Biodegradability of soil water soluble organic carbon extracted from seven different soils 被引量：7

Biodegradability of soil water soluble organic carbon extracted from seven different soils

下载PDF

导出

摘要 Water soluble organic carbon （WSOC） is considered the most mobile and reactive soil carbon source and its characterization is an important issue for soil ecology study. A biodegradability test was set up to study WSOC extracted from 7 soils differently managed. WSOC was extracted from soil with water （soil/water ratio of 1：2, W/V） for 30 min, and then tested for biodegradability by a liquid state respirometric test. Result obtained confirmed the finding that WSOC biodegradability depended on the both land use and management practice. These results suggested the biodegradability test as suitable method to characterize WSOC, and provided useful information to soil fertility. Water soluble organic carbon （WSOC） is considered the most mobile and reactive soil carbon source and its characterization is an important issue for soil ecology study. A biodegradability test was set up to study WSOC extracted from 7 soils differently managed. WSOC was extracted from soil with water （soil/water ratio of 1：2, W/V） for 30 min, and then tested for biodegradability by a liquid state respirometric test. Result obtained confirmed the finding that WSOC biodegradability depended on the both land use and management practice. These results suggested the biodegradability test as suitable method to characterize WSOC, and provided useful information to soil fertility.

作者 SCAGLIA Barbara ADANI Fabrizio

机构地区 Department of Crop Science

出处《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2009年第5期641-646,共6页 环境科学学报（英文版）

关键词 biodegradability test cumulated oxygen uptake water extractable organic carbon water soluble organic carbon biodegradability test cumulated oxygen uptake water extractable organic carbon water soluble organic carbon

分类号 X53 [环境科学与工程—环境工程]

引文网络
相关文献

参考文献28

1Adani F, Spagnol M, Genevini P, 2006. Biochemical origin and refractory properties of humic acid extracted from the maize plant. Biogeochemistry, 78: 85-96.
2APHA, 1992. Standard Methods for the Examination of Water and Wastewater (18th ed.). Water Pollution Control Federation, Washington DC.
3Bolan N S, Adriano D C, de-la-Luz M, 2004. Supersoi12004: 9th Australian New Zeland Soils Conference, 5-9 December. University of Sidney, Australia.
4Chantigny M H, 2003. Dissolved and water-extractable organic matter in solis: a review on the influence of land use and management practises. Geoderma, 113: 357-380.
5Delprat L, Chassin P, Linres M, Jambert C, 1997. Characterization of dissolved organic carbon in cleared forest soils converted to maize cultivation. European Journal of Agronomy, 7: 201-210.
6D'Imporzano G, Adani F, 2007. The contribution of water solubile and water insolubile organic fractions to oxygen uptake rate during high rate composting. Biodegradation, 18: 103-113.
7Embacher A, Zsolnay A, Gattinger A, Munch J C, 2007. The dynamics of water extractable organic matter (WEOM) in common arable topsoils: Ⅰ. Quantity, quality and function over three year period. Geoderma, 139:11-22.
8Gregorich E G, Beare M H, Stoklas U, St-Georges P, 2003. Biodegradability of soluble organic matter in maizecropped soils. Geoderma, 113: 237-252.
9Gjetterman B, 2005. Modeling dissolved organic matter mobilization and immobilization in the root zone - Effect of soil treatment on denitrification and N leaching. The Royal Veterinary and Agricultural University Department of Agricultural Science, http://orgprints.org/5387.(25 July, 2007).
10Gjetterman B, Styezen M, Hansen S, Borggaard O K, Hansen H C B, 2007. Sorption and fractionation of dissolved organic matter and associated phosphorus in agricultural soil. Journal of Environmental Quality, 36: 753-763.

同被引文献121

1何玉惠,赵哈林,刘新平,赵学勇,李玉霖,赵玮.不同类型沙地长穗虫实的繁殖分配及其与个体大小的关系[J].干旱区研究,2009,26(1):59-64. 被引量：15
2徐秋芳,姜培坤.不同森林植被下土壤水溶性有机碳研究[J].水土保持学报,2004,18(6):84-87. 被引量：71
3姜培坤.不同林分下土壤活性有机碳库研究[J].林业科学,2005,41(1):10-13. 被引量：149
4王清奎,汪思龙,高洪,刘艳,于小军.土地利用方式对土壤有机质的影响[J].生态学杂志,2005,24(4):360-363. 被引量：111
5胡亚林,汪思龙,黄宇,于小军.凋落物化学组成对土壤微生物学性状及土壤酶活性的影响[J].生态学报,2005,25(10):2662-2668. 被引量：134
6赵锐锋,周华荣,钱亦兵,张建军.塔里木河中下游湿地及周边植物群落与环境因子的关系初探[J].应用生态学报,2006,17(6):955-960. 被引量：13
7韩向忠,孙向阳,胡剑非.生态垫对造林地土壤水分及养分的影响研究[J].华南热带农业大学学报,2006,12(2):23-26. 被引量：17
8李琳,李素娟,张海林,陈阜.保护性耕作下土壤碳库管理指数的研究[J].水土保持学报,2006,20(3):106-109. 被引量：109
9董鸣.异质性生境中的植物克隆生长：风险分摊[J].植物生态学报,1996,20(6):543-548. 被引量：216
10JIANG Pei-Kun XU Qiu-Fang.Abundance and Dynamics of Soil Labile Carbon Pools Under Different Types of Forest Vegetation[J].Pedosphere,2006,16(4):505-511. 被引量：35

引证文献7

1沈文森,耿玉清,王小平,胡剑非,胡东阳.覆盖生态垫对沙地土壤有机碳和酶活性的影响[J].东北林业大学学报,2010,38(6):68-71. 被引量：10
2鲁顺保,周小菊,芮亦超,陈成榕,徐志红,郭晓敏.森林类型对土壤有机质、微生物生物量及酶活性的影响[J].应用生态学报,2011,22(10):2567-2573. 被引量：25
3苏冬雪,王文杰,邱岭,王洪岩,安静,郑广宇,祖元刚.落叶松林土壤可溶性碳、氮和官能团特征的时空变化及与土壤理化性质的关系[J].生态学报,2012,32(21):6705-6714. 被引量：27
4周玲,张世熔,李婷,李云,徐小逊,贾永霞.基于灰渣和猪粪制造的有机无机复混肥对土壤易变性有机碳的影响[J].农业环境科学学报,2013,32(11):2231-2238. 被引量：4
5肖好燕,刘宝,余再鹏,万晓华,桑昌鹏,周富伟,黄志群.亚热带典型林分对表层和深层土壤可溶性有机碳、氮的影响[J].应用生态学报,2016,27(4):1031-1038. 被引量：42
6罗欣雨,王得祥.黄土丘陵区退耕植被土壤水分·可溶性碳氮的变化特征[J].安徽农业科学,2016,44(25):156-160.
7陈林,王磊,杨新国,宋乃平,李月飞,苏莹,卞莹莹,祝忠有,孟文婷.荒漠草原猪毛蒿种群繁殖特征的土壤驱动因子分析[J].植物生态学报,2019,0(1):65-76. 被引量：4

二级引证文献112

1谷思玉,汪睿,谷邵臣,赵京考,张淑勇.不同类型红松林土壤基础肥力特征分析[J].水土保持通报,2012,32(3):73-76. 被引量：9
2王军峰,葛永金,金晓春,吴林森,丁洲.丽水地区油茶林土壤养分含量变化研究[J].浙江林业科技,2012,32(6):52-55. 被引量：3
3秦娟,唐心红,杨雪梅.马尾松不同林型对土壤理化性质的影响[J].生态环境学报,2013,22(4):598-604. 被引量：74
4沙金龙,李健,李志刚.添加杨柳树枝对沙化土壤有机碳、含水量及微生物活性的影响[J].草业科学,2013,30(9):1308-1312. 被引量：4
5刘芙蓉,王红梅,张咏梅.增温和CO_2浓度加倍对川西亚高山针叶林土壤可溶性有机碳、氮的影响[J].生态学杂志,2013,32(11):2844-2849. 被引量：11
6魏新,郑小锋,张硕新.秦岭火地塘不同海拔梯度森林土壤理化性质研究[J].西北林学院学报,2014,29(3):9-14. 被引量：28
7袁吉,黄美玉,麦淑媛,吴福忠,杨万勤,岳楷,游成铭,温娅檬,蒋龙.华西雨屏区麻栎人工混交林凋落物水溶性碳、氮、磷含量及化学计量比随物候节律的变化特征[J].生态学杂志,2019,38(2):376-383. 被引量：12
8陈华泉.贫瘠山地马尾松与深山含笑混交效果分析[J].安徽农学通报,2014,20(15):106-109. 被引量：1
9文丽,雷丕锋,吴子剑,王鸿彬.樟树—马尾松混交林不同林龄土壤有机碳氮贮量及分布特征[J].广西林业科学,2014,43(4):365-370. 被引量：1
10张发会,吴雪仙,蔡小虎,王琛.川西亚高山3种不同林分类型对土壤理化性质的影响[J].四川林业科技,2015,36(3):8-12. 被引量：11

1张斌,全乐.几种工业废水的预防措施与治理技术[J].科技与生活,2011(23):202-202.
2张玲丽,李秀全,杨欣明,李洪杰,王辉,李立会.小麦优良种质资源高分子量麦谷蛋白亚基组成分析[J].中国农业科学,2006,39(12):2406-2414. 被引量：37
3王玉红,王延凤,陈华,张文娜.海水中重金属检测方法研究及治理技术探索[J].环境科学与技术,2014,37(S1):237-241. 被引量：17
4周良墉.化肥溶液深层注施器[J].四川农业与农机,1994(5):23-23.
5赵贤产,陈群仙.一次连续强酸雨天气过程初探[J].浙江气象,1998,19(4):40-42.
6于艳霞,郝薇,赵琪琤,王丰.利用盐碱地盐碱作为燃煤锅炉脱硫剂可行性研究[J].黑龙江环境通报,2008,32(2):36-38. 被引量：1
7曹正华.“膈”教学的突破[J].生物学教学,2007,32(1):19-20.
8彭赫,张云慧,李祥瑞,邹明江,王海英,程登发.5种杀虫剂对白眉野草螟的毒力测定和田间防效[J].植物保护,2013,39(6):184-187. 被引量：9
9平占斌.对呼吸的探究设计[J].农村青少年科学探究,2013(9):28-28.
10柴敏娟,黄玉霖.Hg^(2+)抑制石斑鱼呼吸运动的研究[J].福建水产,1996,18(4):20-24. 被引量：7

Journal of Environmental Sciences

2009年第5期

浏览历史

内容加载中请稍等...

Biodegradability of soil water soluble organic carbon extracted from seven different soils 被引量：7

参考文献28

同被引文献121

引证文献7

二级引证文献112

相关作者

相关机构

相关主题

浏览历史