胶州湾滨海湿地土壤溶解性有机质的三维荧光特性

doi:10.13287/j.1001-9332.201612.027

摘要/Abstract

摘要： 为了了解滨海湿地土壤中溶解性有机质的结构特征及来源,2014年1月在胶州湾采集光滩、碱蓬、芦苇和大米草湿地的土壤样品,测定土壤溶解性有机质(DOM)含量,利用三维荧光技术进行光谱分析.结果表明: 胶州湾4种湿地类型土壤溶解性有机碳(DOC)含量表现为大米草湿地＞光滩＞碱蓬湿地＞芦苇湿地,垂直剖面上随土层深度的增加DOC含量均呈减少的趋势.经光谱分析,胶州湾湿地土壤DOM的三维荧光光谱(3DEEMs)中出现了B、T、A、D和C等5种荧光峰,分别代表类酪氨酸、类色氨酸、类富里酸、类可溶性微生物副产物和类腐殖酸5种组分.利用荧光区域积分(FRI)法对5种组分进行定量分析,类色氨酸、类富里酸和类酪氨酸在DOM各组分含量中居前3位,类可溶性微生物副产物和类腐殖酸的含量次之,二者含量差异不显著.DOM的5种组分相互之间均呈显著正相关,与DOC含量呈显著正相关,与总磷、有效磷、总氮有不同程度的相关性.胶州湾4种湿地类型土壤DOM主要由生物相互作用内源产生,且腐殖化程度较低.

Abstract: In order to elucidate the structure characteristics of soil dissolved organic matter (DOM) and analyze the sources in Jiaozhou Bay coastal wetlands, four typical types of wetlands around Jiaozhou Bay were chosen, including Spartina anglica wetland, the barren wetland, Suaeda glauca wetland and Phragmites australis wetland. The soil samples were collected in January 2014. The contents of soil DOM were determined and the spectral analysis was made by three-dimensional fluorescent technology. The results showed that the contents of soil dissolved organic carbon (DOC) in four types of wetlands all decreased with the increasing soil depth, and S. anglica wetland ranked the first in the contents of soil DOC, followed by the barren wetland, S. glauca wetland and P. australis wetland. Five fluorescence peaks including B, T, A, D and C were found in the three-dimensional fluorescence spectrum (3DEEMs), indicating tyrosine-like, tryptophan-like, phenol-like, soluble microbial byproduct-like and humic acid-like- substances, respectively. Fluorescence integration (FRI) was applied in the qualitative analysis of five components. The results showed that tryptophan-like, phenol-like and tyrosine-like substances ranked in top three in content, followed by soluble microbial byproduct-like and humic acid-like substances which were not significantly different. Pearson correlation analysis demonstrated that a positive correlation existed between any two of the five components of DOM, and they were all positively related to DOC content. In addition, there existed different correlations between the five components of DOM and total phosphorus (TP), available phosphorus (AP) and total nitrogen (TN). The soil DOM in the four types of wetlands was mainly produced by biotic interactions, and the degree of humification was relatively low.

訾园园, 孔范龙, 郗敏, 李悦, 杨玲. 胶州湾滨海湿地土壤溶解性有机质的三维荧光特性[J]. 应用生态学报, 2016, 27(12): 3871-3881.

ZI Yuan-yuan, KONG Fan-long, XI Min, LI Yue, YANG Ling. Three dimensional fluorescent characteristics of soil dissolved organic matter (DOM) in Jiaozhou Bay coastal wetlands, China[J]. Chinese Journal of Applied Ecology, 2016, 27(12): 3871-3881.

参考文献

[1] Guo X-J (郭旭晶), Xi B-D (席北斗), He X-S (何小松), et al. The fluorescence properties and comple-xation with Cu (Ⅱ) of dissolved organic matter in soil around Wuliangsuhai Lake. Environmental Chemistry (环境化学), 2010, 29(6): 1121-1126 (in Chinese)
[2] Zhao J-S (赵劲松), Zhang X-D (张旭东), Yuan X (袁星), et al. Characteristics and environmental significance of soil dissolved organic matter. Chinese Journal of Applied Ecology (应用生态学报), 2003, 14(1): 126-130 (in Chinese)
[3] Gao H, Zepp RG. Factors Influencing photoreactions of dissolved organic matter in a coastal river of the southeastern United States. Environmental Science & Techno-logy, 2015, 32: 253-264
[4] Larson JH, Frost PC, Lodge DM, et al. Photodegradation of dissolved organic matter in forested streams of the northern Great Lakes region. Journal of the North American Benthological Society, 2014, 26: 416-425
[5] Gao F (高菲), Lin W (林维), Cui X-Y (崔晓阳), et al. Seasonal dynamics of soil organic carbon mineralization for two forest types in Xiaoxing’an Mountains, China. Chinese Journal of Applied Ecology (应用生态学报), 2016, 27(1): 9-16 (in Chinese)
[6] Liu B, Li Y, Zhang X, et al. Combined effects of chlortetracycline and dissolved organic matter extracted from pig manure on the functional diversity of soil microbial community. Soil Biology & Biochemistry, 2014, 74: 148-155
[7] Deb SK, Shukla MK. A review of dissolved organic matter transport processes affecting soil and environmental quality. Journal of Environmental & Analytical Toxicology, 2011, 1: 1-11
[8] Depalma SGS, Arnold WR, Mcgeer JC, et al. Variability in dissolved organic matter fluorescence and reduced sulfur concentration in coastal marine and estuarine environments. Applied Geochemistry, 2011, 26: 394-404
[9] Ling W-T (凌婉婷), Xu J-M (徐建民), Gao Y-Z (高彦征), et al. Influence of dissolved organic matter (DOM) on environmental behaviors of organic pollutants in soils. Chinese Journal of Applied Ecology (应用生态学报), 2004, 15(2): 326-330 (in Chinese)
[10] Gangloff S, Stille P, Pierret MC, et al. Characterization and evolution of dissolved organic matter in acidic forest soil and its impact on the mobility of major and trace elements (case of the Strengbach watershed). Geochimica et Cosmochimica Acta, 2014, 130: 21-41
[11] Mcdowell WH. Dissolved organic matter in soils: Future directions and unanswered questions. Geoderma, 2003, 113: 179-186
[12] Song X-N (宋晓娜), Yu T (于涛), Zhang Y (张远), et al. Distribution characterization and source analysis of dissolved organic matters in Taihu Lake using three dimensional fluorescence excitation-emission matrix. Acta Scientiae Circumstantiae (环境科学学报), 2010, 30(11): 2321-2331 (in Chinese)
[13] Helms JR, Stubbins A, Perdue EM, et al. Photochemical bleaching of oceanic dissolved organic matter and its effect on absorption spectral slope and fluorescence. Marine Chemistry, 2013, 155: 81-91
[14] Huang W-D (黄文丹), Zhou L-M (周立旻), Zheng X-M (郑祥民), et al. Spectroscopic characteristics of different molecular weight dissolved organic matter in water from Yangtze River estuary. Spectroscopy and Spectral Analysis (光谱学与光谱分析), 2013, 33(4): 1000-1004 (in Chinese)
[15] Guo W-D (郭卫东), Yang L-Y (杨丽阳), Wang F-L (王福利), et al. Parallel factor analysis for excitation emission matrix fluorescence spectroscopy of dissolved organic matter from a reservoir-type river. Spectroscopy and Spectral Analysis (光谱学与光谱分析), 2011, 31(2): 427-430 (in Chinese)
[16] Bi R, Lu Q, Yuan T, et al. Electrochemical and spectroscopic characteristics of dissolved organic matter in a forest soil profile. Journal of Environmental Sciences, 2013, 25: 2093-2101
[17] Li M-T (李明堂), Wang J-H (王继红), Zhao L-P (赵兰坡). Comparative study on fluorescent characte-ristics of water extractable organic matter from root soils of soybean and maize. Journal of Soil and Water Conservation (水土保持学报), 2013, 27(2): 140-144 (in Chinese)
[18] Wang L-Y (王立英), Zhang R-Y (张润宇), Wu F-C (吴丰昌). Spectrum characteristics and spatial distribution of dissolved organic matter in sediment porewater from northern Dianchi Lake. Chinese Journal of Ecology (生态学杂志), 2014, 33(12): 3416-3422 (in Chinese)
[19] Feng W-Y (冯伟莹), Jiao L-X (焦立新), Zhang S (张生), et al. Spectral characteristics of dissolved organic matter in the sediments of Wuliangsuhai Lake. China Environmental Science (中国环境科学), 2013, 33(6): 1068-1074 (in Chinese)
[20] Xie X-F (谢秀风), Xi M (郗敏), Li Y (李悦), et al. Research of the source identification methods for dissolved organic matter (DOM) in wetland. Geolo-gical Review (地质论评), 2014, 60(5): 1102-1108 (in Chinese)
[21] Xi M (郗敏), Liu H-Y (刘红玉), Lv X-G (吕宪国). Progress in study on the water quality purification functions of wetlands in watersheds. Advances in Water Science (水科学进展), 2006, 17(4): 566-573 (in Chinese)
[22] Xie W-X (谢文霞), Li X-Y (李晓燕), Yu R-R (于蓉蓉), et al. Degradation factors and ideas on ecological restoration of the Jiaozhou Bay wetland. Marine Sciences (海洋科学), 2012, 36(10): 99-106 (in Chinese)
[23] Dong C-R (董成仁). CO₂ Flux and Source/Sink Function of Coastal Wetlands in Jiaozhou Bay. Master Thesis. Qingdao: Qingdao University, 2015 (in Chinese)
[24] Xie X-F (谢秀风). Distribution Characteristics of Soil Carbon and Nitrogen in Jiaozhou Bay Estuarine Wetlands. Master Thesis. Qingdao: Qingdao University, 2015 (in Chinese)
[25] Zhan X-H (占新华), Zhou L-X (周立祥). Colorime-tric determination of dissolved organic carbon in soil solution and water environment. China Environmental Science (中国环境科学), 2002, 22(5): 433-437 (in Chinese)
[26] Lu R-K (鲁如坤). Analytical Methods for Soil and Agrochemistry. Beijing: China Agricultural Science and Technology Press, 1999 (in Chinese)
[27] Gao J (高洁), Jiang T (江韬), Li L-L (李璐璐), et al. Ultraviolet-visible (UV-Vis) and fluorescence spectral characteristics of dissolved organic matter (DOM) in soils of water-level fluctuation zones of the Three Gorges Reservoir region. Environmental Science (环境科学), 2015, 36(1): 151-162 (in Chinese)
[28] Zhao Y (赵芸), Lin J (林进), Chen H (陈浩), et al. Preliminary spectroscopic study on dissolved organic matter in Liaohe River. Environmental Science & Technology (环境科学与技术), 2013, 36(4): 103-108 (in Chinese)
[29] Mcknight DM, Boyer EW, Westerhoff PK, et al. Spectrophotometric characterization of dissolved organic matter for indication of precursor organic material and aromaticity. Limnology & Oceanography, 2001, 46: 38-48
[30] Wang YL, Yang CM, Zou LM, et al. Spatial distribution and fluorescence properties of soil dissolved organic carbon across a riparian buffer wetland in Chongming Island, China. Pedosphere, 2015, 25: 220-229
[31] Huguet A, Vacher L, Relexans S, et al. Properties of fluorescent dissolved organic matter in the Gironde Estua-ry. Organic Geochemistry, 2008, 40: 706-719
[32] Fu P-Q (傅平青), Liu C-Q (刘丛强), Wu F-C (吴丰昌), et al. Three-dimensional excitation emission matrix fluorescence spectroscopic characterization of dissolved organic matter. Spectroscopy and Spectral Analysis (光谱学与光谱分析), 2005, 25(12): 2024-2028 (in Chinese)
[33] Wu D-M (吴东明), Liu J-K (刘景坤), Li Q-F (李勤奋), et al. Spectral characteristics of dissolved orga-nic matters from three different kinds of sources in torrid zone. Humic Acid (腐植酸), 2015(5): 11-18 (in Chinese)
[34] Kong F-L (孔范龙), Xi M (郗敏), Lv X-G (吕宪国), et al. Spatial and temporal variation of dissolved organic carbon in soils of annular wetlands in Sanjiang Plain, China. Acta Pedologica Sinica (土壤学报), 2013, 50(4): 847-852 (in Chinese)
[35] Zhang X-W (张雪雯), Mo Y (莫熠), Zhang B-Y (张博雅), et al. Effect of wetting-drying cycle and litter on dissolved organic carbon in peat soil in Zoigê Pla-teau. Wetland Science (湿地科学), 2014, 2(2): 134-140 (in Chinese)
[36] Wang Q-D (王启栋), Song J-M (宋金明), Li X-G (李学刚), et al. Organic carbon sources of coastal wetland sediments. The Tenth National Congress of Chinese Society for Oceanology and Limnology, Qingdao, 2012: 23-26 (in Chinese)
[37] Wang Q-D (王启栋), Song J-M (宋金明), Li X-G (李学刚), et al. Sources of organic carbon in the wetlands of the Yellow River estuary and instructions on carbon burial promotion strategies. Acta Ecologica Sinica (生态学报), 2015, 35(2): 568-576 (in Chinese)
[38] Weintraub MN, Schimel JP. Interactions between carbon and nitrogen mineralization and soil organic matter chemistry in arctic tundra soils. Ecosystems, 2003, 6: 129-143
[39] Shi F-C (石福臣), Li R-L (李瑞利), Wang S-Q (王绍强), et al. Profile distribution and accumulation characteristics of organic carbon and total nitrogen in typical marshes in Sanjiang Plain. Chinese Journal of Applied Ecology ( 应用生态学报), 2007, 18(7): 1425-1431 (in Chinese)
[40] Ma W-W (马维伟), Wang H (王辉), Huang R (黄蓉), et al. Distribution of soil organic carbon storage and carbon density in Gahai Wetland ecosystem. Chinese Journal of Applied Ecology ( 应用生态学报), 2014, 25(3): 738-744 (in Chinese)
[41] Huo L-L (霍莉莉), Zou Y-C (邹元春), Guo J-W (郭佳伟), et al. Effect of reclamation on the vertical distribution of SOC and retention of DOC. Environmental Science (环境科学), 2013, 34(1): 283-287 (in Chinese)
[42] Xiao Y (肖烨), Huang Z-G (黄志刚), Wu H-T (武海涛), et al. Compositions and contents of active organic carbon in different wetland soils in Sanjiang Plain, Northeast China. Acta Ecologica Sinica (生态学报), 2015, 35(23): 7625-7633 (in Chinese)
[43] Xu H-H (徐欢欢). Study on the Vertical Distribution of Wetland Soil Organic Carbon and Its Components Content in Ebinur Lake. Master Thesis. Fuzhou: Fujian Normal University, 2010 (in Chinese)
[44] Dodla SK, Wang JJ, Delaune RD. Characterization of labile organic carbon in coastal wetland soils of the Mississippi River deltaic plain: Relationships to carbon functionalities. Science of the Total Environment, 2012, 435/436: 151-158
[45] Borisover M, Lordian A, Levy GJ. Water-extractable soil organic matter characterization by chromophoric indicators: Effects of soil type and irrigation water quality. Geoderma, 2012, 179/180: 28-37
[46] Peng Z-G (彭志刚), Liu X-Q (刘晓庆). Study on fluorescent spectrum characteristics of water soluble organic matter in soil at different depths. Modern Agricultural Science and Technology (现代农业科技), 2011(5): 272-273 (in Chinese)
[47] Cheng Y-Y (程远月), Wang S-L (王帅龙), Hu S-B (胡水波), et al. The fluorescence characteristics of dissolved organic matter (DOM) in the seagrass ecosystem from Hainan by fluorescence excitation-emission matrix spectroscopy. Spectroscopy and Spectral Analysis (光谱学与光谱分析), 2015, 35(1): 141-145 (in Chinese)
[48] Li W (黎文), Wu F-C (吴丰昌), Wang J (王静), et al. Tracing the transport of dissolved organic matter in a river-lake system. Research of Environmental Sciences (环境科学研究), 2012, 25(2): 133-139 (in Chinese)
[49] Zhu P (祝鹏), Hua Z-L (华祖林), Zhang R-Y (张润宇), et al. Characteristics of spatial distribution differences of spectrum of dissolved organic matter and nitrogen/phosphorus pollution in Taihu Lake. Research of Environmental Sciences (环境科学研究), 2010, 23(2): 129-136 (in Chinese)
[50] Patel-Sorrentino N, Mounier S, Benaim JY. Excitation-emission fluorescence matrix to study pH influence on organic matter fluorescence in the Amazon basin rivers. Water Research, 2002, 36: 2571-2581
[51] Fu P-Q (傅平青), Liu C-Q (刘丛强), Wu F-C (吴丰昌), et al. Three-dimensional excitation emission matrix fluorescence spectroscopic characterization of dissolve organic matter in sediment pore water in Lake Erhai. Quaternary Sciences (第四纪研究), 2004, 24(6): 695-700 (in Chinese)
[52] Sui Z-N (隋志男), Zhi E-Q (郅二铨), Yao J (姚杰), et al. Characterization of DOM composition and origin using three-dimensional fluorescence spectroscopy coupled with region integration method in Qixing wetland. Journal of Environmental Engineering Technology (环境工程技术学报), 2015, 5(2): 114-120 (in Chinese)
[53] Wu J-M (吴健敏), Xi M (郗敏), Kong F-L (孔范龙), et al. Review of researches on the factors influencing the dynamics of dissolved organic carbon in soils. Geological Review (地质论评), 2013, 59(5): 953-961 (in Chinese)
[54] Li L (李玲), Qiu S-J (仇少君), Tan F-F (檀菲菲), et al. Effects of salinity and exogenous substrates on the decomposition and transformation of soil organic carbon in the Yellow River Delta. Acta Ecologica Sinica (生态学报), 2013, 33(21): 6844-6852 (in Chinese)
[55] Zhao Y (赵越), He X-S (何小松), Xi B-D (席北斗), et al. Effect of pH on the fluorescence characteristic of dissolved organic matter in landfill leachate. Spectroscopy and Spectral Analysis (光谱学与光谱分析), 2010, 30(2): 382-386 (in Chinese)