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Increase in microbial biomass and phosphorus availability in the rhizosphere of intercropped cereal and legumes under field conditions

Tang Xiaoyang, Bernard Laetitia, Brauman Alain, Daufresne Tanguy, Deleporte Philippe, Desclaux Dominique, Souche Gérard, Placella Sarah A., Hinsinger Philippe. 2014. Increase in microbial biomass and phosphorus availability in the rhizosphere of intercropped cereal and legumes under field conditions. Soil Biology and Biochemistry, 75 : 86-93.

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Quartile : Q1, Sujet : SOIL SCIENCE

Résumé : Facilitation of plant growth and phosphorus (P) acquisition has recently been reported in cereal-legume intercropping systems. The aim of this study was to test the hypothesis that intercropping could promote P cycling, through microbial biomass P (MBP) changes, in a field trial in a Mediterranean climate. Changes in microbial biomass carbon (MBC), MBP, and inorganic P availability in the rhizosphere of intercropped species were thus investigated in durum wheat/chickpea and durum wheat/lentil intercrops and compared to the bulk soils as well as the rhizosphere of each species grown alone. When expressed relative to the bulk soil, MBC increased in the rhizosphere only for the intercropped plants, irrespective of species. Relative to MBC in the rhizosphere of sole crops, MBC increased in the rhizosphere of the two legume species when intercropped with durum wheat, while no such effect was found for durum wheat. We were unable to detect an increase in P availability in the rhizosphere as a response to intercropping in any of the three crop species, but there was a systematic increase in available P in the rhizosphere relative to the corresponding bulk soil. Fairly similar patterns were observed for MBP as for MBC, except within the rhizosphere of durum wheat when intercropped with chickpea: relative to the bulk soil, MBP increased in the rhizosphere of both lentil and chickpea when intercropped with durum wheat as well as in the rhizosphere of durum wheat when intercropped with chickpea. The differences in microbial biomass changes for a given cereal (durum wheat) when intercropped with two different legumes, suggest that plants have strong species-specific influences on each other as well as on the soil environment. The molar ratios of MBC to MBP (MM C:P) did not vary significantly except for the rhizosphere of durum wheat intercropped with chickpea, which was fairly low (16:1), about half the values found in the other treatments (26-40:1). These MM C:P values were lower than those generally reported in soils (38-60:1), verifying the hypothesis that microbes can increase storage of soil P in their biomass, creating stocks of microbial P in the soil when P availability is high. In this Mediterranean climate where surface soils undergo frequent drying-rewetting, known for liberation of microbial biomass, MBP could be an important factor influencing P availability. Together, our data demonstrate the importance of intercropping to soil P cycling and highlight the need to examine the rhizosphere of each intercropped species to truly understand how the soil P resource is shared in such agroecosystems.

Mots-clés géographiques Agrovoc : Languedoc-Roussillon, France

Classification Agris : F08 - Systèmes et modes de culture
F62 - Physiologie végétale - Croissance et développement
P34 - Biologie du sol

Champ stratégique Cirad : Axe 1 (2014-2018) - Agriculture écologiquement intensive

Auteurs et affiliations

  • Tang Xiaoyang, Tsinghua University (CHN)
  • Bernard Laetitia, IRD (FRA)
  • Brauman Alain, IRD (FRA)
  • Daufresne Tanguy, INRA (FRA)
  • Deleporte Philippe, CIRAD-PERSYST-UMR Eco&Sols (FRA)
  • Desclaux Dominique, INRA (FRA)
  • Souche Gérard, INRA (FRA)
  • Placella Sarah A., INRA (FRA)
  • Hinsinger Philippe, INRA (FRA)

Source : Cirad - Agritrop (https://agritrop.cirad.fr/573289/)

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