Blanchart Eric, Ratsiatosika O., Raveloson H., Razafimbelo T., Razafindrakoto M., Sester M., Becquer Thierry, Bernard Laetitia, Trap Jean. (2020). Nitrogen supply reduces the earthworm-silicon control on rice blast disease in a Ferralsol. Applied Soil Ecology, 145, 103341 [8 p.]. ISSN 0929-1393.
Titre du document
Nitrogen supply reduces the earthworm-silicon control on rice blast disease in a Ferralsol
Année de publication
2020
Auteurs
Blanchart Eric, Ratsiatosika O., Raveloson H., Razafimbelo T., Razafindrakoto M., Sester M., Becquer Thierry, Bernard Laetitia, Trap Jean
Source
Applied Soil Ecology, 2020,
145, 103341 [8 p.] ISSN 0929-1393
Revealing belowground-aboveground relationships (BAR) is essential to drive ecological processes to address agriculture dysfunctions, especially in the management of aboveground plant diseases. Earthworms are one of the most important soil organisms involved in BAR, and silicon (Si) has been identified as a crucial element regulating aboveground plant health. How earthworm-Si interactions induce BAR in poor- and rich-nutrient soil contexts is still poorly understood, despite a growing interest in agricultural sustainability. We investigated the potential of BAR induced by the earthworm-silicon interaction to control the severity of rice blast disease in a Ferralsol in Madagascar, with or without NPK fertilization. We conducted a greenhouse microcosm experiment in which we manipulated the presence of the endogeic earthworm Pontoscolex corethrurus and the fungus Pyricularia oryzae in a Ferralsol supplied or not with Si and fertilized with macronutrients (nitrogen, phosphorus and potassium, i.e., NPK). After eight weeks of growth, plant biomass, nutrition and disease severity were measured. Our results validated the hypothesis that a dual treatment of earthworm inoculation and Si fertilization in a nutrient-poor tropical soil confers a higher tolerance of rainfed rice to P. oryzae, in comparison with treatments with only earthworms or Si, providing the optimal agronomic balance between a gain in biomass (and nutrition) and a reduction in disease severity. The supply of macronutrients altered this positive BAR by favouring the phenomenon of N-induced susceptibility. The aboveground plant C:N ratio of 15 is a threshold below which any increase in N per C unit likely enhances blast disease. The role of belowground interactions to counteract agricultural dysfunctions is supported by our study. To accomplish ecological intensification and provision of ecosystem services such as disease regulation, our findings recommend replacing excessive use of macronutrient fertilizer with sustained agricultural practices promoting the development of earthworm populations, such as organic matter inputs, superficial or no tillage, and the use of cover crops or conservation agriculture.
Plan de classement
Pédologie [068]
;
Biologie du sol [074]
;
Sciences du monde végétal [076]
Description Géographique
MADAGASCAR
Localisation
Fonds IRD [F B010077300]
Identifiant IRD
fdi:010077300
