23 research outputs found
Contrasting sediment and water chemistry indicates the extent of the hyporheic zone in a polluted river system
The concentrations of zinc and cadmium were determined in the sediment cores sampled from the floodplain and the channel in the middle reach of the Biała Przemsza River valley (southern Poland). The results were compared to the river water and groundwater chemistry in order to reveal the average extent of the hyporheic flow. The loss of river waters through the river bed due to the natural migration modified by the drainage of the lead-zinc ore mine caused the strong pollution of the river bed sediments with heavy metals to the depth of almost three meters below the water table in the river. Moreover, the similar groundwater and river water chemistry at that depth suggests that the vertical extent of the hyporheic zone, which exceeds a depth of several meters below the channel, can be affected by the drainage of river waters by the lead-zinc mine. The lateral extent of the hyporheic flow, indicated by changes in groundwater chemistry and elevated heavy metal concentrations in the sediments, was of the order of dozen of meters. The investigation documents the large impact of the secondary in situ enrichment of sediments with heavy metals in the hyporheic zone
The use of tree age for estimating the rate of lateral migration of the Mala Panew River channel (Opole Plain)
Wykonano datowania wieku drzew porastających XX-wieczne paleokoryta i odsy-py meandrowe w górnym biegu Malej Panwi. Wiek najstarszych drzew posłużył do określenia mini-malnego czasu powstania tych form. Na podstawie znajomości wieku form i ich odległości od współ-czesnego brzegu rzeki obliczono minimalne tempo lateralnej migracji koryta
Response of Cladocera Fauna to Heavy Metal Pollution, Based on Sediments from Subsidence Ponds Downstream of a Mine Discharge (S. Poland)
Mining is recognized to deeply influence invertebrate assemblages in aquatic systems,
but di erent invertebrates respond in di erent ways to mining cessation. Here, we document the
response of the cladoceran assemblage of the Chechło river, S. Poland (southern Poland) to the
cessation of Pb-Zn ore mining. The aquatic system includes the river and associated subsidence
ponds in the valley. Some ponds were contaminated during the period of mining, which ceased in
2009, while one of the ponds only appeared after mining had stopped. We used Cladocera to reveal
how the cessation of mine water discharge reflected on the structure and density of organisms. A total
of 20 Cladocera taxa were identified in the sediment of subsidence ponds. Their density ranged
from 0 to 109 ind./1 cm3. The concentrations of Zn, Cd, Cu and Pb were much higher in sediments
of the ponds formed during peak mining than in the ponds formed after the closure of the mine.
Statistical analysis (CCA) showed that Alonella nana, Alona a nis, Alona sp. and Pleuroxus sp. strongly
correlated with pond age and did not tolerate high concentrations of heavy metals (Cu and Cd).
This analysis indicated that the rate of water exchange by the river flow and the presence of aquatic
plants, a ect species composition more than pond age itself
Genome instability in Chironomus annularius sensu Strenzke (Diptera, Chironomidae): A biomarker for assessment of the heavy metal contaminants in Poland
We studied the effect of heavy metal contaminations on genome instability of Chironomus annularius sensu Strenzke from three sampling sites on the River Chechło valley in southern Poland and a control site in Saraya, Bulgaria. The analysis of the heavy metal concentrations in sediments at the three river sites indicated concentrations higher than those in the fossil reference data (Zn 83-160 times, Pb 64-250 times, and Cd 210-793). According to the geoaccumulation index (Igeo), the sediments at all Chechło stations were classified as extremely polluted (Igeo class 6) by Cd, Pb and Zn while they were much less polluted by Cu (classes 1-3). The concentration of Cd, Pb and Zn in the sediments studied exceeded 21-79, 11-44 and 18-34 times the toxic effect threshold (TET) respectively; therefore, the sediments potentially have detrimental effects on the fauna. Genome instability was determined by somatic structural chromosome alterations (mainly heterozygous inversions) in the salivary gland chromosomes of C. annularius. On the basis of the number and frequency of these aberrations the somatic (S) and cytogenetic (C) indices were calculated as these indices allow a better quantification of the impact of heavy metals on organisms living in sediments. In the three Chechło sampling sites somatic aberrations occurred at a frequency significantly higher than in the control site (P<0.001). The three Chechło samples possess a high spectrum of somatic rearrangements with S index varying from 1.5 to 2.23 while in control site, S is 1.08. The C index of C. annularius from the polluted river sites varied from 0.163 to 0.380, far in excess of the C value of the control site (1.0), indicating strong pollution (<0.5) according to previous studies. In addition, a high level of inherited aberrations was detected (19 inherited band sequences, two of which were new). In all river stations the inverted homozygous band sequences A2.2 occurred in a high frequency (85%) and no standard sequences (A1.1) were observed. The transcription activity of Nucleolar Organizers (NORs) in chromosome arms A, C, E, G was often damaged and NOR activity was completely suppressed in 12.48% of larvae. Moreover, appearance of malformations in the external morphology of larvae was detected in 16.67% of larvae from all polluted sites. Therefore, the genome instability as estimated by two cytogenetic indices is a good biomarker of long-term toxicity and could be successfully implemented in the sediment monitoring procedures.
Neo- and Paleo-Limnological Studies on Diatom and Cladoceran Communities of Subsidence Ponds Affected by Mine Waters (S. Poland)
Plankton assemblages can be altered to di erent degrees by mining. Here, we test how
diatoms and cladocerans in ponds along a river in southern Poland respond to the cessation of the
long-term Pb-Zn mining. There are two groups of subsidence ponds in the river valley. One of them
(DOWN) was contaminated over a period of mining, which ceased in 2009, whereas the other (UP)
appeared after the mining had stopped. We used diatoms and cladocerans (complete organisms in
plankton and their remains in sediments) to reveal the influence of environmental change on the
structure and density of organisms. The water of UP pond was more contaminated by major ions
(SO4
2, Cl) and nutrients (NO3
, PO4
3) than the DOWN ponds. Inversely, concentrations of Zn,
Cd, Cu and Pb were significantly higher in sediment cores of DOWN ponds in comparison to those in
the UP pond. Ponds during mining had higher diversity of diatoms and cladocerans than the pond
formed after the mining had stopped. CCA showed that diatom and cladoceran communities related
most significantly to concentrations of Pb in sediment cores. Comparison of diatom and cladoceran
communities in plankton and sediment suggests significant recovery of assemblages in recent years
and reduction of the harmful e ect of mine-originating heavy metals. Some features of ponds such
as the rate of water exchange by river flow and the presence of water plants influenced plankton
communities more than the content of dissolved heavy metals