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Short-term and long-term effects of vegetable, fruit and garden waste compost applications in an arable crop rotation in Flanders

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Abstract

Aims

Substantial amounts of VFG-compost are produced annually in Flanders. Our objective was to analyse the effects of VFG-compost applications in a common crop rotation.

Methods

Data from a long-term (1997 – present) field trial were analysed. Simulations with the RothC-model were performed to get a better insight into the dynamics of the underlying soil organic matter.

Results

VFG-compost applications (15 t.ha−1 3-yearly up to 45 t.ha−1 yearly) can replace a substantial part of the mineral nitrogen fertilisation. Nitrogen recovery rates ranged from 6 to 22 %. Plots fertilised according to the nitrogen advice had comparable yields, whether this advice had been provided (partially) through VFG-compost or not. Long-term VFG applications resulted in carbon accumulation in the top soil. The RothC-model gave a good prediction of the carbon change with low to moderate VFG applications, but tended to overestimate the carbon change with high applications. The simulation results indicated that the carbon accumulation was mainly due to an increase of the more resistant carbon fractions. In the long term, compost applications increased the nitrogen supplying capacity of the soil, as illustrated by the gradual increase of the mineral nitrogen stocks in spring over the years.

Conclusions

VFG-compost applications had a positive effect both on crop yields and soil organic matter. The RothC-model was used to simulate long-term effects, but its calibration should be improved for long-term compost applications.

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Abbreviations

VFG:

Vegetable fruit and garden waste

SOC:

Soil organic carbon

DPM:

Decomposable plant material

RPM:

Resistant plant material

BIO:

Microbial biomass

HUM:

Humified organic matter

CEC:

Cation exchange capacity

References

  • AFNOR (1985) Determination du carbone organique par oxydation sulfochromique. Technical specification AFNOR X31-109 november 1985

  • Anon. (2006) Decreet houdende de bescherming van water tegen de verontreiniging door nitraten uit agrarische bronnen. Decree concerning the protection of waters against the pollution by nitrates of agricultural sources. Belgisch Staatsblad 22 december 2006. This decree was adapted by the Decree of 6 mai 2011 (Decreet houdende wijziging van het Mestdecreet van 22 december 2006. Decree concerning the adaptation of the Manure Decree of 22 december 2006)

  • Anon. (2009) Ontwikkelen van een expertsysteem voor het adviseren van het koolstofbeheer in de landbouwbodems. Development of an expert system for advising of the carbon management in agricultural soils. Study conducted by the Soil Service of Belgium and Gent University assigned by the Flemish Government. 146 pp

  • Anon. (2011) Vlaco Activiteitenverslag 2010. Vlaco Activity Report 2010. Vlaco, Mechelen, Belgium. 52 pp (in Dutch)

  • Arthur E, Cornelis WM, Vermang J, De Rocker E (2011) Amending a loamy sand with three compost types: impact on soil quality. Soil Use Manage 27:116–123

    Article  Google Scholar 

  • Barral MT, Paradelo R, Moldes AB, Dominguez M, Diaz-Fierros F (2009) Utilization of MSW compost for organic matter conservation in agricultural soils of NW Spain. Resour Conserv Recy 53:529–534

    Article  Google Scholar 

  • BELAC (2011) Annex to the accreditation certificate BELAC nr. 127-TEST, Bodemkundige Dienst van België, version nr. 11. BELAC, Brussel, Belgium

    Google Scholar 

  • Boon W, Ver Elst P, Deckers S, Vogels N, Bries J, Vandendriessche H (2009) Wegwijs in de bodemvruchtbaarheid van de Belgische akkerbouw- en weilandpercelen (Guide to the soil fertility of Belgian arable and pasture land). Soil Service of Belgium, Heverlee, Belgium, p 149

    Google Scholar 

  • Delschen T (1999) Impacts of long-term application of organic fertiliser on soil quality parameters in reclaimed loess soils of the Rhineland lignite mining area. Plant Soil 213:43–54

    Article  CAS  Google Scholar 

  • EC (European Commission) (1991) Council directive 91/676/EEC of 12 December 1991 concerning the protection of waters against pollution caused by nitrates from agricultural sources. Official Journal L 375:1–8

    Google Scholar 

  • Emmerling C, Udelhoven T, Schneider R (2010) Long-lasting impact of biowaste-compost application in agriculture non soil-quality parameters in three different crop-rotation systems. J Plant Nutr Soil Sci 173:391–398

    Article  CAS  Google Scholar 

  • Erhart E, Hartl W, Putz B (2005) Biowaste compost affects yield, nitrogen supply during the vegetation period and crop quality of agricultural crops. Europ J Agronomy 23:305–314

    Article  Google Scholar 

  • Fabrizio A, Tambone T, Genevini P (2009) Effect of compost application rate on carbon degradation and retention in soils. Waste Manage 29:174–179

    Article  CAS  Google Scholar 

  • Fagnano M, Adamo P, Zampella M, Fiorentino N (2011) Environmental and agronomic impact of fertilization with composted organic fraction from municipal solid waste: A case study in the region of Naples, Italy. Agr Ecosyst Environ 141:100–107

    Article  Google Scholar 

  • Gerke HH, Arning M, Stöppler-Zimmer H (1999) Modeling long-term compost application effects on nitrate leaching. Plant Soil 213:75–92

    Article  CAS  Google Scholar 

  • Geypens M, Vandendriessche H, Bries J, Hendrickx G (1994) Experience with a nitrogen-index expert system: A powerful tool in nitrogen recommendation. Commun Soil Sci Plan 25:1223–1238

    Article  CAS  Google Scholar 

  • Heitkamp F, Raupp J, Ludwig B (2009) Impact of fertilizer type and rate on carbon and nitrogen pools in a Sandy Cambisol. Plant Soil 319:259–275

    Article  CAS  Google Scholar 

  • Herencia JF, Garcia-Galavis PA, Maqueda C (2011) Long-Term Effect of Organic and Mineral Fertilization on Soil Physical Properties Under Greenhouse and Outdoor Management Practices. Pedosphere 21(4):443–453

    Article  CAS  Google Scholar 

  • Jenkinson DS, Hart PBS, Rayner JH, Parry LC (1987) Modelling the turnover of organic matter in long-term experiments at Rothamsted. Intecol Bull 15:1–8

    Google Scholar 

  • Kader MA, Sleutel S, Begum SA, D’Haene K, Jegajeevagan K, De Neve S (2010) Soil organic matter fractionation as a tool for predicting nitrogen mineralization in silty arable soils. Soil Use Manage 26:494–507

    Article  Google Scholar 

  • Kvalseth TO (1985) Cautionary Note About R2. Am Stat 39(4):279–285

    Google Scholar 

  • Laudicina VA, Badalucco L, Palazzolo E (2011) Effects of compost input and tillage intensity on soil microbial biomass and activity under Mediterrranean conditions. Biol Fertil Soils 47:63–70

    Google Scholar 

  • Lillywhite RD, Dimambro ME, Rahn CR (2009) Effect of Five Municipal Waste Derived Composts on a Cereal Crop. Compost Sci Util 17(3):173–179

    Article  CAS  Google Scholar 

  • Ludwig B, Schulz E, Rethemeyer J, Merbach I, Flessa H (2007) Predictive modelling of C dynamics in the long-term fertilization experiment at Bad Lauchstädt with the Rothamsted Carbon Model. Eur J Soil Sci 58:1155–1163

    Google Scholar 

  • Nevens F, Reheul D (2003) The application of vegetable, fruit and garden waste (VFG) compost in addition to cattle slurry in a silage maize monoculture: nitrogen availability and use. Europ J Agronomy 19:189–203

    Article  Google Scholar 

  • Odlare M, Arthurson V, Pell M, Svensson K, Nehrenheim E, Abubaker J (2011) Land application of organic waste - Effects on the soil ecosystem. Appl Energ 88:2210–2218

    Article  Google Scholar 

  • Ozores-Hampton M, Stansly PA, Salame TP (2011) Soil Chemical, Physical, and Biological Properties of a Sandy Soil Subjected to Long-Term Organic Amendments. J Sustain Agr 35:243–259

    Article  Google Scholar 

  • Paterson E, Neilson R, Midwood AJ, Osborne SM, Sim A, Thornton B, Millard P (2011) Altered food web structure and C-flux pathways associated with mineralisation of organic amendments to agricultural soil. Appl Soil Ecol 48:107–116

    Article  Google Scholar 

  • Pedra F, Polo A, Ribeiro A, Domingues H (2007) Effects of municipal solid waste compost and sewage sludge on mineralization of soil organic matter. Soil Biol Biochem 39:1375–1382

    Article  CAS  Google Scholar 

  • Peel MC, Finlayson BL, McMahon TA (2007) Updated world map of the Köppen–Geiger climate classification. Hydrol Earth Syst Sci 11:1633–1644

    Article  Google Scholar 

  • Smith P, Smith JU, Powlson DS, McGill WB, Arah JRM, Chertov OG, Coleman K, Frank U, Frolking S, Jenkinson DS, Jensen LS, Kelly RH, Klein-Gunnewiek H, Komarow AS, Li C, Molina JAE, Mueller T, Parton WJ, Thornley JHM, Whitmore AP (1997) A comparison of the performance of nine soil organic matter models using datasets from seven long-term experiments. Geoderma 81:153–225

    Article  Google Scholar 

  • Sleutel S, De Neve S, Nemeth T, Toth T, Hofman G (2006) Effect of manure and fertilizer application on the distribution of organic carbon in different soil fractions in long-term field experiments. Eur J Agron Volume 25(3):280–288

    Article  Google Scholar 

  • Van Wesemael B, Lettens S, Roelandt C, Van Orshoven J (2005) Modelling the evolution of regional carbon stocks in Belgian cropland soils. Can J Soil Sci 85:511–521

    Article  Google Scholar 

  • Vandendriessche H, Bries J, Geypens M (1996) Experience with fertilizer expert systems for balanced fertilizer recommendations. Commun Soil Sci Plan 27:1199–1209

    Article  CAS  Google Scholar 

  • Vlaco (2011). Average composition of Vlaco-compost (Gemiddelde samenstelling van Vlaco-compost) http://www.vlaco.be/professionele-verwerking/eindproducten/gemiddelde-samenstelling. Accessed 28 october 2011 (in Dutch)

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Acknowledgements

The authors wish to acknowledge the financial support from the Province Vlaams Brabant and VLACO. They also thank Mr. De Hertogh for maintaining the field experiment over the years and Professor Roland N. Perry, Rothamsted Research, UK for the final revision of the manuscript.

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Correspondence to M. Tits.

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Responsible Editor: Peter Christie.

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Tits, M., Elsen, A., Bries, J. et al. Short-term and long-term effects of vegetable, fruit and garden waste compost applications in an arable crop rotation in Flanders. Plant Soil 376, 43–59 (2014). https://doi.org/10.1007/s11104-012-1318-0

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