Methodological approach for farm typology construction in terms of soil health the EU case

Authors

  • Dimitre Nikolov New Bulgarian University – Sofia, Bulgaria Author
  • Jose A. Gómez CSIC, Spain Author
  • Csilla Hudek University of Lancaster, UK Author
  • Zsofia Bakacsi Agrartudomanyi Kutatokozpont, Hungary Author
  • Peter Strauss BOKU Vienna, Austria Author
  • Gunther Carl Liebhard Liebhard BOKU Vienna, Austria Author
  • Tomas Dostal Institute of Soil and Water Conservation (ISWC), Chinese Academy of Sciences Author
  • Josef Krasa Czech Technical University, Czech Republic Author
  • Laura Zavattaro Università degli STUDi di Torino, Италия Author
  • Xiaoping Zhang Institute of Soil and Water Conservation (ISWC), Chinese Academy of Sciences Author
  • Magardich Huliyan National Agricultural Advisory Service – Sofia, Bulgaria Author
  • Martin Banov Agricultural Academy – Sofia, Bulgaria Author
  • Ekatherina Tzvetanova New Bulgarian University – Sofia, Bulgaria Author
  • Krasimir Kostenarov New Bulgarian University – Sofia, Bulgaria Author
  • Ivan Boevsky New Bulgarian University – Sofia, Bulgaria Author
  • Jundi Liu Northwest A&F University, China Author

Keywords:

cereal-based rotation, crops, tree crops, farm typology, grassland, soil health

Abstract

Soil health is a significant problem in agriculture which demands a tailor-made approach. The study aims to develop a methodological approach for farm typology construction in terms of soil health. TUdi project, under which was made this study, aims to transform unsustainable management of soils in key cropping systems in Europe and China, developing an integrated platform of alternatives to reverse soil degradation. Thus, the focus is on small, medium, and large EU farms, which produce in the three key cropping systems – grassland, cereal-based rotation, and tree crops. It was applied principal component analysis based on which it was constructed four factors, related to soil health. The results from this analysis was used to feed up the cluster analysis together with other significant variables. The developed farm typology consists of four farm types. From practical point of view was introduced a methodology which allow to determine the type of each farm according the TUdi typology.

References

Anderberg, M. (1973). Cluster Analysis for Applications, Elsevier Inc., ISBN: 978-0-12-057650-0.

Bidogeza, J. C., Berentsen, P. B. M., De Graaff, J., & Oude Lansink, A. G. J. M. (2009). A typology of farm households for the Umutara Province in Rwanda. Food Security, 1(3), 321-335.

Ding, Ch. & He, X. (2004). Cluster Structure of Kmeans Clustering via Principal Component Analysis. Proc 8th Pacific-Asia conf on advances in knowledge discovery data mining (PAKDD. 414-418. 10.1007/978-3-540-24775-3_50.

Ellis, F. (1993). Peasant Economics: Farm Households and Agrarian Development, 2nd edn. Cambridge University Press, Cambridge.

Field, A. (2009). Discovering Statistics Using Spss For Windows, 3td ed. Sage, London.

Ganpat, W., & Bekele, I. (2001, April). Looking for the trees in the forest: farm typology as a useful tool in defining targets for extension. In Emerging Trends in Agricultural and Extension Education (JR Lindner, ed.), Proceedings of the 17th Annual Conference of the Association for International Agricultural and Extension Education (pp. 4-7).

Goswami, R., Chatterjee, S., & Prasad, B. (2014). Farm types and their economic characterization in complex agro-ecosystems for informed extension intervention: study from coastal West Bengal, India. Agricultural and Food Economics, 2(1), 1-24.

Jain, A. (2010). Data clustering: 50 years beyond K-means. Pattern Recognition Letters, 31(8), 651–666. https://doi.org/10.1016/J.PATREC.2009.09.011.

King, R. (2015). Cluster Analysis and Data Mining : An Introduction. Dulles, Virginia: Mercury Learning & Information.

Kuivanen, K. S., Michalscheck, M., Descheemaeker, K., Adjei-Nsiah, S., Mellon-Bedi, S., Groot, J. C., & Alvarez, S. (2016). A comparison of statistical and participatory clustering of smallholder farming systems–A case study in Northern Ghana. Journal of rural studies, 45, 184-198.

Ojiem, J. O., De Ridder, N., Vanlauwe, B., & Giller, K. E. (2006). Socio-ecological niche: a conceptual framework for integration of legumes in smallholder farming systems. International Journal of Agricultural Sustainability, 4(1), 79-93.

Pearson, K. (1901). On lines and planes of closest fit to systems of points in space. Philosophical Magazine, 2, 559-572.

Senthilkumar, K., Bindraban, P. S., de Boer, W., De Ridder, N., Thiyagarajan, T. M., & Giller, K. E. (2009). Characterising rice-based farming systems to identify opportunities for adopting water efficient cultivation methods in Tamil Nadu, India. Agricultural Water Management, 96(12), 1851-1860.

Soule, M. J. (2001). Soil management and the farm typology: Do small family farms manage soil and nutrient resources differently than large family farms?. Agricultural and Resource Economics Review, 30(2), 179-188.

Tittonell, P. A. B. L. O., Leffelaar, P. A., Vanlauwe, B., Van Wijk, M. T., & Giller, K. E. (2006). Exploring diversity of crop and soil management within smallholder African farms: A dynamic model for simulation of N balances and use efficiencies at field scale. Agricultural Systems, 91(1-2), 71-101.

Tittonell, P. A. B. L. O., Vanlauwe, B., de Ridder, N., & Giller, K. E. (2007). Heterogeneity of crop productivity and resource use efficiency within smallholder Kenyan farms: Soil fertility gradients or management intensity gradients?. Agricultural systems, 94(2), 376-390.

Vanclay, J. K. (2005). Using a typology of treegrowers to guide forestry extension. Annals of Tropical Research, 27(1), 97-103.

Williams, T. O. (1994). Identifying target groups for livestock improvement research: The classification of sedentary livestock producers in western Niger. Agricultural Systems, 46(2), 227-237.

Eurostat, (2018c). Farms and Farmland in the European Union – Statistics. Available at: https://ec.europa. eu/eurostat/statistics-explained/index.php?title=Farms_and_farmland_in_the_European_Union_-_statistics.

The_evolution_of_farms_and_farmland_from_2005_to_2016.

EC, (2021a). Agricultural production – crops, Eurostat, November 2021.

Downloads

Published

30.12.2022

Issue

Vol. 67 No. 4 (2022): Bulgarian Journal of Agricultural Economics and Management

Section

Management and Efficiency

License

Copyright (c) 2025 Bulgarian Journal of Agricultural Economics and Management

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

How to Cite

Methodological approach for farm typology construction in terms of soil health the EU case. (2022). Bulgarian Journal of Agricultural Economics and Management, 67(4), 12-24. https://agriacad.eu/ojs/index.php/bjaem/article/view/2772