Abstract
Silicon (Si) is known to help plants mitigate environmental stresses and nutrient deficits. In some regions, the limited plant-available Si in soils can have detrimental effects on yields. Crop residue recycling is used to maintain the amount of plant-available Si in soils. However, the effect of crop residue management practices on Si availability to plants remains largely understudied. Here, we study the effects of three different rice residue management practices on Si-depleted rice fields in northern Vietnam. These management practices were (1) the direct incorporation of rice residues into soils, (2) burning in the field, and (3) use as fodder for animals, followed by composting of the obtained manure, and subsequent application to the field. We analyzed different Si reservoirs in soils and the content of plant-Si under these different practices. Our results show correlations between plant Si content and the different soil Si reservoirs, in particular with Si trapped in soil organic material (SiOrg; R2 = 0.68, n = 18, p < 10–4). However, we found no significant difference between the three residue management practices with respect to plant-available Si in soils and to the content of plant-Si. Moreover, our data suggest that strongly Si-depleted rice-cultivation systems proportionally lose Si through grain harvesting twice as fast as less Si-depleted systems because of the enhanced relative Si accumulation in grain. This loss cannot be mitigated by the recycling of rice residues, which suggests that the recycling of rice residues has only a limited effect in extremely Si-depleted rice-cultivation systems.
Highlights
Rice is the world’s most important food crop
Owing to the gaps in knowledge pointed out above, the objectives of our study were to assess the effects of different rice residue management practices on (i) various soil Si pools in a Si-depleted system, (ii) Si uptake by rice plants and (iii) rice yields, through the management effects on Si plant-availability
We found no significant difference between the Si content of the above-ground plant biomass (SiPlant) under the different rice residue management practices (Table 1)
Summary
Rice is the world’s most important food crop. More than 750 million tonnes of rice are harvested annually from about 165 million hectares around the world (FAO 2018). Rice cultivation produces large amounts of straw, resulting on average in about five tonnes of crop residues per hectare of paddy rice annually (GSO 2017). These residues can be used as a readily available, cost-efficient, and domestically produced organic fertilizer and may be a partial substitute for chemical fertilizers in agriculture (Hoang et al 2014; Keck et al 2019; Tran and Hung 2010; Zhao et al 2009). A more efficient use of crop residues would allow Vietnam to reduce the import of chemical fertilizers (MARD 2018). It would increase farmers’ net income by reducing their expenses for chemical fertilizers (Baumann 2014; Bui 2008)
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