YANG Jing,LU Yefeng,SUN Kaiwen,et al.Soil Nutrient in Secondary Salinization and Soluble Salt Vertical Distribution[J].Northern Horticulture,2016,40(23):171-174.[doi:10.11937/bfyy.201623040]
次生盐渍化土壤养分及可溶性盐垂直分布
- Title:
- Soil Nutrient in Secondary Salinization and Soluble Salt Vertical Distribution
- Keywords:
- secondary salinization; nutrient; soluble salts; vertical distribution
- 文献标志码:
- A
- 摘要:
- 土壤次生盐渍化问题日益严重,对农业发展构成严重威胁。以大棚蔬菜土壤为试材,采用田间取样分析方法,研究了次生盐渍化土壤养分、可溶性盐含量、组成及其垂直分布特点。结果表明:次生盐渍化土壤养分主要集中在土壤表层0~10 cm处,随着土层的加深,有机质呈先下降后增加的趋势,速效氮、速效磷、速效钾含量呈递减趋势;可溶性盐含量随土壤深度的增加呈下降趋势,表层(0~10 cm)含量最高,10 cm以下各土层可溶性盐分含量显著减少;表层土壤(0~10 cm)可溶性盐分离子主要为Ca2+ 和NO3-,分别占阳离子总量的59.71%和阴离子总量65.95%。
- Abstract:
- The problem of soil secondary salinization is getting worse,seriously threatening the development of agriculture.Greenhouse vegetables soil was used as test materials,field sampling was carried out,in combination with analytical methods,the content and composition of nutrient sand soluble salts was determined,as well as their vertical distribution characteristics in soils with secondary salinization.The results showed that the nutrient in secondary salinized soils mainly concentrated in the 0-10 cm surface layer.With the decrease of soil depth,the organic matter first increased and then decreased,while available N,P and K showed a tendency of decrease.Similar pattern was observed for soluble salts which decreased along soil depth,with the highest soluble salt content detected in surface layer(0-10 cm),followed by a significant decrease from 10 cm downwards.Ca2+ and NO3-were the major soluble salt ions in the surface layer,accounting for 59.71% of the total cations and 65.95% of the anions respectively.
参考文献/References:
[1]李建国,濮励杰,朱明,等.土壤盐渍化研究现状及未来研究热点[J].地理学报,2012(9):1233. [2]李刚,张乃明,毛昆明,等.大棚土壤盐分累积特征与调控措施研究[J].农业工程学报,2004(3):44-47. [3]熊汉琴,王朝辉,罗贵斌.不同种植年限蔬菜大棚土壤次生盐渍化发生机理的研究[J].陕西林业科技,2006(3):22-26. [4]张瑞明,李珍珍,李建勇,等.设施菜田土壤次生盐渍化形成原因及防治修复措施[C].中国园艺学会设施园艺与园艺作物标准化生产技术交流会论文集,2013:59-63. [5]孙令强,耿广东,王倩,等.设施蔬菜土壤次生盐渍化及其克服对策[J].蔬菜,2004(12):22-23. [6]张玉龙,张继宁,张恒明,等.保护地蔬菜栽培不同灌水方法对表层土壤盐分含量的影响[J].灌溉排水学报,2003,22(1):40-43. [7]张金锦,段增强.设施菜地土壤次生盐渍化的成因、危害及其分类与分级标准的研究进展[J].土壤,2011,43(3):361-366. [8]孙令强,耿广东,王倩,等.设施蔬菜土壤次生盐渍化原因及解决途径[J].西北园艺,2005(1):4-6. [9]陈晓红,邹志荣.温室蔬菜连作障碍研究现状及防治措施[J].陕西农业科学,2002(12):16-17,20. [10]郭文忠,刘声锋,李丁仁,等.设施蔬菜土壤次生盐渍化发生机理的研究现状与展望[J].土壤,2004,36(1):25-29. [11]何文寿.设施农业中存在的土壤障碍及其对策研究进展[J].土壤,2004,36(3):235-242. [12]苏红.保护地土壤次生盐渍化形成原因、危害及防治措施[J].农业开发与装备,2015(3):36-37. [13]薛继澄,毕德义,李家金,等.保护地栽培蔬菜生理障碍的土壤因子与对策[J].土壤肥料,1994(1):4-9. [14]盛海君,杜岩,沈蓉,等.次生盐渍化设施土壤可溶性盐含量对小青菜幼苗生长发育的[J].扬州大学学报(农业与生命科学版),2015,36(4):100-104. [15]刘俊廷,潘洪捷,彭志帆,等.河套灌区土壤盐渍化现状及危害研究[J].内蒙古水利,2011(2):138-139. [16]赵彩芹.保护地土壤次生盐渍化的危害及防治[J].陕西农业科学,2005(2):82-83. [17]王辉,董元华,安琼,等.高度集约化利用下蔬菜地土壤酸化及次生盐渍化研究─以南京市南郊为例[J].土壤,2005,37(5):530-533. [18]余海英,李廷轩,周健民.设施土壤次生盐渍化及其对土壤性质的影响[J].土壤,2005,37(6):581-586. [19]杜岩.设施土壤次生盐渍化危害及解决途径研究[D].扬州:扬州大学,2014. [20]刘德,吴凤芝.哈尔滨市郊蔬菜大棚土壤盐分状况及其影响[J].北方园艺,1998(6):1-3. [21]高丽红.保护地土壤次生盐渍化对主要蔬菜生长发育的影响[J].南京农业大学学报,1998,12(3):69-71. [22]陈晓红,邹志荣.温室蔬菜连作障碍研究现状及防治措施[J].陕西农业科学,2002(12):16-17,20. [23]童有为,陈淡飞.温室土壤次生盐渍化的形成和治理途径研究[J].园艺学报,1991,18(2):159-162. [24]吴凤芝,赵凤艳,刘元英.设施蔬菜连作障碍原因综合分析与防治措施[J].东北农业大学学报,2000,31(3):241-247. [25]夏立忠,杨林章,王德建,苏南设施栽培中旱作人为土养分与盐分状况的研究[J].江苏农业科学,2001(6):43-46.
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备注/Memo
第一作者简介:杨静(1992-),女,硕士研究生,研究方向为农业资源利用。E-mail:1018836042@qq.com. 责任作者:盛海君(1966-),女,硕士,高级农艺师,研究方向为有机固废资源化利用与植物营养。E-mail:hjsheng@yzu.edu.cn. 基金项目:江苏省农业三新工程资助项目(SXGC[2016]327);江苏省产学研前瞻性联合研究资助项目(BY2015061-05)。