|Table of Contents|

Study of Black Soil Enzyme Activity in Soybean Field Under Long-Term Different Fertilizations(PDF)

《大豆科学》[ISSN:1000-9841/CN:23-1227/S]

Issue:
2016年01期
Page:
96-99
Research Field:
Publishing date:

Info

Title:
Study of Black Soil Enzyme Activity in Soybean Field Under Long-Term Different Fertilizations
Author(s):
MA Xing-zhu ZHOU Bao-ku HAO Xiao-yu
Institute of Soil Fertilizer and Environment Resource, Heilongjiang Academy of Agricultural Sciences, Harbin 150086, China
Keywords:
Black soil Longterm fertilization Soil enzyme Soil nutrient
PACS:
-
DOI:
10.11861/j.issn.1000-9841.2016.01.0096
Abstract:
Based on scientific observation station of arable land conservation and agriculture environment of Heilongjiang, Ministry of Agriculture (built in 1979), selected four typical fertilization treatments (no fertilizer, organic fertilizer, chemical fertilizer and organic fertilizer combined with chemical fertilizer),collected soil sample after soybean harvest in 2011 to study effect of long-term different fertilizations on main kinds of enzymes activities (βglucosidase, urease and phosphatase) of black soil. The results showed that the no fertilizer treatment had lower enzyme activities, fertilization treatment could increase black soil enzyme activities, urease and phosphatase had bigger response degree than βglucosidase; there was no significant difference between effects of organic fertilizer and chemical fertilizer on soil enzyme activities; however, treatment of organic fertilizer combined with chemical fertilizer could increase soil βglucosidase, urease and phosphatase activities significantly Meanwhile, there were significant and positive correlationships among soil enzyme activities and contents of soil organic, soil total nitrogen, soil total phosphate and soil available phosphate, significant and negative correlationships among soil enzyme activities and soil Ph. Long-term treatment of organic fertilizer combined with chemical fertilizer could increase soil enzyme activity in soybean field, which had close relationships with soil nutrients

References:

[1]Manjaiah K,Dhyan S. Soil organic matter and biological properties after 26 years of maize-wheat-cowpea cropping as affected by manure and fertilization in a Cambisol in semiarid region of India[J]. Agriculture Ecosystems & Environment, 2001, 86: 155-162

[2]Elfstrand S, Hedlund K, Martensson A.Soil enzyme activities, microbial community composition and function after 47 years of continuous green manuring[J].Applied Soil Ecology, 2007, 35(6): 610-621
[3]Mandal A, Patra A K, Singh D, et al. Effect of long-term application of manure and fertilizer on biological and biochemical activities in soil during crop development stages[J]. Bioresource Technology, 2007, 98: 3585-3592
[4]Katsalirou E, Deng S, Nofziger D L, et al.Long-term management effects on organic C and N pools and activities of C.transforming enzymes in prairie soils[J]. European Journal of Soil Biology, 2010, 46: 335-341.
[5]Guenet B, Lenhart K, Leloup J, et al. The impact of long-term CO2? enrichment and moisture levels on soil microbial community structure and enzyme activities[J].Geoderma, 2012, 170: 331-336
[6]Bowles T M, AcostaMartínez V, Calderón F, et al.Soil enzyme activities, microbial communities, and carbon and nitrogen availability in organic agroecosystems across an intensively-managed agricultural landscape[J]. Soil Biology & Biochemistry, 2014, 68: 252-262
[7]Nayak D R, Babu Y J, Adhya T K.Long-term application of compost influences microbial biomass and enzyme activities in a tropical Aeric Endoaquept planted to rice under flooded condition[J].Soil Biology & Biochemistry, 2007, 39(8): 1897-1906
[8]Roldán A, Caravaca F, Hernández M T, et al. No.tillage, crop residue additions, and legume cover cropping effects on soil quality characteristics under maize in Patzcuaro watershed(Mexico)[J]. Soil & Tillage Research, 2003, 72: 65-73
[9]Livia B, Frank B.Soil microbiological and biochemical properties affected by plant growth and different long-term fertilization[J]. European Journal of Soil Biology, 2006, 42(1): 1-12
[10]Mijangos I, Perez R, Albizu I, et al. Effects of fertilization and tillage on soil biological parameters[J].Enzyme & Microbial Technology, 2006, 40: 100-106.
[11]Eivazi F, Tabatabai M A.Factors affecting glucosidases and galactosidases in soils[J]. Soil Biology & Biochemistry, 1990, 22(7): 891-897.
[12]Tabatabai M A. Soil enzymes[M]//Weaver R W, Augle J S, Bottomley P S Methods of soil analysis. Wishton: Madison, 1994:775-883.[13]Ekenler M, Tabatabai M A. Effects of liming and tillage systems on microbial biomass and glycosidases in soils[J]. Biology & Fertility of Soils, 2003, 39: 51-61
[14]鲁如坤.土壤农业化学分析方法[M]. 北京: 中国农业科技出版社, 1999:146-185.(Lu R K. Soil agrochemical analysis[M].Beijing: China Agriculture Science and Technology Press, 1999, 146-185.)
[15]Deng S P, Tabatabai M A. Effect of tillage and residue management on enzyme activities in soils:Ⅲ Phosphatases and arylsulfatase[J]. Biology & Fertility of Soils, 1997, 24: 141-146.
[16]Goyal S, Mishra M M, Dankar S S, et al. Microbial biomass turnover and enzyme activities following the application of farmyard manure to field soils with and without previous long-term applications[J].Biology & Fertility of Soils, 1993, 15: 60-64.
[17]Tabatabai M A, Dick W A.Enzymes in soil[M]//Burns R G, Dick R P. Enzymes in the environment: activity, ecology and applications. New York: Marcel Dekker Inc 2002:567-596.
[18]Sarkar J M, Leonowicz A, Bollag J M.Immobilization of enzymes on clays and soils[J].Soil Biology & Biochemistry, 1989, 21: 223-230.
[19]Nannipieri P, Greco S, Ceccanti B.Ecological significance of the biological activity in soil[M]//Bollag J M, Stotzky G. Soil Biochemistry. New York:1990: 293-355.
[20]周礼恺. 土壤酶学[M].北京: 科学出版社, 1987.(Zhou L K. Soil enzymology[M].Beijing: Science Press, 1987.)
[21]金继运, 刘荣乐, 译.土壤肥力与肥料[M]. 北京: 中国农业科技出版社, 1998:95-155.(Jin J Y, Liu R L.Soil fertility and fertilizer[M]. Beijing: China Agriculture Science and Technology Press, 1998:95-155.)
[22]Nsabimana D, Haynes R J, Wallis F M.Size, activity and catabolic diversity of the soil microbial biomass as affected by land use[J].Applied Soil Ecology, 2004, 26: 81-92
[23]Mungai N W, Motavalli P P, Kremer R J, et al. Spatial variation of soil enzyme activities and microbial functional diversity in temperate alley cropping systems[J].Biology & Fertility of Soils, 2005, 42: 129-136.
[24]陆琴.太湖地区典型水稻土的酶学特征及水肥管理的酶学效应[D].南京: 中国科学院南京土壤研究所, 2002.(Lu Q. Enzymatic characteristic and enzymatic effect of water and fertilizer management of typical Paddy soil in Taihu lake region[D]. Nanjing: Institute of Soil Science of CAS, 2002.)
[25]Wang X C, Lu Q. Beta-glucosidase activity in paddy soils of the Taihu lake region, China[J]. Pedosphere, 2006, 16(1): 118-124
[26]周礼恺, 张志明, 曹承绵.土壤酶活性的总体在评价土壤肥力水平中的作用[J].土壤学报, 1983, 20(4): 413-416.(Zhou L K, Zhang Z M, Cao C J. On the role of totality of soil enzyme activities in the evaluation of the level of soil fertility[J]. Acta Pedologica Sinica, 1983, 20(4): 413-416.)

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Last Update: 2016-01-29