wetland, China. Ecological Engineering, 2015, 76: 57-65 [23] Minden V, Kleyer M. Internal and external regulation of plant organ stoichiometry. Plant Biology, 2014, 16: 897-907 [24] Tang ZY, Xu WT, Zhou GY, et al. Patterns of plant carbon, nitrogen, and phosphorus concentration in relation to productivity in China's terrestrial ecosystems. Proceedings of the National Academy of Sciences of the United States of America, 2018, 115: 4033-4038 [25] Baldwin DS, Rees GN, Mitchell AM, et al. The short-term effects of salinization on anaerobic nutrient cycling and microbial community structure in sediment from a freshwater wetland. Wetlands, 2006, 26: 455-464 [26] Reich PB, Oleksyn J. Global patterns of plant leaf N and P in relation to temperature and latitude. Procee-dings of the National Academy of Sciences of the United States of America, 2004, 101: 11001-11006 [27] Wright IJ, Reich PB, Westoby M, et al. The worldwide leaf economics spectrum. Nature, 2004, 428: 821-827 [28] 任书杰, 于贵瑞, 姜春明, 等. 中国东部南北样带森林生态系统102个优势种叶片碳氮磷化学计量学统计特征. 应用生态学报, 2012, 23(3): 581-586 [29] Meng L, Qu FZ, Bi XL, et al. Elemental stoichiometry (C, N, P) of soil in the Yellow River Delta nature reserve: Understanding N and P status of soil in the coastal estuary. Science of the Total Environment, 2021, 751: 141737 [30] 王维奇, 王纯, 曾从盛, 等. 闽江河口不同河段芦苇湿地土壤碳氮磷生态化学计量学特征. 生态学报, 2012, 32(13): 4087-4093 [31] Yao L, Adame MF, Chen CR. Resource stoichiometry, vegetation type and enzymatic activity control wetlands soil organic carbon in the Herbert River catchment, Northeast Queensland. Journal of Environmental Mana-gement, 2021, 296: 113183 [32] Tian HQ, Chen GS, Zhang C, et al. Pattern and variation of C:N:P ratios in China's soils: A synthesis of observational data. Biogeochemistry, 2010, 98: 139-151 [33] Tessier JT, Raynal DJ. Use of nitrogen to phosphorus ratios in plant tissue as an indicator of nutrient limitation and nitrogen saturation. Journal of Applied Ecology, 2003, 40: 523-534 [34] He JS, Wang L, Flynn DFB, et al. Leaf nitroge N:P hosphorus stoichiometry across Chinese grassland bio-mes. Oecologia, 2008, 155: 301-310 [35] Wright IJ, Reich PB, Westoby M, et al. The worldwide leaf economics spectrum. Nature, 2004, 428: 821-827 [36] Koerselman W, Meuleman AFM. The vegetation N:P ratio: A new tool to detect the nature of nutrient limitation. Journal of Applied Ecology, 1996, 33: 1441-1450 [37] Qu FZ, Yu JB, Du SY, et al. Influences of anthropogenic cultivation on C, N and P stoichiometry of reed-dominated coastal wetlands in the Yellow River Delta. Geoderma, 2014, 235: 227-232 [38] 任万平, 李晓秀, 张汪寿. 沉积物中磷形态及影响其释放的环境因素研究进展. 环境污染与防治, 2012, 34(9): 53-60 [39] Dise NB, Matzner E, Forsius M. Evaluation of organic horizon C:N ratio as an indicator of nitrate leaching in conifer forests across Europe. Environmental Pollution, 1998, 102: 453-456 [40] 汪宗飞, 郑粉莉. 黄土高原子午岭地区人工油松林碳氮磷生态化学计量特征. 生态学报, 2018, 38(19): 6870-6880 [41] Kooijman AM, Jongejans J, Sevink J. Parent material effects on Mediterranean woodland ecosystems in NE Spain. Catena, 2005, 59: 55-68 [42] 朱敏, 张振华, 于君宝, 等. 氮沉降对黄河三角洲芦苇湿地土壤呼吸的影响. 植物生态学报, 2013, 37(6): 517-529 [43] 王绍强, 于贵瑞. 生态系统碳氮磷元素的生态化学计量学特征. 生态学报, 2008, 28(8): 3937-3947 [44] Yu JB, Li YZ, Han GX, et al. The spatial distribution characteristics of soil salinity in coastal zone of the Yellow River Delta. Environmental Earth Sciences, 2014, 72: 589-599 [45] Antonellini M, Mollema PN. Impact of groundwater salinity on vegetation species richness in the coastal pine forests and wetlands of Ravenna, Italy. Ecological Engineering, 2010, 36: 1201-1211 [46] Sultan SE. Evolutionary implications of phenotypic plasticity in plants. Evolutionary Biology, 1987, 21: 127-178 [47] 冯忠江, 赵欣胜. 黄河三角洲芦苇生物量空间变化环境解释. 水土保持研究, 2008, 15(3): 170-174 |