Abstract
The construction of hydroelectric power plants (HPP) may result in environmental problems, such as extensive areas of exposed subsoil and conditions of extreme degradation. These areas require alternative that minimize impact and allow partial recovery of their ecosystem functions and vegetation. This study aimed to evaluate the effects of residue addition (organic/macrophytes - OR and inorganic/ash - AR), hydrogel, and inoculation of microorganisms in degraded soil, cultivated with Jatropha curcas, through fertility and microbial activity. A conserved Cerrado (“savannah”) soil was the source of microorganisms - mainly mycorrhizal fungi. The experiment was conducted for 12 months (during 2010/2011) at the farm of UNESP-School of Engineering/Campus of Ilha Solteira, Selviria-MS, Brazil, installed in an area where the soil was degraded during the HPP construction, in the 1960s. The experimental design was complete randomized blocks, using a 2×2×4 factorial scheme, i.e., two inoculation treatments (with and without), two hydrogel treatments (with and without), and four residue treatments to introduce the J. curcas (OR, AR, OR + AR, and control without residues), with four replicates and five plants evaluated per replicate. The soil fertility analyses, quantification of microbial biomass carbon (MBC), and released C as CO2 (CO2-C), microbial quotient (qMic), and metabolic quotient (qCO2) were carried out 12 months after planting. The fertility positively responded to the addition of OR and OR + AR, with an increase in pH and SB and reduction in Al and H + Al. The inoculation of soil microorganisms associated with OR and OR + AR residue treatments raised the released CO2-C, MBC, and qMic. The addition of hydrogel combined with OR treatment contributed to the increase in the values of MBC and qMic.
Highlights
Engineering works, such as the construction of hydroelectric power plants (HPP) and mining areas, cause subsoil exposure
Considering the importance of microorganisms, residue availability in the region, and necessity of recovering degraded soils, this study aimed to evaluate the effects of adding organic and inorganic residues, hydrogel, and microorganisms— inoculated into the degraded soil cultivated with Jatropha—through soil fertility and microbial activity
After 12 months, the treatments with inoculation (INC) had increased levels of released CO2-C and microbial biomass carbon (MBC). These observations were accompanied by quocientes microbiano (qMic) but not qCO2, apart from the lower levels of P and sum of bases (SB) (Table 1)
Summary
Engineering works, such as the construction of hydroelectric power plants (HPP) and mining areas, cause subsoil exposure This subsequently decreases the resilience of the soil surface, making it difficult to restore vegetation owing to the loss of ecosystem functions (ADHIKARI; HARTEMINK, 2016; LI et al, 2013). In the northeast of São Paulo state, the construction of the Ilha Solteira HPP in the 1960s left extensively degraded areas similar to those described (RODRIGUES et al, 2007). This level of degradation leads to edaphic conditions in which the soil is greatly altered relative to the original soil, hindering the recovery and restoration of the vegetation (ODELL; CLASSEN, 2011). It has agricultural use in arid and semi-arid areas for biodiesel production and protect the soil by reducing the erosive processes (PANDEYA et al, 2012)
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