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Soil physical fertility: thesis project for water-soil-plant model improvement

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Soil physical fertility: thesis project for water-soil-plant model improvement

E. Beckers

1

* and A. Degré

1

1 Hydrology and Agricultural Eng., Environmental Science and Technology Department, Gembloux Agricultural University, 2 Passage des Déportés, 5030 Gembloux, Belgium (mail:beckers.e@fsagx.ac.be)

Introduction

Quantities of nutrients like N, P and K in the soil are generally assumed to be the more important parameters of its fertility. Mineral fertilization - notably through the application of inorganic fertilizers - provides required nutrients quantities for the optimum plant growth. The physical fertility of the soil such as water holding capacity, porosity, bulk density, hydraulic conductivity…, which creates suitable environment for the availability and uptake of these nutrients, is often ignored [Rasool et al., 2007].

The present thesis project purposes the development of a physically-based model linking agricultural practices (fertilization, tillage) and changes of soil physical properties related to water, soil and plants interactions and their effects on soil hydrology.

Material and methods

Laboratory studies

Amendment and climatic scenarios will be tested in laboratory on a soil column (or similar -) system to define impacts on soil physical propertie’s evolution through fertilization, and, even more, differently through the way of fertilization (organic or inorganic). Especially, Bulluck

et al. [2002] and Caravaca et al. [2002] observed that bulk

density decreases with compost amendment. Rasool

et al. [2007], for their part, have

revealed that water holding capacity and total porosity both increased with the application of farm yard manure and inorganic fertilizers, this enhancement being even more important in the case of the farm yard manure.

Field experiment

In situ measurements will be realised to compare tillage and no tillage’s effects on soil properties such as infiltration rate, retention curve or hydraulic conductivity. Validation of the model will be considered with this field experiment.

Model establishment

The model will be integrated in a pre-existing program with a physically-based code for simulating water, heat and solute

movement in a variably saturated soil column.

Hysteresis in the retention curve and in the hydraulic conductivity will be taken into account in the model. Regional watershed model transfer

Finally, the model will be adapted and transferred for a regional

watershed operational model use.

Conclusion

If chemical fertility and related physico-chemical phenomena are already well known and described, the evolution of the soil physical properties needs further investigation for an improvement of water – soil – plant model establishment [Pernes-Debuyser and Tessier, 2004]. The aim of this project is to develop a physically-based model linking agricultural practices and changes of soil physical properties and to validate it with laboratory and in situ measurements.

References:

Abiven S. [2004]. Relations entre caractéristiques des matières organiques apportées, dynamique de leur décomposition et évolution de la stabilité structurale du sol. Thèse de doctorat, Ecole Nationale Supérieure d'Agronomie de Rennes, 262 p.

Bulluck L.R., Brosius M., Evanylo G.K., Ristaino J.B. [2002]. Organic and synthetic fertility amendments influence soil microbial, physical and chemical properties on organic and conventional farms.

Applied Soil Ecology 19, 147–160.

Caravaca F., Barea J.M., Figueroa D., Roldán A., [2002]. Assessing the effectiveness of mycorrhizal inoculation and soil compost addition for enhancing reafforestation with Olea europaea subsp.

sylvestris through changes in soil biological and physical parameters. Applied Soil Ecology saint-martin 20, 107–118.

Pernes-Debuyser A., Tessier D. [2004]. Soil physical properties affected by long-term fertilization. European Journal of Soil Science 55, 505–512.

Rasool R., Kukal S.S., Hira G.S. [2007]. Soil physical fertility and crop performance as affected by long term application of FYM and inorganic fertilizers in rice–wheat system. Soil and Tillage Research 96, 64-72.

Šimůnek J., van Genuchten R., 2005. The HYDRUS-1D Software Package for Simulating the One-Dimensional Movement of Water, Heat, and Multiple Solutes in Variably-Saturated Media. Department of Environmental Sciences, University of California Riverside, Riverside, California, USA, 270p.

Source : Degré A., 2007

Source : Epic Grid, UHA-FUSAGx Source : Baes D., 2003

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