Abstract
The study was based on saline soils with surface mineral layers impacted by the waste produced by the soda plant in Poland. The activity of selected enzymes (catalase CAT, alkaline AlP, and acid phosphatase AcP), pH in KCl, content of the clay, total organic carbon (TOC), total nitrogen (TN), total exchangeable bases (TEB), electrical conductivity (ECe), CaCO3, and concentration of available phosphorus AP were investigated in the soil next to the soda plant. Based on the enzyme activity, the following were calculated: enzymatic pH indicator AlP/AcP, the resistance index (RS), resilience index (RL), relative changes (RCh), and the time index (TI). The soil was sampled from the mineral horizon in spring and autumn from eight (S1–S8) soil sampling sites in the area of the soda plant and from the control point (C). Soil is characterized by alkaline reaction. Statistical analysis (ANOVA, η2 effect size) showed significant variation in parameters under the influence of different sites next to soda plant. The content of TOC ranged from 4.70 to 47.7 g kg−1, and TN from 19 to 4.36 g kg−1. ECe next to the soda plant ranged between 6.87 and 204 mS cm−1. The highest values were confirmed in the soil of S1 both in spring and autumn. Higher TEB values were noted in the soil in autumn. In the soil within the impact of the soda plant, the AP content decreased and in the soil from sites S1, S3, S6, and S8 (in spring), the lowest AP content was recorded at 1.20, 4.14, 5.98, and 0.99 mg kg−1, respectively. The highest activity of AlP in spring was noted at site S1 and in autumn at site S4. In the soil next to the soda plant, the activity of AcP decreased, as compared to the control which is seen from the negative values of the coefficient of relative changes (RCh). The analysis of RCh in the catalase activities showed that in the soil from sites S1, S2, S3, S4, and S5, the activity increased, as compared to the control. The lowest values of the resistance index (RS) for phosphatases were reported in the soil of S6. Research shows that the activity of enzymes and their indexes make it possible to conduct long-term monitoring and identify the processes in soil.
Highlights
Soil salinity is one of the major causes of environmental degradation and human health deterioration [1]
Multivariate characterization (PCA: principal component analysis) was applied using data for soil CAT, alkaline phosphatase [E.C. 3.1.3.1] (AlP), and acid phosphatase [E.C. 3.1.3.2] (AcP) activities, in addition to the clay, pH, ECe, total exchangeable bases (TEB), content of CaCO3, total organic carbon (TOC), total nitrogen (TN), and available phosphorus (AP) to analyze the relationships between the variables observed
The content of significant available differences phosphorus varied significantly depending on the soil autumn, there were no found in the TEB in the soils sampled from pling site.S8.The highest accumulation was recorded for the control
Summary
Soil salinity is one of the major causes of environmental degradation and human health deterioration [1]. The properties of salt-affected soil by the soda plant are very different from the naturally salinated soil [9]. S.A. changes the soil chemical and physical properties as well as the biological activity in the soil, reducing the total organic carbon, available phosphorus, and lowering the activity of some enzymes. Our objective was to study the alkaline, acid phosphatase, an catalase activity, in addition to the total organic carbon, total nitrogen, and available pho catalase activity, in addition to the total organic carbon, total nitrogen, and available phos phorus concentration in soils in the territories adjacent to the soda plant. The study was to assess whether in changed soil conditions, the enzymatic activities retain typical relationships with selected physical and chemical soil properties
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
