Health & Environmental Research Online (HERO)


Print Feedback Export to File
8027013 
Journal Article 
Impact of Incision of Gravel-bed Rivers on Ground Beetle Assemblages 
Skalski, T; Kedzior, R; Wyzga, B; Radecki-Pawlik, A; Plesinski, K; Zawiejska, J 
2016 
River Research and Applications
ISSN: 1535-1459
EISSN: 1535-1467 
32 
1968-1977 
WOS:000387336800013 
The impact of river incision induced by channelization and gravel mining on the structure of ground beetle assemblages in riparian habitats was investigated on three montane rivers in southern Poland. Ground beetles were collected on three benches of different elevation in 11 incised and 14 vertically stable cross sections of the rivers. In total, 5821 individuals representing 106 species were collected. The effect of river incision on the diversity and abundance of ground beetles depended on bench height. Only on the lowest bench, inundated about once per year on average, species richness of the assemblages was significantly reduced in incised river cross sections. On this bench, the abundance of the specialists of exposed riverine sediments, i.e. small and medium-sized predators with high dispersal power and spring breeding strategy, was highly negatively affected by river incision. On the highest bench, large, brachypterous species with spring and autumn breeding strategy, typical of undisturbed habitats, were more abundant in incised cross sections. As this bench is practically not subjected to flooding even in vertically stable cross sections, these species probably benefited from the occurrence of riparian forest along most incised river sections, whereas the riparian areas along vertically stable sections are subjected to higher agricultural pressure. This study shows that in the mountain region where high precipitation helps to maintain moisture of the riparian habitats, river incision has a negative impact only on the specialists of exposed riverine sediments. Copyright (c) 2016 John Wiley & Sons, Ltd. 
ground beetles; riparian habitats; river incision; life traits; species diversity