Trend Analysis of Water Quality Parameters in the Middle Part of the Danube Flow in Serbia

Author:

Salvai Andrea1ORCID,Grabic Jasna1ORCID,Josimov-Dundjerski Jasmina1ORCID,Zemunac Rados1ORCID,Antonic Nenad1ORCID,Savic Radovan1ORCID,Blagojevic Bosko1ORCID

Affiliation:

1. Faculty of Agriculture , University of Novi Sad , Trg D. Obradovica 8 , Novi Sad , Serbia , phone 00381214853408, fax 0038121455713

Abstract

Abstract The Danube River plays significant role not only for preserving natural ecosystems. The aim of this paper is to examine the Middle Danube water quality in the part flowing through Serbia in section Bezdan -Banatska Palanka. Water quality data were examined for seven control points for period 2004-2018, for seven parameters: suspended solids (SS), dissolved oxygen (DO), electrical conductivity (EC), nitrates (NO3 -N), total phosphorus (Ptot), biochemical oxygen demand (BOD5) and chemical oxygen demand (COD). Data analyses included the application of ANOVA, linear regression analysis and Mann-Kendall trend test. The Mann-Kendall tests in most (32/49) cases, i.e. in 65 %, confirmed the non-existence of a significant trend. Significant downward trends were confirmed in 17 cases. Water quality improvement was confirmed at following control points: Bezdan for NO3 -N, Ptot and BOD5; Bogojevo for NO3 -N, Ptot, COD and BOD5; Novi Sad for Ptot, BOD5 and COD; Slankamen for BOD5 and COD; Smederevo for NO3 -N and COD; Banatska Palanka for NO3 -N. Slight deterioration of water quality was confirmed only in two cases, at the Zemun and Smederevo where DO was decreasing. Water quality for the examined period was stable and can be characterised as excellent and/or very good (class I or class II). Results emphasise fact that water quality trends monitoring reveals river sectors where the process of water quality degradation is ongoing. Timely detected critical river sectors can draw the attention of decision-makers, who can improve the existing legislation that would lead to water quality improvement.

Publisher

Walter de Gruyter GmbH

Subject

General Chemical Engineering

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