RESEARCH PROGRESS ON BIOLOGICAL INDICATORS OF BLACK SOIL FERTILITY QUALITY EVALUATION
FANG Na-na1,2, LIU Kai1,2, LIU Guo-dong1,2, XU Jiang1,2, ZHANG Yi-he1,2, YANG Ze1,2, CHEN Jiang1,2, DAI Hui-min1,2
1. Shenyang Center of China Geological Survey, Shenyang 110034, China; 2. Key Laboratory of Black Land Evolution and Ecological Effects, CGS, Shenyang 110034, China
Abstract:Due to the influence of natural factors and human predatory development and utilization, the black soil fertility is continuously declining, which poses a major threat to national food security. The evaluation index of black soil fertility quality has become a research focus in pedology. Traditional researches involve numbers of chemical and physical indicators, while the soil bio-indicator has gradually become an important parameter of soil fertility quality evaluation for its high sensitivity with the rapid development of biological detection technology in recent years, but there is no unified standard yet. Therefore, the paper summarizes the research progress of bio-indicators for soil fertility quality evaluation such as soil microorganism, enzyme activity and animal to provide new research idea and method.
Karlen D L, Mausbach M J, Doran J W, et al. Soil quality:A concept, definition, and framework for evaluation (a guest editor)[J]. Soil Science Society of America Journal, 1997,61(1):4-10.
Andrews S S, Karlen D L, Cambardella C A. The soil management assessment framework:A quantitative soil quality evaluation method[J]. Soil Science Society of America Journal, 2004,68(6):1945-1962.
[9]
Idowu O J, van Es H M, Abawi G S, et al. Farmer-oriented assessment of soil quality using field, laboratory, and VNIR spectroscopy methods[J]. Plant and Soil, 2008,307(1/2):243-253.
Pankhurst C E, Doube B M, Gupta V V S R. Biological indicators of soil health[M]. Wallingford:CAB International, 1997:97-120.
[20]
Roberson E B, Shennan C, Firestone M K, et al. Nutritional management of microbial polysaccharide production and aggregation in an agricultural Soil[J]. Soil Science Society of America Journal, 1995,59(6):1587-1594.
[21]
Doran J W, Safley M. Defining and assessing soil health and sustainable productivity[C]//Pankhurst E C, Doube B M, Gupta V V S R. Biological Indicators of Soil Health. Wallingford:CAB International, 1997:1-28.
[22]
Carter M R. Microbial biomass as an index for tillage-induced changes in soil biological properties[J]. Soil and Tillage Research, 1986,7(1/2):29-40.
[23]
Pankhurst C E. Biological indicators of soil health and sustainable productivity[C]//Greenland D J, Szabolcs I. Soil Resilience and Sustainable Land Use. Wallingford:CAB International, 1994:331-351.
Insam H, Mitchell C C, Dormaar J F. Relationship of soil microbial biomass and activity with fertilization practice and crop yield of three Ultisols[J]. Soil Biology and Biochemistry, 1991,23(5):459-464.
[26]
He Z L, Yao H, Chen G, et al. Relationship of crop yield to microbial biomass in highly weathered soils of China[C]//Ando T, Fujita K, Mae T, et al. Plant Nutrition for Sustainable Food Production and Environment. Tokyo:Kluwer Academic Publishers, 1997:751-752.
[27]
Powlson D S, Prookes P C, Christensen B T. Measurement of soil microbial biomass provides an early indication of changes in total soil organic matter due to straw incorporation[J]. Soil Biology and Biochemistry, 1987,19(2):159-164.
[28]
Garcia-Gil J C, Plaza C, Soler-Rovira P, et al. Long-term effects of municipal solid waste compost application on soil enzyme activities and microbial biomass[J]. Soil Biology and Biochemistry, 2002,32(13):1907-1913.
Brookes P C, McGrath S P. Effect of metal toxicity on the size of the soil microbial biomass[J]. Journal of Soil Science, 1984,35(2):341-346.
[33]
Brookes P C. The use of microbial parameters in monitoring soil pollution by heavy metals[J]. Biology and Fertility of Soils, 1995,19(4):269-279.
[34]
Grego S, Benedetti A, Dell'Orco S, et al. Agricultural practices and biological activity in soil[J]. Fresenius Environmental Bulletin, 1996,5(5/6):282-288.
[35]
Turco R F, Kennedy A C, Jawson M D. Microbial indicators of soil quality[C]//Doran J W, Coleman D C, Bezdicek D F et al. Defining Soil Quality for a Sustainable Environment. Madison:Soil Science Society of America, 1994:73-90.
[36]
Sparling G P. Ratio of microbial biomass carbon to soil organic carbon as a sensitive indicator of changes in soil organic matter[J]. Australian Journal of Soil Research, 1992,30(2):195-207.
[37]
Gupta V, Roper M M, Kirkegaard J A, et al. Changes in microbial biomass and organic matter levels during the first year of modified tillage and stubble management practices on a red earth[J]. Australian Journal of Soil Research, 1994,32(6):1339-1354.
Karlen D L K, Gardner J C, Rosek M J. A soil quality framework for evaluating the impact of CRP[J]. Journal of Production Agriculture, 1998,11(1):56-60.
De Vries F T, Hoffland E, van Eekeren N, et al. Fungal/bacterial ratios in grasslands with contrasting nitrogen management[J]. Soil Biology and Biochemistry, 2006,38(8):2092-2103.
[47]
Cwalina-Ambroziak B, Bowszys T. Changes in fungal communities in organically fertilized soil[J]. Plant, Soil and Environment, 2009,55(1):25-32.
[48]
Kulakova A N, Wisdom G B, Kulakov L A, et al. The purification and characterization of phosphonopyruvate hydrolase, a novel carbon-phosphorus bond cleavage enzyme from Variovorax sp. Pal2[J]. Journal of Biological Chemistry, 2003,278(26):23426-23431.
[49]
Huang Y S, Shen F T. Bioprospecting of facultatively oligotrophic bacteria from non-rhizospheric soils[J]. Applied Soil Ecology, 2016,108:315-324.
[50]
Hai B, Diallo N H, Sall S, et al. Quantification of key genes steering the microbial nitrogen cycle in the rhizosphere of sorghum cultivars in tropical agroecosystems[J]. Applied and Environmental Microbiology, 2009,75(15):4993-5000.
[51]
Liu H Y, Li J, Zhao Y, et al. Ammonia oxidizers and nitrite-oxidizing bacteria respond differently to long-term manure application in four paddy soils of south of China[J]. Science of the Total Environment, 2018,633:641-648.
[52]
Miller S H, Browne P, Prigent-Combaret C, et al. Biochemical and genomic comparison of inorganic phosphate solubilization in Pseudomonas species[J]. Environmental Microbiology Reports, 2010,2(3):403-411.
[53]
Tan H, Barret M, Mooij M J, et al. Long-term phosphorus fertilisation increased the diversity of the total bacterial community and the phoD phosphorus mineraliser group in pasture soils[J]. Biology and Fertility of Soils, 2013,49(6):661-672.
[54]
Luo G W, Ling N, Nannipieri P, et al. Long-term fertilisation regimes affect the composition of the alkaline phosphomonoesterase encoding microbial community of a vertisol and its derivative soil fractions[J]. Biology and Fertility of Soils, 2017,53(4):375-388.
[55]
谭向平. 黄土高原沟壑区土壤生物学特征研究[D]. 杨凌:西北农林科技大学,2010:38-45.
[56]
陈恩凤. 土壤酶与土壤肥力研究[M]. 北京:科学出版社,1979:54-61.
[57]
任天志. 持续农业中的土壤生物指标研究[J]. 中国农业科学, 2000,33(1):68-75.
[58]
Dick R P. Soil enzyme activities as indicators of soil quality[C]//Doran J W, Coleman D C, Bezdicek D F, et al. Defining Soil Quality for a Sustainable Environment. Madison, Wisconsin, USA:Soil Science Society of America, 1994:107-124.
Verstraete W, Voets J P. Soil microbial and biochemical characteristics in relation to soil management and fertility[J]. Soil Biology and Biochemistry, 1977,9(4):253-258.
Jordan D, Kremer R J, Bergfield W A, et al. Evaluation of microbial methods as potential indicators of soil quality in historical agricultural fields[J]. Biology and Fertility of Soils, 1995,19(4):297-302.
Berchet V, Boulanger D, Gounot A M. Use of gel electrophoresis for the study of enzymatic activities of cold-adapted bacteria[J]. Journal of Microbiological Methods, 2000,40(1):105-110.
Dick R P, Rasmussen P E, Kerle E A. Influence of long-term residue management on soil enzyme activities in relation to soil chemical properties of a wheat-fallow system[J]. Biology and Fertility of Soils, 1988,6(2):159-164.
[71]
Doran J W. Soil microbial and biochemical changes associated with reduced tillage[J]. Soil Science Society of America Journal, 1980,44(4):765-771.
[72]
Angers D A, Bissonnette N, Légère A, et al. Microbial and biochemical changes induced by rotation and tillage in a soil under barley production[J]. Canadian Journal of Soil Science, 1993,73(1):39-50.
Visser S, Parkinson D. Soil biological criteria as indicators of soil quality:Soil microorganisms[J]. American Journal of Alternative Agriculture, 1992,7(1/2):33-37.
Stefanic G, Eliade G, Chirnogeanu I. Researches concerning a biological index of soil fertility[C]//Proceedings of the 5th Symposium on Soil Biology. Bucharest:Romanian National Society of Soil Science, 1984:35-45.
[81]
Perucci P. Enzyme activity and microbial biomass in a field soil amended with municipal refuse[J]. Biology and Fertility of Soils, 1992,14(1):54-60.
[82]
Doran J W, Zeiss M R. Soil health and sustainability:Managing the biotic component of soil quality[J]. Applied Soil Ecology, 2000,15(1):3-11.
[83]
Ditzler C A, Tugel A J. Soil quality field tools:Experiences of USDA-NRCS soil quality institute[J]. Agronomy Journal, 2002,94(1):33-38.
[84]
Pankhurt C E. Soil biota:Management in sustainable farming systems[M]. Melbourne:CSIRO Press, 1993:107-124.
[85]
Roper M M, Gupta V. Management-practices and soil biota[J]. Australian Journal of Soil Research, 1995,33(2):321-339.
[86]
Yeates G W, Orchard V A, Speir T W, et al. Impact of pasture contamination by copper, chromium, arsenic timber preservative on soil biological activity[J]. Biology and Fertility of Soils, 1994,18(3):200-208.