Abstract
Soils are dynamic ecosystems that support a diversity of life. Therefore, the concept of soil quality or health, like that of human health, is not difficult to understand or recognize when the system is viewed as a whole. The challenge is to manage soils such that they are able to perform the various uses they are put to without degradation of the soils themselves or the environment. While, this is simple in concept, there are definite complexities that make the idea of soil health difficult to quantify. Which soil functions should be considered, which soil properties are most important to measure, and how to best measure those properties are some of the tough questions that need to be considered when attempting to quantify soil health. The great challenge is to manage soils in a sustainable fashion so that they will provide for human needs in the future. However, the measurement of soil processes and of the soil properties linked to these also depend on the use and location of the soil. When evaluating soil quality, it is therefore common to explore a range of soil physical, chemical, and biological properties. The single most important property determining the soil quality is the soil organic system because of the profound influence it has on soil physical, chemical, and biological properties. Therefore, many steps already taken to improve soil quality are dealing with improving soil organic matter status and hence, the vitality of the soil organic system. Some of the common ways to improve soil quality include: reduced tillage, use of green manure, application of animal manures, crop rotations, strip cropping, use of cover crops, application of sludge or biosolids, and other additions of organic materials and nutrients. These management techniques enhance the activity of both the micro- and macro-biological soil organic system, whose activities also improve properties such as soil aggregation, infiltration, and water holding capacity, decrease bulk density, penetration resistance and soil erosion, and increase cation exchange capacity. Management for soil quality can also lead to reduced need for agrochemicals and tillage, reduced fuel consumption by farm equipment, and increased sequestration of CO2 in the soil, all of which benefit the environment. Modern agricultural science has the ability to correct many of the poor practices of the past and to maintain healthier soils that should sustain the uses they are put to.
Therefore, this review will be focused on the integrated nutrient management to enhance plant nutrition, restore degraded soils, identify site-specific parameters as indicators of soil quality, and describe the impact of soil quality improvements on increasing agronomic production and advancing global food security. Integrated nutrient management and its effect on different soil quality indicators will be also addressed.
We will know only what we are taught ;
We will be taught only what others deem is important to know ;
And we will learn to value that which is important.
– Native American proverb
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References
Acton DF, Gregorich LJ (1995) The health of our soils: toward sustainable agriculture in Canada. Publication Number 1906/E, Centre for Land and Biological Resources Research, Agriculture and Agri-Food Canada, Ottawa, 138 pp
Agency E (2002) Agriculture and natural resources: benefits, costs and potential solutions. Environment Agency, Bristol
Alexander M (1971) Agriculture’s responsibility in establishing soil quality criteria. In: Environmental improvement – agriculture’s challenge in the seventies. National Academy of Sciences, Washington, DC, pp 66–71
Alshaal TA, Abou El-Khir AM, El-Essawi TM, El-Ramady HR (2012) Soil quality indicators as affected by different cultivated crops: I. Effects of wheat, clover and sugar beet on biological and biochemical indicators. In: Proceedings of the 13th international conference on agronomy, Faculty of Agriculture, Benha University, Benha, 9–10 Sept 2012, pp 146–166
Anderson T (2003) Microbial eco-physiological indicators to assess soil quality. Agric Ecosyst Environ 98:285–293
Anderson DW, Gregorich EG (1984) Effect of soil erosion on soil quality and productivity. In: Soil erosion and degradation. In: Anonymous proceedings of 2nd annual western provincial conference on rationalisation of water and soil research and management, Saskatchewan Institute of Pedology, Saskatoon
Andrews SS, Mitchell JP, Mancinelli R, Karlen KL, Hartz TK, Horwath WR, Pettygrove GS, Scow KM, Munk DS (2002) On-farm assessment of soil quality in California’s central valley. Agron J 94:12–23
Andrews SS, Karlen DL, Cambardella CA (2004) The soil management assessment framework: a quantitative soil quality evaluation method. Soil Sci Soc Am J 68:1945–1962
Aparicio V, Costa JL (2007) Soil quality indicators under continuous cropping systems in the Argentinean Pampas. Soil Till Res 96:155–165
Arnon DI, Stout PR (1939) The essentiality of certain elements in minute quantity for plants with special reference to copper. Plant Physiol 14:371–375
Arshad MA, Martin S (2002) Identifying critical limits for soil quality indicators in agroecosystems. Agric Ecosyst Environ 88:153–160
Aulakh MS (2010) Integrated nutrient management for sustainable crop production, improving crop quality and soil health, and minimizing environmental pollution. In: 19th world congress of soil science, soil solutions for a changing world, Brisbane, 1–6 Aug 2010, pp 79–82
Aulakh MS, Grant CA (2008) Integrated nutrient management for sustainable crop production. The Haworth Press/Taylor & Francis Group, New York
Baldwin KR (2009) Soil quality considerations for organic farmers. The organic production publication series, Center for Environmental Farming Systems, North Carolina, State University. http://www.cefs.ncsu.edu/resources/organicproductionguide/soilqualityfinaljan09.pdf. Accessed 23 Feb 2013
Balota EL, Kanashiro M, Filho AC, Andrade DS, Dick RP (2004) Soil enzyme activities under long-term tillage and crop rotation systems in subtropical agro-ecosystems. Braz J Microbiol 35:300–306
Banerjee A, Datta JK, Mondal NK (2010) Impact of different combined doses of fertilizers with plant growth regulators on growth, yield attributes and yield of mustard (Brassica campestris cv. B9) under old alluvial soil of Burdwan, West Bengal, India. Front Agric China 4(3):341–351. doi:10.1007/s11703-010-1017-7
Banqueri JA (1802) Libro de Agricultura: Su Autor El Doctor Excelente Abu Zacaria Lahia Aben Mohamed Ben Ahmed Ebu El Awam, vols I and II. Sevillano, Madrid
Bardgett RD, Usher MB, Hopkins DW (2005) Biological diversity and function in soils. Cambridge University Press, Cambridge
Barker AV, Pilbeam DJ (2007) Handbook of plant nutrition. Books in soils, plants, and the environment series, vol 117. CRC Press/Taylor & Francis Group, Boca Raton, FL, USA
Bastida F, Moreno JL, Hernandez T, Garcia C (2006) Microbiological degradation index of soils in a semiarid climate. Soil Biol Biochem 38:3463–3473
Bastida F, Zsolnay A, Hernández T, García C (2008) Past, present and future of soil quality indices: a biological perspective. Geoderma 147:159–171
Batistic L, Mayaudon J (1977) Influence of mineral fertilizer and liquid organic fertilizer (cattle slurry) on soil biological fertility. Revue d’Ecologie et de Biologie du sol 14(4):499–507
Bationo A, Kihara J, Vanlauwe V, Kimetu J, Waswa BS, Sahrawat KL (2008) Integrated nutrient management: concepts and experience from Sub-Saharan Africa. In: Aulakh MS, Grant CA (eds) Integrated nutrient management for sustainable crop production. The Haworth Press/Taylor & Francis, New York, pp 467–521
Bhupinderpal-Singh B, Rengel Z (2007) The role of crop residues in improving soil fertility. In: Marschner P, Rengel Z (eds) Nutrient cycling in terrestrial ecosystems, vol 10, Soil biology series. Springer, Berlin/Heidelberg/New York, pp 183–214
Blum W, Büsing J, de l’Escaille T (2004) European union soil thematic strategy. The European Commission, DG Environment, Brussels
Bohanec M, Cortet J, Griffiths B, Znidarsic M, Debeljak M, Caul S, Thompson J, Krogh PH (2007) A qualitative multi-attribute model for assessing the impact of cropping systems on soil quality. Pedobiologia 51:239–250
Bone J, Head M, Barraclough D, Archer M, Schei C, Flight D, Voulvoulis N (2010) Soil quality assessment under emerging regulatory requirements. Environ Int 36:609–622. doi:10.1016/j.envint.2010.04.010
Brejda JJ, Karlen DL, Smith JL, Allan DL (2000) Identification of regional soil quality factors and indications in Northern Mississippi Loess Hills and Palouse Prairie. Soil Sci Soc Am J 64:2125–2135
Brennan RF, Bolland MDA, Bowden JW (2004) Potassium deficiency, and molybdenum deficiency and aluminium toxicity due to soil acidification, have become problems for cropping sandy soils in south-western Australia. Aust J Exp Agric 44:1031–1039
Brevik EC (2009) Soil health and productivity. In: Verheye WH (ed) Soils, plant growth and crop production. Encyclopedia of life support systems (EOLSS), Developed under the auspices of the UNESCO. Eolss Publishers, Oxford. http://www.eolss.net. Accessed 26 Aug 2012
Broadley MR, White PJ, Bryson RJ et al (2006) Biofortification of UK food crops with selenium. Proc Nutr Soc 65:169–181
Broadley MR, White PJ, Hammond JP, Zelko I, Lux A (2007) Zinc in plants. New Phytologist 173:677–702
Brookes PC, McGrath SP, Klein DA, Elliott ET (1984) Effects of heavy metals on microbial activity and biomass in field soils treated with sewage sludge. In: International conference on environmental contamination, London, pp 574–583
Burger JA, Kelting DL (1999) Using soil quality indicators to assess forest stand management. For Ecol Manag 122:155–166
Burke IEE, Cole V (1995) Influence of macroclimate, landscape position, and management on soil organic matter in agroecosystems. Ecol Appl 5(1):124–131
Burns RG (1982) Enzyme activity in soil: location and a possible role in microbial ecology. Soil Biol Biochem 14:423–427
Burns RG, Dick RP (2002) Enzymes in the environment – activity, ecology, and applications. Marcel Dekker, New York
Cakmak I (2004) Proceedings of the International Fertiliser Society 552. Identification and correction of widespread zinc deficiency in Turkey – a success story. International Fertiliser Society, York
Cakmak I (2008) Enrichment of cereal grains with zinc: agronomic or genetic biofortification? Plant Soil 302:1–17
Cambardella CA, Moorman TB, Andrews SS, Karlen DL (2004) Watershed-scale assessment of soil quality in the Loess Hills of southwestern Iowa. Soil Till Res 78:237–248
Caravaca F, Masciandaro G, Ceccanti B (2002) Land use in relation to chemical and biochemical properties in semiarid Mediterranean environment. Soil Till Res 68:23–30
Carrera LM, Buyer JS, Vinyard B, Abdul-Baki AA, Sikora LJ, Teasdale JR (2007) Effects of cover crops, compost, and manure amendments on soil microbial community structure in tomato production systems. Appl Soil Ecol 37(3):247–255
Carter MR (2002) Soil quality for sustainable land management: organic matter and aggregation interactions that maintain soil functions. Agron J 94:38–47
Cockroft B, Olsson KA (1997) Case study of soil quality in south-eastern Australia: management of structure for roots in duplex soils. In: Gregorich EG, Carter MR (eds) Soil quality for crop production and ecosystem health, vol 25, Developments in soil science. Elsevier, New York, pp 339–350
Conley DJ, Paerl HW, Howarth RW et al (2009) Controlling eutrophication: nitrogen and phosphorus. Science 323:1014–1015
Culley JLB (1993) Density and compressibility. In: Carter MR (ed) Soil sampling and methods of analysis, Canadian society of soil science. Lewis Publishers, Boca Raton, pp 529–539
Das SK, Varma A (2011) Role of enzymes in maintaining soil health. In: Shukla G, Varma A (eds) Soil enzymology, soil biology, vol 22. Springer, Berlin/Heidelberg
De la Rosa D, Sobral R (2008) Soil quality and methods for its assessment. In: Braimoh AK, Vlek PLG (eds) Land use and soil resources. Springer, Dordrecht, pp 167–200
de Souza M (2009) Draft soil strategy for England and soil framework directive: a brief overview. In: Anonymous proceedings of the future of soil, London
Defra (2004) The first soil action plan for England. Department of Environment, Food and Rural Affairs, London
Delhaize E, Gruber BD, Ryan PR (2007) The roles of organic anion permeases in aluminium resistance and mineral nutrition. FEBS Lett 581:2255–2262
den Biggelaar C, Lal R, Wiebe K, Breneman V (2004) The global impact of soil erosion on productivity. I: Absolute and relative erosion-induced yield losses. Adv Agron 81:1–48
Dexter AR, Zoebisch MA (2006) Degradation: critical limits of soil properties and irreversible degradation. In: Lal R (ed) Encyclopedia of soil science, 2nd edn. Taylor & Francis, Philadelphia, pp 411–415
Dick RP (1997) Soil enzyme activities as integrative indicators of soil health. In: Pankhurst CE, Doube BM, Gupta VVSR (eds) biological indicators of soil health. CAB International, Wallingford, pp 121–156
Dick RP, Sandor JA, Eash NS (1994) Soil enzyme activities after 1500 years of terrace agriculture in the Colca Valley. Peru Agric Ecosyst Environ 50:123–131
Dick RP, Breakwell DP, Turco RF (1996) Soil enzyme activities and biodiversity measurements as integrative microbiological indicators. In: Doran JW, Jones AJ (eds) Methods for assessing soil quality, vol 9. Soil Science Society of America, Madison, pp 9–17
Dinkelaker B, Marschner H (1992) In vivo demonstration of acid phosphatase in the rhizosphere of soil grown plants. Plant Soil 144:199–205
Ditzler CA, Tugel AJ (2002) Soil quality field tools of USDANRCS soil quality institute. Agron J 94:33–38
Doran JW (2002) Soil health and global sustainability: translating science into practice. Agric Ecosyst Environ 88:119–127
Doran JW, Jones AJ (1996) Methods for assessing soil quality, vol 49, SSSA special publication. ASA, Madison
Doran JW, Parkin TB (1994) Defining and assessing soil quality. In: Doran JW et al (eds) Defining Soil quality for sustainable environment. SSSA and ASA, Madison, pp 3–21
Doran JW, Parkin TB (1996) Quantitative indicators of soil quality: a minimum data set. In: Doran JW, Jones AJ (eds) Methods for assessing soil quality, vol 49. Soil Science Society of America Special Publication, Madison, pp 25–37
Doran JW, Safley M (1997) Defining and assessing soil health and sustainable productivity. In: Pankhurst C, Doube BM, Gupta VVSR (eds) Biological indicators of soil health. CAB International, Wallingford, pp 1–28
Doran JW, Zeiss MR (2000) Soil health and sustainability: managing the biotic component of soil quality. Appl Soil Ecol 15:3–11
Doran JW, Coleman DC, Bezdicek DF, Stewart BA (1994) Defining soil quality for a sustainable environment, vol 35, SSSA special publication. ASA, Madison
Doran JW, Sarantonio M, Leibig M (1996) Soil health and sustainability. In: Sparks DL (ed) Advances in agronomy, vol 56. Academic Press, San Diego, pp 1–54
Dumanski J, Pieri C (2000) Land quality indicators: research plan. Agric Ecosyst Environ 81:93–102
Edwards CA (1993) The impact of pesticides on the environment. Chapman and Hall, New York
Edwards CA (2002) Assessing the effects of environmental pollutants on soil organisms, communities, processes and ecosystems. Eur J Soil Biol 38:225–231. doi:10.1016/S1164-5563(02)01150-0
Eichler B, Caus M, Schnug E, Koeppen D (2004) Soil acid and alkaline phosphatase activities in relation to crop species and fungal treatment. Landbauforschung Völkenrode 1(54):01–05
Eivazi F, Bayan MR, Schmidt K (2003) Selected soil enzyme activities in the historic Sanborn field as affected by long-term cropping systems. Commun Soil Sci Plan 16:2259–2275
Ekholm P (1997) Effects of selenium supplemented commercial fertilizers on food selenium contents and selenium intake in Finland. University of Helsinki, EKT-series 1047, Helsinki
Ekholm P, Ylinen M, Koivistoinen P, Varo P (1995) Selenium concentration of Finnish foods: effects of reducing the amount of selenate in fertilizers. Agric Sci Finland 4:377–384
Ekholm P, Reinivuo H, Mattila P et al (2007) Changes in the mineral and trace element contents of cereals, fruits and vegetables in Finland. J Food Compos Anal 20:487–495
Elliott ET (1994) The potential use of soil biotic activity as an indicator of productivity. In: Pankhurst CE, Doube BM, Gupta VVSR, Grace PR (eds) Soil biota: management in sustainable farming systems. CSIRO, Melbourne, pp 250–256
El-Ramady H (2008) A contribution on the bio-actions of rare earth elements in the soil/plant environment. PhD thesis, Julius Kühn-Institut, Bundesforschungsinstitut für Kulturpflanzen, Quedlinburg
El-Ramady HR, Alshaal TA, Abou El-Khir AM, El-Essawi TM (2013) Chemical soil quality indicators as affected by different cultivated crops. Egypt Soil Sci Soc J 53(1):1–12
El-Swaify SA, Pathak P, Rego TJ, Singh S (1985) Soil management for optimized productivity under rainfed conditions in the semi-arid tropics. Adv Soil Sci 1:1–63
Emmerling C, Schloter M, Hartmann A, Kandeler E (2002) Functional diversity of soil organisms – a review of recent research activities in Germany. J Plant Nutr Soil Sci 165:408–420
Enghag P (2004) Encyclopedia of the elements – technical data, history, processing and applications, Wiley-VCH, Verlag GmbH & Co. KGaA, Weinheim
Erkossa T, Itanna F, Stahr K (2007) Indexing soil quality: a new paradigm in soil science research. Aust J Soil Res 45:129–137
Eticha D, Zahn M, Bremer M et al (2010) Transcriptomic analysis reveals differential gene expression in response to aluminium in common bean (Phaseolus vulgaris) genotypes. Ann Bot 105:1119–1128
European Commission (2005) The common agricultural policy 2003 review. European Communities, Luxembourg
Evanylo G, McGuinn R (2009) Agricultural management practices and soil quality: measuring, assessing, and comparing laboratory and field test kit indicators of soil quality attributes. Virginia Polytechnic Institute and State University. http://pubs.ext.vt.edu/452/452-400/452-400_pdf.pdf. Accessed 25 Feb 2013
Fageria NK (2009) The use of nutrients in crop plants. CRC Press/Taylor & Francis Group, LLC, Boca Raton, FL, USA
FAO (1995) Integrated plant nutrition system. FAO Fertilizer and Plant Nutrition Bulletin No. 12, Rome, 426 pp
FAO (2006) Plant nutrition for food security – a guide for integrated nutrient management. In: Roy RN, Finck A, Blair GJ, Tandon HLS (eds) Fertilizer and plant nutrition bulletin, vol 16. Food and Agriculture Organization of the United Nations, Rome
FAO (2012) Basic definitions. http://www.fao.org/hunger/en/21.8.2012. Accessed 21 Aug 2012
Fernandez MD, Vega MM, Tarazona JV (2006) Risk-based ecological soil quality criteria for the characterization of contaminated soils. Combination of chemical and biological tools. Sci Total Environ 366:466–484
Ferreira EPdB, Dusi AN, Costa JR, Xavier GR, Rumjanek NG (2008) Rhizosphere bacterial communities of potato cultivars evaluated through PCR-DGGE profiles. Pesquisa Agropecuária Brasileira 43(5):605–612
Ferreira EPdB, Dusi AN, Costa JR, Xavier GR, Rumjanek NG (2009) Assessing insecticide and fungicide effects on the culturable soil bacterial community by analyses of variance of their DGGE fingerprinting data. Eur J Soil Biol 45(05/06):466–472
Ferreira B, Petrônio de E, Henrique PDS, Janaina RC, Helvécio D-P, Norma GR (2010) Microbial soil quality indicators under different crop rotations and tillage management. Revista Ciência Agronômica 41(2):177–183, abril-junio, Universidade Federal do Ceará Brasil
Filip Z (2002) International approach to assessing soil quality by ecologically-related biological parameters. Agric Ecosyst Environ 88:169–174
Franzluebbers A (2002) Soil organic matter stratification ratio as an indicator of soil quality. Soil Tillage Res 66(2):95–106
Garcia-Ruiz R, Ochoa V, Vinegla B, Hinojosa MB, Pena-Santiago R, Liebanas G, Linares JC, Carreira JA (2009) Soil enzymes, nematode community and selected physico-chemical properties as soil quality indicators in organic and conventional olive oil farming: influence of seasonality and site features. Appl Soil Ecol 41:305–314
Garrigues E, Corson MS, Angers DA, van der Werf HMG, Walter C (2012) Soil quality in life cycle assessment: towards development of an indicator. Ecol Indic 18:434–442
Giacometti C, Demyan MS, Cavani L, Marzadori C, Ciavatta C, Kandeler E (2013) Chemical and microbiological soil quality indicators and their potential to differentiate fertilization regimes in temperate agroecosystems. Appl Soil Ecol 64:32–48. http://dx.doi.org/10.1016/j.apsoil.2012.10.002
Giller KE, Beare MH, Lavelle P, Izac AMN, Swift MJ (1997) Agricultural intensification, soil biodiversity and agroecosystem function. Appl Soil Ecol 6:3–16
Gil-Sotres F, Trasar-Cepeda C, Leiros MC, Seoane S (2005) Different approaches to evaluating soil quality using biochemical properties. Soil Biol Biochem 37:877–887. doi:10.1016/j.soilbio.2004.10.003
Glover JD, Reganold JP, Andrews PK (2000) Systematic method for rating soil quality of conventional, organic, and integrated apple orchards in Washington State. Agric Ecosyst Environ 80:29–45
Govaerts B, Mezzalama M, Unno Y, Sayre KD, Luna-Guido M, Vanherck K, Dendooven L, Deckers J (2007) Influence of tillage, residue management, and crop rotation on soil microbial biomass and catabolic diversity. Appl Soil Ecol 37:18–30
Graham RD, Welch RM, Saunders DA et al (2007) Nutritious subsistence food systems. Adv Agron 92:1–74
Gregorich EG, Carter MR, Angers DA, Monreal CM, Ellert BH (1994) Towards a minimum data set to assess soil organic matter quality in agricultural soils. Can J Soil Sci 74:367–385
Griffiths BS, Kuan HL, Ritz K, Glover LA, McCaig AE, Fenwick C (2004) The relationship between microbial community structure and functional stability, tested experimentally in an upland pasture soil. Microb Ecol 47:104–113. doi:10.1007/s00248-002-2043-7
Griffiths BS, Hallett PD, Kuan HL, Pitkin Y, Aitken MN (2005) Biological and physical resilience of soil amended with heavy metal-contaminated sewage sludge. Eur J Soil Sci 56:197–205. doi:10.1111/j.1365-2389.2004.00667.x
Gupta VVSR, Germida JJ (1988) Distribution of microbial biomass and its activity in different soil aggregate size classes as affected by cultivation. Soil Biol Biochem 20:777–786
Hartikainen H (2005) Biogeochemistry of selenium and its impact on food chain quality and human health. J Trace Element Med Biol 18:309–318
Hattori H, Chino M (2001) Growth, cadmium, and zinc contents of wheat grown on various soils enriched with cadmium and zinc. Dev Plant Soil Sci 92:462–463
Herrick JE, Brown JR, Tugel AJ, Shave PL, Havstad KM (2002) Application of soil quality to monitoring and management: paradigms from rangeland ecology. Agron J 94:3–11
Hines J, Megonigal P, Denno RF (2006) Nutrient subsidies to belowground microbes impact aboveground food web interactions. Ecology 87:1542–1555
Hobbie SE (2005) Contrasting effects of substrate and fertilizer nitrogen on the early stages of litter decomposition. Ecosystems 8:644–656. doi:10.1007/s10021-003-0110-7
Howard A (1941) Testament agricole – pour une agriculture naturelle, 1st edn. Oxford University Press, London
Hussain I, Olson KR, Wander MM, Karlen DL (1999) Adaptation of soil quality indices and application to three tillage systems in southern Illinois. Soil Till Res 50:237–249
Imaz MJ, Virto I, Bescansa P, Enrique A, Fernandez-Ugalde O, Karlen DL (2010) Soil quality indicator response to tillage and residue management on semi-arid Mediterranean cropland. Soil Till Res 107:17–25
Janssen BH (1999) Basics of budgets, buffers and balances of nutrients in relation to sustainability of agroecosystems. In: Smaling EMA, Oenema O, Fresco LO (eds) Nutrient disequilibria in agroecosystems: concepts and case studies. CABI Publishing, Wallingford, pp 27–56
Janssen BH, de Willigen P (2006a) Ideal and saturated soil fertility as bench marks in nutrient management 1. Outline of the framework. Agric Ecosyst Environ 116:132–146
Janssen BH, De Willigen P (2006b) Ideal and saturated soil fertility as bench marks in nutrient management. II. Interpretation of chemical soil tests in relation to ideal and saturated soil fertility. Agric Ecosyst Environ 116:147–155
Janvier C, Villeneuve F, Alabouvette C, Edel-Hermann V, Mateille T, Steinberg C (2007) Soil health through soil disease suppression: which strategy from descriptors to indicators? Soil Biol Biochem 39:1–23
Jones JB Jr (2003) Agronomic handbook – management of crops, soils, and their fertility. CRC Press, Boca Raton
Ju X-T, Xing G-X, Chen X-P et al (2009) Reducing environmental risk by improving N management in intensive Chinese agricultural systems. Proc Natl Acad Sci U S A 106:3041–3046
Kabata-Pendias A (2011) Trace elements in soils and plants, 4th edn. CRC Press/Taylor & Francis Group, Boca Raton
Kabata-Pendias A, Mukherjee AB (2007) Trace elements from soil to human. Springer, Berlin/Heidelberg
Kang GS, Beri V, Sidhu BS, Rupela OP (2005) A new index to assess soil quality and sustainability of wheat-based cropping systems. Biol Fertil Soils 41:389–398
Kangas A, Teravainen H (2004) Peltokasvilajikkeet 2004. Maaseutukeskustenliiton julkaisuja no. 1001, Pro Agria, Helsinki (Cited from Ekhlom et al. 2007)
Karanam PV, Wani SP, Sahrawat KL, Jangawad LS (2008) Economic evaluation of sediments as a source of plant nutrients. Curr Sci 95:1042–1050
Karlen DL, Stott DE (1994) A framework for evaluating physical and chemical indicators of soil quality. In: Doran JW et al (eds) Defining soil quality for a sustainable environment. SSSA and ASA, Madison, pp 53–72
Karlen DL, Wollenhaupt NC, Erbach DC, Berry EC, Swan JB, Eash NS, Jordahl JL (1994) Long-term tillage effects on soil quality. Soil Till Res 32:313–327
Karlen DL, Mausbach MJ, Doran JW, Cline RG, Harris RF, Schuman GE (1997) Soil quality: a concept, definition, and framework for evaluation. Soil Sci Soc Am J 61:4–10
Karlen DL, Gardner JC, Rosek MJ (1998) A soil quality framework for evaluating the impact of CRP. J Prod Agric 11:56–60
Karlen DL, Andrews SS, Doran JW (2001) Soil quality: current concepts and applications. Adv Agron 74:1–40
Karlen DL, Andrews SS, Wienhold BJ (2004) Soil quality, fertility and health – historical context, status and perspectives. In: Schjønning P, Elmholt S, Christensen BT (eds) Managing soil quality: challenges in modern agriculture. CABI Publishing, Oxford, pp 17–33
Karlen DL, Andrews SS, Wienhold BJ, Zobeck TM (2008) Soil quality assessment: past, present and future. J Integr Biosci 6(1):3–14
Karlen DL, Ditzler CA, Andrews SS (2003) Soil quality: why and how? Geoderma 114:145–156
Karley AJ, White PJ (2009) Moving cationic minerals to edible tissues: potassium, magnesium, calcium. Curr Opin Plant Biol 12:291–298
Kaschuk G, Alberton O, Hungria M (2010) Three decades of soil microbial biomass studies in Brazilian ecosystems: lessons learned about soil quality and indications for improving sustainability. Soil Biol Biochem 42:1–13
Kellogg CE (1943) The soils that support us: an introduction to the study of soils and their use by men. MacMillan Co., New York
Kibblewhite MG, Ritz K, Swift MJ (2008) Soil health in agricultural systems. Phil Trans R Soc B 363:685–701. doi:10.1098/rstb.2007.2178
Kirkby E (2012) Introduction, definition and classification of nutrients. In: Marschner P (ed) Marschner’s mineral nutrition of higher plants. Elsevier Ltd., San Diego, CA, USA, pp 1–5, doi: 10.1016/B978-0-12-384905-2.00001-7
Kleinhenz M, Bierman P (2002) Soil quality management for profitable and sustainable vegetable production. Soil & Water Resources Program, OSU Piketon Res. & Ext. Center. Internet http://www.oardc.ohio-state.edu/kleinhenz
Klingebiel AA, Montgomery PH (1961) Land capability classification, vol 210, USDA handbook. United States Department of Agriculture, Washington, DC
Koivistoinen P (1980) Mineral element composition of Finnish foods. Acta Agric Scand Suppl 22:27–35
Koper J, Piotrowska A (2003) Application of biochemical index to define soil fertility depending on varied organic and mineral fertilization. Electron J Pol Agric Univ 6
Körschens M (2006) The importance of long-term field experiments for soil science and environmental research – a review. Plant Soil Environ 52:1–8
Kumar K, Goh KM (2000) Crop residues and management practices: effects on soil quality, soil nitrogen dynamics, crop yields, and nitrogen recovery. Adv Agron 68:197–319
Laishram J, Saxena KG, Maikhuri RK, Rao KS (2012) Soil quality and soil health: a review. Int J Ecol Environ Sci 38(1):19–37
Lal R (2004) Soil carbon sequestration impacts on global climate change and food security. Science 304(5677):1623–1627
Lal R (2005) World crop residues production and implications of its use as a biofuel. Environ Int 31:575–584
Lal R (2007) Anthropogenic influences on world soils and implications to global food security. Adv Agron 93:69–93
Lal R (2011) Soil health and climate change: an overview. In: Singh BP, Cowie AL, Chan KY (eds) Soil health and climate change, vol 29, Soil biology series. Springer, Berlin/Heidelberg, pp 3–24 (Chapter 1)
Landers JN, DeC Barros GS-A, Manfrinato WA, Weiss JS, Rocha MT (2001) Environmental benefits of zero-tillage in Brazilian agriculture – a first approximation. In: GarciaTorres L, Benites L, Martinez Vilela A (eds) Conservation agriculture – a worldwide challenge, vol 1. XUL, Cordoba, pp 317–326
Larson WE, Pierce FJ (1991) Conservation and enhancement of soil quality. In: Dumanski J, et al (eds) Evaluation for sustainable land management in the developing world. Vol. 2: Technical papers. Proceedings of the international workshop, Chiang Mai, 15–21 Sept 1991. International Board for Soil Research and Management, Bangkok, pp 175–203
Larson WE, Pierce FJ (1994) The dynamics of soil quality as a measure of sustainable management. In: Doran JW et al (eds) Defining soil quality for a sustainable environment, vol 35, SSSA special publication. SSSA and ASA, Madison, pp 37–51
Lee CH, Wu MY, Asio VB, Zueng-Sang C (2006) Using a soil quality index to assess the effects of applying swine manure compost on soil quality under a crop rotation system in Taiwan. Soil Sci 171:210–222
Leigh RA, Johnston AE (1994) Long-term experiments in agricultural and ecological sciences. CAB International, Wallingford
Letey J, Sojka RE, Upchurch DR, Cassel DK, Olson KR, Payne WA, Petrie SE, Price GH, Reginato RJ, Scott HD, Smethurst PJ, Triplett GB (2003) Deficiencies in the soil quality concept and its application. J Soil Water Conserv 58:180–187
Liebig MA, Varvel G, Doran J (2001) A simple performance based index for assessing multiple agroecosystem functions. Agron J 93:313–318
Lilburne L, Sparling G, Schipper L (2004) Soil quality monitoring in New Zealand: decomposition of an interpretative framework. Agric Ecosyst Environ 104:535–544
Lima ACR, Brussaard L, Totola MR, Hoogmoed WB, de Goede RGM (2013) A functional evaluation of three indicator sets for assessing soil quality. Appl Soil Ecol 64:194–200. http://dx.doi.org/10.1016/j.apsoil.2012.12.009
Lindh U (2005) Environmental biology. In: Selinus O, Alloway B, Centeno JA, Finkelman RB, Fuge R, Lindh U, Smedley P (eds) Essentials of medical geology. Elsevier, London, pp 15–16
Li S-X, Wang Z-H (2010) Comprehensive management of nutrients in dry land soils of China for sustainable agriculture. In: Rattan Lal and Stewart BA (eds) Food security and soil quality, Advances in soil science Series, LLC. Taylor & Francis Group, Boca Raton, pp 309–384
Lowdermilk WC (1939) Conquest of the land through 7000 years. USDA-ARS Bulletin 99, Washington, DC, 30 pp
Lucas RW, Casper BB, Jackson JK, Balser TC (2007) Soil microbial communities and extracellular enzyme activity in the New Jersey pinelands. Soil Biol Biochem 39:2508–2519
Lynch JP, St. Claira SB (2004) Mineral stress: the missing link in understanding how global climate change will affect plants in real world soils. Field Crops Res 90:101–115. doi:10.1016/j.fcr.2004.07.008
Lyons GH, Stangoulis JCR, Graham RD (2004) Exploiting micronutrient interaction to optimize biofortification programs: the case for inclusion of selenium and iodine in the HarvestPlus program. Nutr Rev 62:247–252
Ma JF, Ryan PR, Delhaize E (2001) Aluminium tolerance in plants and the complexing role of organic acids. Trends Plant Sci 6:273–278
Mandal DK, Mandal C, Velayutham M (2001) Development of a land quality index for sorghum in Indian semi-arid tropics (SAT). Agr Syst 70:335–350
Maliszewska W (1969) Comparison of the biological activity of different soil types. Agrokém Tlajt 18:76–81
Marinari S, Mancinelli R, Campiglia E, Grego S (2006) Chemical and biological indicators of soil quality in organic and conventional farming systems in Central Italy. Ecol Indic 6:701–711
Marschner H (2002) Mineral nutrition of higher plants, 2nd edn. Elsevier Academic Press, London
Martens DA, Johanson JB, Frankenberger WT (1992) Production and persistence of soil enzymes with repeated additions of organic residues. Soil Sci 153:53–61
Martinez-Salgado MM, Gutiérrez-Romero V, Jannsens M, Ortega-Blu R (2010) Biological soil quality indicators: a review. Current research, technology and education topics in applied microbiology and microbial biotechnology. Formatex, Microbiology Book Series – No. 2, pp 319–328. http://www.formatex.info/microbiology2/319-328.pdf/. Accessed 24 Feb 2013
Marzaioli R, D’Ascoli R, De Pascale RA, Rutigliano FA (2010) Soil quality in a Mediterranean area of Southern Italy as related to different land use types. Appl Soil Ecol 44:205–212. doi:10.1016/j.apsoil.2009.12.007
Masto RE, Chhonkar PK, Singh D, Patra AK (2007) Soil quality response to long-term nutrient and crop management on a semi-arid Inceptisol. Agric Ecosyst Environ 18:130–142
Masto RE, Chhonkar PK, Purakayastha TJ, Patra AK, Singh D (2008) Soil quality indices for evaluation of long-term land use and soil management practices in semi-arid sub-tropical India. Land Degrad Dev 19:516–529
Mausbach MJ, Tugel AJ (1995) Soil quality and the natural resources conservation. Agron Abst 337
McGrath D, Zhang CS (2003) Spatial distribution of soil organic carbon concentrations in grassland of Ireland. Appl Geochem 18:1629–1639
Mengel K, Kirkby EA, Kosegarten H, Appel T (2001) Principles of plant nutrition, 2nd edn. International Potash Institute, Berne
Mohanty M, Painuli DK, Misra AK, Ghosh PK (2007) Soil quality effects of tillage and residue under rice-wheat cropping on a Vertisol in India. Soil Till Res 92:243–250
Moron A (2005) Indicadores para el diagno stico de la calidad de suelos en sistemas agrı´colas. In: Marelli HJ (ed) Indicadores de Calidad de Suelo. Seminario Internacional, Marcos Juarez
Munns R, Tester M (2008) Mechanisms of salinity tolerance. Annu Rev Plant Biol 59:651–681
Nair A, Ngouajio M (2012) Soil microbial biomass, functional microbial diversity, and nematode community structure as affected by cover crops and compost in an organic vegetable production system. Appl Soil Ecol 58:45–55
Nannipieri P (1994) The potential use of soil enzymes as indicators of productivity, sustainability and pollution. In: Pankhurst CE, Doube BM, Gupta VVSR, Grace PR (eds) Soil biota management in sustainable farming systems. CSIRO, Melbourne, pp 238–244
Nannipieri P, Ceccanti B, Grego S (1990) Ecological significance of biological activity in soil. In: Bollag JM, Stotzky G (eds) Soil biochemistry, vol 6. Marcel Dekker, New York, pp 293–355
Nannipieri P, Kandeler E, Ruggiero P (2002) Enzyme activities and microbiological and biochemical processes in soil. In: Burns RG, Dick RP (eds) Enzymes in the environment – activity, ecology, and applications. Marcel Dekker, New York
National Board of Agriculture (2003) Official statistics of Finland. Yearbook of farm statistics, Helsinki
National Research Council (NRC) (1989) Alternative agriculture. National Academies Press, Washington, DC, 448 pp
Nazzareno D, Michele C (2004) Multivariate indicator kriging approach using a GIS to classify soil degradation for Mediterranean agricultural lands. Ecol Indic 4(3):177–187
Niklaus PA (2007) Climate change effects on biogeochemical cycles, nutrients, and water supply. In: Niklaus PA, Newman PCD, Andrew Carran R, Edwards GR (eds) Agroecosystems in a changing climate. Advances in agroecology series. Taylor & Francis Group, LLC, Boca Raton, FL, USA, pp 12–52
Nortcliff S (2002) Standardization of soil quality attributes. Agric Ecosyst Environ 88:161–168
Oenema O, Kros H, De Vries W (2003) Approaches and uncertainties in nutrient budgets: implications for nutrient management and environmental policies. Eur J Agron 20:3–16
Orwin KH, Wardle DA (2004) New indices for quantifying the resistance and resilience of soil biota to exogenous disturbances. Soil Biol Biochem 36:1907–1912. doi:10.1016/j.soilbio.2004.04.036
Pathak P, Sahrawat KL, Rego TJ, Wani SP (2005) Measurable biophysical indicators for impact assessment: changes in soil quality. In: Shiferaw B, Freeman HA, Swinton SM (eds) Natural resource management in agriculture: methods for assessing economic and environmental impacts. CAB International, Wallingford, pp 53–74
Patzel N, Sticher H, Karlen DL (2000) Soil fertility – phenomenon and concept. J Plant Nutr Soil Sci 163:129–142
Pavlovschi G, Groza M (1949) Studiul sistemelor fermentative din solul arabil. Analele ICAR XIX 1947:3–17
Perucci P (1992) Enzyme activity and microbial biomass in a field soil amended with municipal refuse. Biol Fert Soils 14:54–60
Petra M, David C, Ching HY (2004) Development of specific rhizosphere bacterial communities in relation to plant species, nutrition and soil type. Plant Soil 261:199–208
Pfeiffer E (1938) La fécondité de la terre. Ed. Triade, Paris, new edition, in 1966
Pierce FJ, Lal R (1992) Monitoring soil erosion’s impact on soil productivity. In: Lal R (ed) Soil erosion research methods. Soil and Water Conservation Society, Ankeny
Pierce FJ, Larson WE (1993) Developing criteria to evaluate sustainable land management. In: Kimble JM (ed) Proceedings of the 8th international soil management workshop: utilization of soil survey information for sustainable land use. USDA-SCS, National Soil Survey, Lincoln
Pieri C (1989) Fertilité des terres de savanes. Bilan de trente ans recherché et de developpement agricoles au sud du Sahara. Ministere de la Coopération et CIRAD-IRAT, Paris (cited from Janssen and de Willigen 2006a)
Pieri C, Dumanski J, Hamblin A, Young A (1995) Land quality indicators. World Bank Discussion Papers, 315
Poch RM, Martinez-Casanovas JA (2006) Degradation. In: Lal R (ed) Encyclopedia of soil science, 2nd edn. Taylor & Francis, Philadelphia, pp 375–378
Puget P, Lal R (2005) Soil organic carbon and nitrogen in a Mollisol in central Ohio as affected by tillage and land use. Soil Till Res 80:201–213
Puglisi E, Nicelli M, Capri E, Trevisan M, Del Re AAM (2005) A soil alteration index based on phospholipid fatty acids. Chemosphere 61:1548–1557
Puglisi E, Del Re AAM, Rao MA, Gianfreda L (2006) Development and validation of numerical indices integrating enzyme activities of soils. Soil Biol Biochem 38:1673–1681
Puig S, Penarrubia L (2009) Placing metal micronutrients in context: transport and distribution in plants. Curr Opin Plant Biol 12:299–306
Qi Y, Darilek JL, Huang B, Zhao Y, Sun W, Gu Z (2009) Evaluating soil quality indices in an agricultural region of Jiangsu Province, China. Geoderma 149:325–334. doi:10.1016/j.geoderma.2008.12.015
Qin MZ, Zhao J (2000) Strategies for sustainable use and characteristics of soil quality changes in urban–rural marginal area: a case study of Kaifeng. Acta Geogr Sin 55:545–554 (in Chinese with English abstract)
Rangel AF, Rao IM, Braun H-P, Horst WJ (2010) Aluminium resistance in common bean (Phaseolus vulgaris) involves induction and maintenance of citrate exudation from root apices. Physiol Plant 138:176–190
Reeves DW (1997) The role of organic matter in maintaining soil quality in continuous cropping systems. Soil Till Res 43:131–167
Reynolds WD, Bowman BT, Drury CF, Tan CS, Lu X (2002) Indicators of good soil physical quality: density and storage parameters. Geoderma 110:131–146
Rezaei S, Gilkes R, Andrews S (2006) A minimum data set for assessing soil quality in rangelands. Geoderma 136:229–234
Risher JF, Keith LS (2009) Iodine and inorganic iodides: human health aspects. WHO Press, Geneva
Ritz K (2005) Underview: origins and consequences of belowground biodiversity. In: Bardgett RD, Usher MB, Hopkins DW (eds) Biological diversity and function in soils. Cambridge University Press, Cambridge, pp 381–401
Ritz K, Black HIJ, Campbell CD, Harris JA, Wood C (2009) Selecting biological indicators for monitoring soils: a framework for balancing scientific and technical opinion to assist policy development. Ecol Indic 9:1212–1221
Romig DE, Garlynd MJ, Harris RF, McSweeney K (1995) How farmers assess soil health and quality. J Soil Water Conserv 50:229–236
Roy RN, Finck A, Blair GJ, Tandon HLS (2006) Plant nutrition for food security – a guide for integrated nutrient management, vol 16, Fertilizer and plant nutrition bulletin. Food and Agriculture Organization of the United Nations, Rome
Sahrawat KL, Padmaja KV, Pathak P, Wani SP (2005) Measurable biophysical indicators for impact assessment: changes in water availability and quality. In: Shiferaw B, Freeman HA, Swinton SM (eds) natural resource management in agriculture: methods for assessing economic and environmental impacts. CAB International, Wallingford, pp 75–96
Sahrawat KL, Murugappan V, Padma Raju A (2006) Soil and water quality issues vis-a-vis agricultural management practices in Deccan Plateau. In: Proceedings of the international conference on soil, water and environmental quality – issues and strategies, New Delhi, Indian Society of Soil Science, Indian Agricultural Research Institute, New Delhi, pp 173–183
Sahrawat KL, Wani SP, Pathak P, Rego TJ (2010) Managing natural resources of watersheds in the semi-arid tropics for improved soil and water quality: a review. Agric Water Manage 97:375–381. doi:10.1016/j.agwat.2009.10.012
Sanchez-Maranon M, Soriano M, Delgado G, Delgado R (2002) Soil quality in Mediterranean mountain environments: effects of land use change. Soil Sci Soc Am J 66:948–958
Sant’anna SAC, Fernandes MF, Ivo WMPM, Costa JLS (2009) Evaluation of soil quality indicators in sugarcane management in sandy loam soil. Pedosphere 19(3):312–322
Schimel JP, Gulledge J (1998) Microbial community structure and global trace gases. Global Change Biol 4:745–758
Schimel JP, Bennett J, Fierer N (2005) Microbial community composition and soil nitrogen cycling: is there really a connection? In: Bardgett RD, Usher MB, Hopkins DW (eds) Biological diversity and function in soils. Cambridge University Press, Cambridge, pp 172–188
Scotti MRM, Correa EJA (2004) Growth and litter decomposition of woody species inoculated with rhizobia and arbuscular mycorrhizal fungi in Semiarid Brazil. Ann For Sci 61:87–95
Segnestam L (2002) Indicators of the environmental and sustainable development. Theories and practical experience. Environmental Economics Series Paper No. 89. World Bank, Washington, DC
Selinus O, Alloway B, Centeno JA, Finkelman RB, Fuge R, Lindh U, Smedley P (2005) Essentials of medical geology. Elsevier, London, pp 15–16
Setälä H, McLean MA (2004) Decomposition rate of organic substrates in relation to the species diversity of soil saprophytic fungi. Oecologia 139:98–107. doi:10.1007/s00442-003-1478-y
Setälä H, Berg MP, Jones TH (2005) Trophic structure and functional redundancy in soil communities. In: Bardgett RD, Usher MB, Hopkins DW (eds) Biological diversity and function in soils. Cambridge University Press, Cambridge, pp 236–249
Seybold CA, Mausbach MJ, Karlen DL, Rogers HH (1998) Quantification of soil quality. In: Lal R, Stewart BA (eds) Soil processes and the carbon cycle. CRC Press, Boca Raton
Sharma KL, Mandal UK, Srinivas K, Vittal KPR, Mandal B, Kusuma Grace J, Ramesh V (2005) Long-term soil management effects on crop yields and soil quality in a dryland alfisol. Soil Till Res 83:246–259
Shehata SA, El-Ramady H (2012) Micronutrients: uptake and its roles in plants. Print house Fares Abd El-Hameed for Printing and Publishing, ISBN-No. 978-977-403-505-0 (in Arabic), Cairo, Egypt
Shukla MK, Lal R, Ebinger M (2006) Determining soil quality indicators by factor analysis. Soil Till Res 87:194–204
Singh AK (2010) Soil quality parameters as influenced by management practices in rice-wheat and maize-wheat cropping systems. In: 19th world congress of soil science, soil solutions for a changing world, Brisbane, 1–6 Aug 2010, pp 278–281
Smith JL, Halvaorson JJ, Papendick RI (1994) Using multiple-variable indicator kriging for evaluating soil quality. Soil Sci Soc Am J 57:743–749
Sojka RE, Upchurch DR (1999) Reservations regarding the sol quqlity concept. Soil Sci Soc Am J 63:1039–1054
Ştefanic G (1994) Biological definition, quantifying method and agricultural interpretation of soil fertility. Rom Agric Res 2:107–116
Ştefanic G, Gheorghiţă N (2006) Soil fertility or soil quality. Rom Agric Res 23:57–64
Stein AJ (2010) Global impacts of human mineral nutrition. Plant Soil 335:133–154
Steiner R (1924) Geisteswissenschaftliche Grundlagen zum Gedeihen der Landwirtschaft. landwirtschaftlicher Kursus Rudolf Steiner Verlag, Dornach, Schwitzerland. Bibliographie-Nr. 327, ISBN 3-7274-3270-5 7
Stroud JL, Paton GI, Semple KT (2007) Microbe-aliphatic hydrocarbon interactions in soil: implications for biodegradation and bioremediation. J Appl Microbiol 102:1239–1253
Sugden A, Stone R, Ash C (2004) Ecology in the underworld. Science 304:1613
Sullivan P (2001) Sustainable soil management. ATTRA the national sustainable agriculture information center funded by the USDA’s rural business. http://soilslab.cfr.washington.edu/Watershed_Stewardship/Sustainable_soil.PDF/. Accessed 10 Feb 2013
Sun B, Zhou SL, Zhao QG (2003) Evaluation of spatial and temporal changes of soil quality based on geostatistical analysis in the hill region of subtropical China. Geoderma 115:85–99
Swift MJ, Vandermeer J, Ramakrishnan PS, Anderson JM, Ong CK, Hawkins BA (1996) Biodiversity and agroecosystem function. In: Mooney HA, Cushman JH, Medina E, Sala OE, Schulze E-D (eds) Functional roles of biodiversity: a global perspective. Wiley, Chichester, pp 261–298
Syers JK (1997) Managing soils for long-term productivity. Phil Trans R Soc Lond B 352:1011–1021
Sylvester-Bradley R, Kindred DR (2009) Analysing nitrogen responses of cereals to prioritize routes to the improvement of nitrogen use efficiency. J Exp Bot 60:1939–1951
Tahvonen R (1995) Contents of lead and cadmium in foods in Finland. Food Chem, University of Turku, Department of Biochemistry and Food Chemistry, Turku
Tarafdar JC, Claassen N (1988) Organic phosphorous compounds as a phosphorous source through the activity of phosphatase produced by plant roots and microorganisms. Biol Fertil Soil 5:308–312
Tarafdar JC, Marschner H (1994) Phosphatase activity in the rhizosphere and hyposphere of VA mycorrhizal wheat supplied with inorganic and organic phosphorus. Soil Biol Biochem 26:387–395
Tarafdar JC, Rao AV, Bala K (1988) Production of phosphatase by fungi isolated from desert soils. Folia Microbiol 33:453–457
Tate R (1987) Soil organic matter: biological and ecological effects. John Wiley & Sons, New York
Tejada M, Gonzalez JL, Garcia-Martinez AM, Parrado J (2008) Effects of different green manures on soil biological properties and maize yield. Bioresour Technol 99:1758–1767
Tiessen H, Moir JO (1993) Total and organic carbon. In: Carter MR (ed) Soil sampling and methods of analysis, Canadian Society of Soil Science. Lewis Publishers, Boca Raton, pp 187–199
Tisdale SL, Nelson WL, Beaton JD, Havlin JL (1993) Soil fertility and fertilizers, 5th edn. Macmillan Publishing Company, New York
Topp GC, Galganov YT, Ball BC, Carter MR (1993) Soil water desorption curves. In: Carter MR (ed) Soil sampling and methods of analysis, Canadian society of soil science. Lewis Publishers, Boca Raton, pp 569–579
Topp GC, Reynolds WD, Cook FJ, Kirby JM, Carter MR (1997) Physical attributes of soil quality. In: Gregorich EG, Carter MR (eds) Soil quality for crop production and ecosystem health, vol 25, Developments in soil science. Elsevier, New York, pp 21–58
Torsvik V, Øvreas L, Thingstad TF (2002) Prokaryotic diversity-magnitude, dynamics and controlling factors. Science 296:1064–1066
Treonis M, Austin EE, Buyer JS, Maul JE, Spicera L, Zasada IA (2010) Effects of organic amendment and tillage on soil microorganisms and microfauna. Appl Soil Ecol 46:103–110
Twomlow S, Shiferaw B, Cooper P, Keatinge JDH (2008) Integrating genetics and natural resources management for technology targeting and greater impact of agricultural research in the semi-arid tropics. Exp Agric 44:235–256
USDA (2006) Soil quality institute. Natural resources conservation service. http://soils.usda.gov/sqi/. Accessed 20 Feb 2006
USDA, United States Department of Agriculture (2008) Soil quality physical indicators: selecting dynamic soil properties to assess soil function. Soil Quality Technical Note No. 10
USDA-NRCS (2008) Soil quality physical indicators: selecting dynamic soil properties to assess soil function. Soil quality – agronomy technical note USDA-NRCS, United States Department of Agriculture
USGS, U.S. Geological Survey (2013) Mineral commodity summaries 2013. http://minerals.usgs.gov/minerals/pubs/mcs/2013/mcs2013.pdf/. Accessed 26 Jan 2013
Vaillant V (1901) Petite chimie de l’agriculteur. Edit. F. Alcan, Paris, pp 26–27
van der Ploeg RR, Böhm W, Kirkham MB (1999) On the origin of the theory of mineral nutrition of plants and the law of the minimum. Soil Sci Soc Am J 63:1055–1062
Vanlauwe B, Wendt J, Diels J (2001) Combining organic matter and fertiliser for the maintenance and improvement of soil fertility. In: Tian G, Ishida F, Keatinge JDH (eds) Sustaining soil fertility inWest Africa. American Society of Agronomy, Madison, pp 247–279
Velasquez E, Lavelle P, Andrade M (2007) GISQ, a multifunctional indicator of soil quality. Soil Biol Biochem 39:3066–3080
Verhulst N, Govaerts B, Verachtert E, Castellanos-Navarrete A, Mezzalama M, Wall PC, Chocobar A, Deckers J, Sayre KD (2010) Conservation agriculture, improving soil quality for sustainable production systems? In: Rattan Lal, Stewart BA (eds) Food security and soil quality. Advances in soil sciences series. Taylor & Francis Group, LLC, Boca Raton, FL, USA, pp 137–208
Von Uexküll HR, Mutert E (1995) Global extent, development and economic impact of acid soils. Plant and Soil 171:1–15
Waksman S (1932) Principles of soil microbiology. London, Edit. Baillière, Tindall et Con., Baillière
Wang XJ, Gong ZT (1998) Assessment and analysis of soil quality changes after eleven years of reclamation in subtropical China. Geoderma 81:339–355
Wang Q, Wang S, Huang Y (2008) Comparisons of litter fall, litter decomposition and nutrient return in a monoculture Cunninghamia lanceolata and a mixed stand in southern China. For Ecol Manage 255(03/04):1210–1218
Wani SP, Pathak P, Jangawad LS, Eswaran H, Singh P (2003) Improved management of vertisols in the semi-arid tropics for increased productivity and soil carbon sequestration. Soil Use Manage 19:217–222
Wani SP, Singh P, Dwivedi RS, Navalgund RR, Ramakrishna A (2005) Biophysical indicators of agro-ecosystem services and methods for monitoring the impacts of NRM technologies at different scales. In: Shiferaw B, Freeman HA, Swinton SM (eds) Natural resource management in agriculture: methods for assessing economic and environmental impacts. CAB International, Wallingford, pp 97–123
Wardle DA (1995) Impacts of disturbance on detritus food webs in agro-ecosystems of contrasting tillage and weed management practices. Adv Ecol Res 26:105–185
Warkentin BP, Fletcher HF (1977). Soil quality for intensive agriculture. In: Anonymous proceedings of the international seminar on soil environment and fertilizer management in intensive agriculture, Society for Science of Soil and Manure – National Institute of Agricultural Science, Tokyo
Watanabe T, Broadley MR, Jansen S et al (2007) Evolutionary control of leaf element composition in plants. New Phytologist 174:516–523
Weil R, Magdoff F (2004) Significance of soil organic matter to soil quality and health. In: Magdoff F, Weil R (eds) Soil organic matter in sustainable agriculture. CRC Press, Boca Raton, pp 1–43
White PJ, Broadley MR (2009) Biofortification of crops with seven mineral elements often lacking in human diets – iron, zinc, copper, calcium, magnesium, selenium and iodine. New Phytologist 182:49–84
White PJ, Brown PH (2010) Plant nutrition for sustainable development and global health. Ann Bot 105:1073–1080. doi:10.1093/aob/mcq085
White PJ, Hammond JP (2008) Phosphorus nutrition of terrestrial plants. In: White PJ, Hammond JP (eds) The ecophysiology of plant–phosphorus interactions. Springer, Dordrecht, pp 51–81
WHO (2003) Diet, nutrition and the prevention of chronic diseases. WHO, Geneva
Wienhold BJ, Andrews SS, Karlen DL (2004) Soil quality: a review of the science and experiences in the USA. Environ Geochem Health 26:89–95
Wilkinson SR, Welch RM, Mayland HF, Grunes DL (1990) Magnesium in plants: uptake, distribution, function, and utilization by man and animals. Met Ions Biol Syst 26:33–56
Wood S, Sebastian K, Scherr SJ (2000) Pilot analysis of global ecosystems: agroecosystem. IFPRI/WRI, Washington, DC
World Bank (2004) Agriculture investment sourcebook. http://web.worldbank.org/. Accessed 25 Dec 2012
Wu Y, Ma B, Zhou L, Wang H, Xu J, Kemmitt S, Brookes PC (2009) Changes in the soil microbial community structure with latitude in eastern China, based on phospholipid fatty acid analysis. Appl Soil Ecol 43:234–240
Yadvinder-Singh, Bijay-Singh, Timsina J (2005) Crop residue management for nutrient cycling and improving soil productivity in rice-based cropping systems in the tropics. Adv Agron 85:269–407
Young IM, Ritz K (2005) The habitat of soil microbes. In: Bardgett RD, Usher MB, Hopkins DW (eds) Biological diversity and function in soils. Cambridge University Press, Cambridge, pp 31–43
Zhang B, Zhang Y, Chen D, White RE, Li Y (2004) A quantitative evaluation system of soil productivity for intensive agriculture in China. Geoderma 123:319–331
Zornoza R, Mataix-Solera J, Guerrero C, Arcenegui V, Mataix-Beneyto J, Gomez I (2008) Validating the effectiveness and sensitivity of two soil quality indices based on natural forest soils under Mediterranean conditions. Soil Biol Biochem 40:2079–2087
Zvomuya F, Janzen HH, Larney FJ, Olson BM (2008) A long-term field bioassay of soil quality indicators in a semiarid environment. SSSAJ 72(3):683–692
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The authors wish to acknowledge the Hungarian Ministry of Education and Culture (Hungarian Scholarship Board, HSB and the Balassi Institute) and the Egyptian Ministry of Higher Education (The Partnership and Ownership initiative, ParOwn grant) for funding and supporting this work.
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El-Ramady, H.R. et al. (2014). Soil Quality and Plant Nutrition. In: Ozier-Lafontaine, H., Lesueur-Jannoyer, M. (eds) Sustainable Agriculture Reviews 14. Sustainable Agriculture Reviews, vol 14. Springer, Cham. https://doi.org/10.1007/978-3-319-06016-3_11
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