水稻秸秆生物炭对雄烯二酮在土壤中吸附与降解行为的影响

doi:10.3969/j.issn.1004-1524.2018.04.15

浙江农业学报 ›› 2018, Vol. 30 ›› Issue (4): 632-639.DOI: 10.3969/j.issn.1004-1524.2018.04.15

水稻秸秆生物炭对雄烯二酮在土壤中吸附与降解行为的影响

王代懿¹, 张丰松^{2, *}, 潘娟¹, 刘登璐³, 苟体忠¹

1.凯里学院植物资源综合利用研究所,贵州凯里 556011;
2.中国科学院地理科学与资源研究所,北京100101;
3.四川省煤田地质工程勘察设计研究院,四川成都 610072

收稿日期:2017-07-31 出版日期:2018-04-20 发布日期:2018-04-19
通讯作者: 张丰松,E-mail:zhangfs@igsnrr.ac.cn
作者简介:王代懿(1975—),女,贵州景屏人,博士,研究方向为畜禽粪便资源化处理及其污染物环境行为。E-mail:wangdaiyi234567@163.com
基金资助:
环保公益性行业科研专项(201509074); 凯里学院博士科研专项(BS201505); 国家自然科学基金(41504112); 贵州省科技合作计划(黔科合J字 LKK〔2013〕08); 分析化学重点学科(院通字〔2014〕157号)

Effect of rice straw derived biochar addition on adsorption and degradation of androstenedione

WANG Daiyi¹, ZHANG Fengsong^{2, *}, PAN Juan¹, LIU Denglu³, GOU Tizhong¹

1. Institute of Comprehensive Utilization of Plant Resources, Kaili University, Kaili 556011, China;
2. Institute of Geographic Sciences and Natural Resource Research, Beijing 100101, China;
3. Sichuan Institute of Coal Field Geological Engineering Exploration and Designing, Chengdu 610072 China

Received:2017-07-31 Online:2018-04-20 Published:2018-04-19

摘要/Abstract

摘要： 通过批处理等温吸附实验及室内培养实验,研究水稻秸秆生物炭对雄烯二酮在土壤中吸附和降解的影响。结果表明,添加水稻秸秆生物炭后,褐土和潮土对雄烯二酮的吸附系数(K_f)分别较对照提高121.5%和32.8%。添加生物炭土壤与对照土壤中雄烯二酮的降解过程均遵循一级动力学方程。添加生物炭后,褐土和潮土中雄烯二酮的降解半衰期分别比对照延长71.8%和52.7%。虽然添加水稻秸秆生物炭延长了雄烯二酮在土壤中的赋存期,但也显著增强了土壤对雄烯二酮的吸附能力,因而可能会降低雄烯二酮向水体的迁移。

关键词: 雄烯二酮, 吸附, 降解, 生物炭

Abstract: The effects of rice straw biochar on the sorption and degradation of androstenedione in soils were studied by both batch equilibrium experiment and incubation experiment. The results showed that sorption coefficients (K_f) of cinnamon soil and alluvial soil were increased by 121.5% and 32.8%, respectively, after biochar addition. Degradation kinetics of androstenedione in control soils and biochar amended soils were well fitted with the first-order kinetics equation. The half-lives of androstenedione in cinnamon soil and alluvial soil amended with biochar were increased by 71.8% and 52.7%, respectively. The androstenedione in soils would keep for longer time as biochar added. However, the enhancement of androstenedione sorption ability to soils by adding biochar would likely to reduce the transportation of androstenedione to water.

Key words: androstenedione, sorption, degradation, biochar

中图分类号:

王代懿, 张丰松, 潘娟, 刘登璐, 苟体忠. 水稻秸秆生物炭对雄烯二酮在土壤中吸附与降解行为的影响[J]. 浙江农业学报, 2018, 30(4): 632-639.

WANG Daiyi, ZHANG Fengsong, PAN Juan, LIU Denglu, GOU Tizhong. Effect of rice straw derived biochar addition on adsorption and degradation of androstenedione[J]. , 2018, 30(4): 632-639.

参考文献

[1] TYLER C R, JOBLING S, SUMPTER J P. Endocrine disruption in wildlife: a critical review of the evidence[J]. Critical Reviews in Toxicology , 1998, 28(4): 319-361.
[2] PATYNA P J, DAVI R A, PARKERTON T F, et al. A proposed multigeneration protocol for Japanese medaka ( Oryzias latipes ) to evaluate effects of endocrine disruptors[J]. Science of the Total Environment , 1999, 233(1/2/3): 211-220.
[3] GILANNEJAD N, DORAFSHAN S, HEYRATI F P, et al. Vitellogenin expression in wild cyprinid Petroleuciscus esfahani as a biomarker of endocrine disruption along the Zayandeh Roud River, Iran[J]. Chemosphere , 2016, 144: 1342-1350.
[4] BISWAS S, KRANZ, W L, SHAPIRO C A, et al . Effect of rainfall timing and tillage on the transport of steroid hormones in runoff from manure amended row crop fields[J]. Journal of Hazardous Materials , 2017, 324: 436-447.
[5] MINA O, GALL H E, SAPORITO L S, et al. Estrogen transport in surface runoff from agricultural fields treated with two application methods of dairy manure[J]. Journal of Environmental Quality , 2016, 45(6): 2007-2015.
[6] BARTELT-HUNE S L, SNOW D D, KRANZ W L, et al. Effect of growth promotants on the occurrence of endogenous and synthetic steroid hormones on feedlot soils and in runoff from beef cattle feeding operations[J]. Environmental Science and Technology , 2012, 46(3): 1352-1360.
[7] SHORE L S, SHEMESH M. Naturally produced steroid hormones and their release into the environment[J]. Pure and Applied Chemistry , 2003, 75(11/12): 1859-1871.
[8] ZHUANG F S, XIE Y F, LI X W, et al. Accumulation of steroid hormones in soil and its adjacent aquatic environment from a typical intensive vegetable cultivation of North China[J]. Science of the Total Environment , 2015, 538: 423-430.
[9] 韩伟, 李艳霞, 杨明, 等. 环境雄激素的危害、来源与环境行为[J]. 生态学报, 2010, 30(6): 1594-1603.
HAN W, LI Y X, YANG M, et al . Effects sources and behaviors of environmental androgens[J]. Acta Ecologica Sinica , 2010, 30(6): 1594-1603. (in Chinese with English abstract)
[10] LIU S, YING G G, ZHANG R Q, et al. Fate and occurrence of steroids in swine and dairy cattle farms with different farming scales and wastes disposal systems[J]. Environmental Pollution , 2012, 170: 190-201.
[11] LIMA D L D, SCHNEIDER R J, ESTEVES V I. Sorption behavior of EE2 on soils subjected to different long-term organic amendments[J]. Science of the Total Environment , 2012, 423: 120-124.
[12] 周尊隆, 吴文玲, 李阳, 等. 3种多环芳烃在木炭上的吸附/解吸行为[J]. 农业环境科学学报, 2008,27(2): 813-819.
ZHOU Z L, WU W L, LI Y, et al. Sorption and desorption behaviors of three PAHs by charcoals[J]. Journal of Agro-Environment Science , 2008, 27(2): 813-819. (in Chinese with English abstract)
[13] KEILUWEIT M, KLEBER M. Molecular-level interactions in soils and sediments: the role of aromatic π-systems[J]. Environmental Science and Technology , 2009, 43(10): 3421-3429.
[14] CHEN B, ZHOU D, ZHU L. Transitional adsorption and partition of nonpolar and polar aromatic contaminants by biochars of pine needles with different pyrolytic temperatures[J]. Environmental Science and Technology , 2008, 42(14): 5137-5143.
[15] QIU Y P, XIAO Y X, CHENG H Y, et al. Influence of environmental factors on pesticide adsorption by black carbon: pH and model dissolved organic matter[J]. Environmental Science and Technology , 2009, 43(13): 4973-4978.
[16] SARMAH A K, SRINIVASAN P, SMERNIK R J, et al. Retention capacity of biochar-amended New Zealand dairy farm soil for an estrogenic steroid hormone and its primary metabolite[J]. Soil Research , 2010, 48(6): 648-658.
[17] 李沛辰, 毋伟, 张丰松, 等. 秸秆生物炭的结构特征及其对17β-雌二醇的吸附性能[J]. 环境科学研究, 2015, 28(8): 1260-1266.
LI P C, WU W, ZHANG F S, et al. Structural characteristics of straw biocharsand sorption of 17β-estradiol on straw biochar[J]. Research of Environmental Sciences , 2015, 28(8): 1260-1266. (in Chinese with English abstract)
[18] KIM I, YU Z, XIAO B, et al. Sorption of male hormones by soils and sediments[J]. Environmental Toxicology and Chemistry , 2007, 26(2): 264-270.
[19] WESTERHOFF P, YOON Y, SNYDER S, et al. Fate of endocrine-disruptor, pharmaceutical and personal care product chemicals during simulated drinking water treatment processes[J]. Environmental Science and Technology , 2005, 39(17): 6649-6663.
[20] HUANG W,CHEN B. Interaction mechanisms of organic contaminants with burned straw ash charcoal[J]. Journal of Environmental Sciences , 2010, 22(10): 1586-1594.
[21] SARMAH A K, NORTHCOTT G L, SCHERR F F. Retention of estrogenic steroid hormones by selected New Zealand soils[J]. Environment International , 2008, 34(6): 749-755.
[22] XUAN R, BLASSENGALE A A, WANG Q. Degradation of estrogenic hormones in a silt loam soil[J]. Journal of Agricultural and Food Chemistry , 2008, 56(19): 9152-9158.
[23] 陈宝梁, 周丹丹, 朱利中, 等. 生物碳质吸附剂对水中有机污染物的吸附作用及机理[J]. 中国科学(化学), 2008, 38(6): 530-537.
CHEN B L, ZHOU D D, ZHU L Z, et al. Adsorption and the mechanism of organic pollutants in water by straw biochars[J]. Science in China ( Series B : Chemistry ), 2008, 38(6): 530-537. (in Chinese with English abstract)
[24] ENDO S, GRAHWOHL P, HADERLEIN S B, et al. Effects of native organic material and water on sorption properties of reference diesel soot[J]. Environmental Science and Technology , 2009, 43(9): 3187-3193.
[25] COMELISSEN G, GUSTAFSSOM O. Effects of added PAHs and precipitated humic acid coatings on phenanthrene sorption to environmental black carbon[J]. Environmental Pollution , 2006, 143(3): 526-531.
[26] KOELMANS A A, MEULMAN B, MEIJER T, et al. Attenuation of polychlorinated biphenyl sorption to charcoal by humic acids[J]. Environmental Science and Technology , 2009, 43(3): 736-742.
[27] ENDO S, GRATHWOHL P, HADERLEIN S B, et al. Effects of native organic material and water on sorption properties of reference diesel sool[J]. Environmental Science and Technology , 2009, 43(9): 3187-3193.
[28] 王代懿, 张丰松, 梁汉东, 等. 孕酮在土壤中的降解特征及影响因素研究[J]. 中国矿业大学学报, 2014, 43(4): 707-712.
WANG D Y, ZHANG F S, LIANG H D, et al. Degradation characteristics of progesterone in soils and its influential factors[J]. Journal of China University of Mining and Technology , 2014, 43(4): 707-712. (in Chinese with English abstract)
[29] 王廷廷, 余向阳, 沈燕, 等. 生物质炭施用对土壤中氯虫苯甲酰胺吸附及消解行为的影响[J]. 环境科学, 2012, 33(4): 1339-1345.
WANG T T, YU X Y, SHEN Y, et al. Impact of biochar amendment on the sorption and dissipation of chlorantraniliprole in soils[J]. Chinese Journal of Environmental Science , 2012, 33(4): 1339-1345. (in Chinese with English abstract)
[30] COLUCCI M S, BORK H, TOPP E. Persistence of estrogenic hormones in agricultural soils[J]. Journal of Environmental Quality , 2001, 30(6): 2070-2076.
[31] NICHOLS D J,DANIEL T C, EDWARDS D R, et al. Use of grass filter strips to reduce 17β-estradiol in runoff from fescue-applied poultry litter[J]. Journal of Soil and Water Conservation , 1998, 53(1): 74-77.
[32] KJAER J, OLSEN P, ABACH K, et al. Leaching of estrogenic hormones from manure-treated structured soils[J]. Environmental Science and Technology , 2007, 41(11): 3911-3917.

水稻秸秆生物炭对雄烯二酮在土壤中吸附与降解行为的影响

Effect of rice straw derived biochar addition on adsorption and degradation of androstenedione

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