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《北方园艺》[ISSN:1001-0009/CN:23-1247/S]

Issue:

2020年01

Page:

75-82

Research Field:

Publishing date:

Info

Title:

Vertical Distribution Characteristics and Correlation Analysis of Soil Calcium in Changchun Urban Park Lawn

Author(s):

LIU Qian; HAN Jiafeng; QIN Hongyi; HUANG Zizhen

(College of Landscape Architecture,Changchun University,Changchun,Jilin 130000)

Keywords:

soil calcium; calcium carbonate; exchangeable calcium; acid-soluble calcium; spatial distribution

PACS:

-

DOI:

10.11937/bfyy.20191674

Abstract:

Park green space is an important part of urban green space.In order to study the distribution characteristics of soil calcium in park lawn,taking the soil of city park lawn as the research object，the total calcium，exchange calcium，acid-soluble calcium，organic matter content，soil pH of 7 park lawn soils in the research area were determined，and the vertical distribution characteristics and correlation of calcium in the soil of urban park lawn were analyzed.The results showed that,1) The content of total calcium，exchange calcium and acid soluble calcium in the soil of urban park lawn was increasing with the deepening of soil layer.2) Soil total calcium was significantly correlated with soil exchange calcium and acid-soluble calcium in each soil layer(P＜0.05).3) The pH of soil layer was gradually decreasing along with the deepening of soil layer，and the content of soil calcium，acid-soluble calcium，and exchangeable calcium was negatively related.4) The content of soil organic matter was gradually reduced along with the deepening of soil layer，and was positively related to the content of soil calcium，acid-soluble calcium，and exchangeable calcium.By analyzing the soil development and fertility of urban park lawn，we could reveal the distribution characteristics of soil calcium content in urban park lawn，thus providing reference for the protection of natural green space and the management of artificial green space.

References:

[1]张甘霖,朱永官,傅博杰.城市土壤质量演变及其生态环境效应[J].生态学报,2003,23(3):539-546.[2]卢瑛,冯宏,甘海华.广州城市公园绿地土壤肥力及酶活性特征[J].水土保持学报,2007,21(2):160-163.[3]史红平,王益权,石宗琳,等.农田土壤钙素含量及空间分布规律研究：以武功县大庄乡为例[J].中国农业科学,2016,49(5):1008-1016.[4]章家思.城市土壤的形成特征及其保护[J].土壤,1997(4):189-193.[5]陈清硕.城市土壤的概念及其研究意义[M].南京:南京农业学校,1999.[7]李玉和.城市土壤形成特点肥力评价及利用与管理[J].中国园林,1997(3):20-23.[8]周燕飞,李嘉瑞.果树的钙素营养[J].落叶果树,1988(3):42-43.[9]白昌华,田世平.苹果钙素营养研究进展述评[J].西南农业学报,1989,2(3):22-25.[10]张新生,熊学林,周卫,等.苹果钙素营养研究进展[J].土壤肥料,1999(4):3-6.[11]刘会超,姚连芳,韩振海.钙对苹果果实发育及果肉细胞超微结构的影响[J].植物营养肥料学报,2004,10(4):419-423.[12]梁和,马国瑞,石伟勇,等.钙硼营养与果实生理及耐贮性研究进展[J].土壤通报,2000,30(4):117-190.[13]白昌华,田世平.果树钙营养研究[J].果树科学,1989,6(2):121-124.[14]周卫,林葆,朱海舟.硝酸钙对花生生长和钙素吸收的影响.[J].土壤通报，1995,26(5):225-227.[15]陈际型,宜家样.低盐基土壤K、Ca、Mg的交互作用对水报生长与养分吸收的形响[J].土壤学报,1999,36(4):433-439.[16]张芬琴,沈振国.护今对小麦幼苗根系生长和膜保护阵活性的影响及Ca2+的级解效应[J].西南农业学报,2003,13(3):22-27.[17]王海华,谭新中,康健,等.钙对水稻幼苗镍毒害的缓解效应.农业环境科学学报[J].2003,22(3):357-359.[18]王冬艳,李月芬,尚媛,等.吉林延边地区土壤钙元素生态地球化学[J].吉林大学学报(地球科学版),2011,41(1):216-221.[19]陶晓,许克福,戴允泽,等.城市不同功能区绿地土壤微生物量碳氮及溶解性碳氮分布特征及影响因素[J].土壤通报,2016,10(5):1171-1175.[20]汤宏,沈健林,张杨珠,等.秸秆还田与水分管理对稻田土壤微生物量碳、氮及溶解性有机碳、氮的影响[J].水土保持学报,2013,27(1):240-246.[21]刘玉燕,刘浩峰,刘敏等.城市土壤环境的区域差异性研究[J].昌吉学院学报,2005(3):116-120.[22]张崇宝.长春市街路土壤分析与改善措施[J].中国园林,2004,20(10):42-44.[23]刘骞,曾文津,赵宇,等.城市不同功能分区草坪绿地土壤有机碳与碱解氮垂直分布特征[J].2019,40(1):25-29.[24]陈同庆,魏兴琥,关共凑,等.粤北岩溶区不同土地利用方式对土壤钙离子的影响[J].热带地理,2014,34(3):337-343.[25]LI W,ZHOU P P,JIA L P,et al.Limestone dissolution induced by fungal mycelia acidic material and carbonic anhydrase from fungi[J].Mycopathologia,2009,167(1):37-46．[26]YANG H,LIANG J H,CHEN J R,et al.Soil calcium speciation at different geomorphological positions in the Yaji karst experimental site in Guilin,China[J].Journal of Resources and Ecology,2015,6(4):224-229.[27]付嵘,孟小暇,柴胜丰.植物与钙环境关系的研究进展[J].北方园艺,2019(3):161-166.[28]刘慧,栗杰,贺云龙.外源低分子量有机酸对土壤钙、磷释放动力学特性的影响[J].北方园艺,2016(23):163-167.

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Last Update: 2020-01-14