不同耕作措施对黑土腐殖酸组成与红外光谱特性的影响

doi:10.3964/j.issn.1000-0593(2009)10-2642-04

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摘要：选择公主岭市范家屯长达10年的耕作处理试验地，采集了不同耕作处理模式下的土壤样品，利用元素分析、可见光谱、红外光谱分析了不同处理对黑土的0～20 cm HA结构的影响。结果表明：旋耕深松、宽窄行交替休闲处理下HA的N/C，H/C，O/C值明显高于翻耕垄作、旋耕垄作处理;翻耕垄作处理下0～20 cm土壤胡敏酸E₄/E₆值最小，芳构化程度高;而宽窄行交替休闲处理下0～20 cm土壤胡敏酸的E₄/E₆值最大，其芳化度最低;旋耕深松和旋耕垄作下表层0～20 cm土壤胡敏酸的E₄/E₆值相同，与翻耕处理相比其芳化度有所降低;红外光谱吸收峰分析表明，翻耕处理下表层土壤胡敏酸中杂环氮的数量增加，宽窄行交替休闲处理下表层土壤胡敏酸结构中的含氮化合物数量、脂肪族化合物数量增加，而旋耕垄作处理增加了表层土壤胡敏酸结构中的OH基、脂肪族的CH₂官能团、氨基化合物含量;旋耕深松、翻耕垄作处理增加其表层胡敏酸结构中的CO基及C—O基数量。

关键词：耕作措施;腐殖质;元素分析;可见光谱;红外光谱

Abstract：The present study was based on the long-term (10 years) field conservation tillage experiment, in which four tillage treatments were designed as following: Conventional tillage (CT) by moldboard plowing with ridge culture; Rotary tillage with ridge culture (RT); Alternant tillage by rotary on wide row and loosing on narrow row (WN); Rotary tillage plus deep loosing annually (RD). Humic acids were extracted from black soil profiles under these tillage managements. The elements visible spectra and FTIR of HA in black soil were analyzed. The results indicated that the elements of HA were affected by different tillage managements, WN increased N/C,H/C and O/C values of HA in the 0-20 cm layer. The lowest E₄/E₆ value of HA was found under CT treatment, while the highest E₄/E₆ value was found under WN treatment; FTIR indicated that CT treatment increased the amount of CN groups and aromatic ring condensation of HA in 0-20 cm soil, while WN decreased aromatic ring condensation and increased the content of nitrogen compound and aliphatic compound. RT increased the functional groups of OH, aliphatic CH₂ and nitrogen compound. CT and RD increased the content of CO and C—O.

Key words：Tillage management;Humic matter;Element analysis;Visible spectrum;FTIR

收稿日期: 2008-11-22 修订日期: 2009-02-26

中图分类号:

S153.6

通讯作者: 丛巍巍 E-mail: vivien80@163.com

引用本文:

吕贻忠¹,丛巍巍^2*,廉晓娟³ . 不同耕作措施对黑土腐殖酸组成与红外光谱特性的影响[J]. 光谱学与光谱分析, 2009, 29(10): 2642-2645.
Lü Yi-zhong¹, CONG Wei-wei^2*, LIAN Xiao-juan³ . Effect of Different Tillage Managements on Black Humic Fractions and IR Spectral Feature . SPECTROSCOPY AND SPECTRAL ANALYSIS, 2009, 29(10): 2642-2645.

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[1] WANG Xiao-bin, CAI Dian-xiong, HUA Luo, et al(王小彬, 蔡典雄, 华珞, 等). Scientia Agricultura Sinica(中国农业科学), 2006, 39(4): 741.
[2] Lal R, Shukla M K. Principles of Soil Physics. New York: Marcel Dekker, 2004.
[3] Antil R, Gerzabek M, Haberhauer G, et al. J. Plant Nutr. Soil Sci, 2005, 168: 108.
[4] Baker J M, Ochsner T E, Venterea R T. Agriculture, Ecosystems and Environment, 2007, 118(1-4): 1.
[5] Xing Baoshan, Liu Judong, Liu Xiaobing, et al. Pedosphere, 2005, 15(1): 1.
[6] Bayer C, Martin-Neto L, Mielniczuk J. Geoderma, 2002, 105(1-2): 81.
[7] LIANG Ai-zhen, ZHANG Xiao-ping, YANG Xue-ming, et al(梁爱珍, 张晓平, 杨学明, 等). Scientia Agricultura Sinica(中国农业科学), 2006, 39(6): 1287.
[8] Martha Gonzulez-Perez, Debora M P B Miloriy, Luiza A. Geoderma, 2007, 138(1-2): 20.
[9] Katharina Meissl, Ena Smidt, Manfred Schwaninger. Talanta, 2007, 72(2): 791.
[10] Ding G, Novak J M, Amarasiriwardena D, et al. Soil Science Society of America Journal, 2002, 66(2): 421.
[11] Gonz PérezM, Martin-Neto L, Saab S C, et al. Geoderma, 2004, 118(3-4): 181.
[12] Dou F, Hons F M. Soil Science Society of America Journal, 2006, 70(6): 1896.
[13] FANG Hua-jun, YANG Xue-ming, ZHANG Xiao-ping(方华军, 杨学明, 张晓平). Journal of Soil and Water Conservation(水土保持学报), 2003, 17(3): 9.
[14] YANG Xue-ming, ZHANG Xiao-ping, FANG Hua-jun(杨学明, 张晓平, 方华军). Chinese Journal of Soil Science(土壤通报), 2003, 34 (5): 389.
[15] GAO Wang-sheng(高旺盛). Scientia Agricultura Sinica(中国农业科学), 2007, 40(12): 2702.
[16] Lefroy R D, Blair G J, Strong W M. Plant and Soil, 1993, 155(1): 399.
[17] Nanjing Institute of Soil Science, Chinese Academy of Sciences(中国科学院南京土壤研究所编). Methods of Soil Physical and Chemical Properties Analysis(土壤理化分析). Shanghai: Shanghai Science and Technology Press(上海: 上海科学技术出版社), 1978.
[18] BAO Shi-dan(鲍士旦). Methods of Soil and Fertilizers Analysis(土壤农化分析). Beijing: China Agriculture Press(北京: 中国农业出版社), 2000.
[19] WEN Qi-xiao(文启孝). Research Methods of Soil Organic Matter(土壤有机质研究法). Beijing: China Agriculture Press(北京：中国农业出版社), 1984. 136.
[20] Gerzabek M H, Antil R S, Kogel-Knabner I, et al. European Journal of Soil Science, 2006, 57: 485.
[21] Francioso O, Ciavatta C, Gessa C. Soil Science Society of America Journal, 1998, 62: 181.
[22] Senesi N, D’orazio V, Ricca G. Geoderma, 2003, 116(3-4): 325.
[23] Wander M M. Soil Science Society of America Journal, 1998, 62(6): 1704.
[24] ZHANG Jin-jing, DOU Sen(张晋京, 窦森). Acta Ecologica Sinica(生态学报), 2008, 28(3): 1229.
[25] Par T, Dinel H, Moulin A P, et al. Geoderma, 1999, 91(3-4): 311.
[26] Angers D A, Eriksen-Hamel N S. Soil Science Society of America Journal, 2008, 72(5): 1370.
[27] TAN Guo-bo, BIAN Shao-feng, FANG Xiang-qian, et al(谭国波, 边少锋, 方向前, 等). Agricultural Science of Jilin(吉林农业科学), 2006, 31 (3): 29.
[28] Mahieu N, Olk D C, Randall E W. Journal of Environmental Quality, 2002, 31(2): 421.