More than one million barriers fragment Europe’s rivers B Belletti, C Garcia de Leaniz, J Jones, S Bizzi, L Börger, G Segura, ... Nature 588 (7838), 436-441, 2020 | 464 | 2020 |
MesoHABSIM: A concept for application of instream flow models in river restoration planning P Parasiewicz Fisheries 26 (9), 6-13, 2001 | 264 | 2001 |
The MesoHABSIM model revisited P Parasiewicz River Research and Applications 23 (8), 893-903, 2007 | 212 | 2007 |
Physical habitat modelling for fish– P Parasiewicz, MJ Dunbar Arch. Hydrobiol. Suppl 1352 (4), 239-268, 2001 | 135 | 2001 |
The effect of managed hydropower peaking on the physical habitat, benthos and fish fauna in the River Bregenzerach in Austria P Parasiewicz, S Schmutz, O Moog Fisheries Management and Ecology 5 (5), 403-417, 1998 | 97 | 1998 |
Habitat modeling in high‐gradient streams: the mesoscale approach and application P Vezza, P Parasiewicz, M Spairani, C Comoglio Ecological Applications 24 (4), 844-861, 2014 | 92 | 2014 |
Temporal and spatial patterns of fish response to hydromorphological processes C Wolter, AD Buijse, P Parasiewicz River Research and Applications 32 (2), 190-201, 2016 | 78 | 2016 |
Modelling habitat requirements of bullhead (Cottus gobio) in Alpine streams P Vezza, P Parasiewicz, O Calles, M Spairani, C Comoglio Aquatic sciences 76, 1-15, 2014 | 60 | 2014 |
The effectiveness of two nature-like bypass channels in an upland Austrian river J Eberstaller, M Hinterhofer, P Parasiewicz Fish migration and fish bypasses, 363, 1998 | 60 | 1998 |
Using MesoHABSIM to develop reference habitat template and ecological management scenarios P Parasiewicz River Research and Applications 23 (8), 924-932, 2007 | 57 | 2007 |
Conceptual guidelines for nature-like bypass channels P Parasiewicz, J Eberstaller, S Weiss, S Schmutz Fish migration and fish bypasses, 348, 1998 | 57 | 1998 |
Applications of the MesoHABSIM simulation model P Parasiewicz, JN Rogers, P Vezza, J Gortázar, T Seager, M Pegg, ... Ecohydraulics: an integrated approach, 109-124, 2013 | 55 | 2013 |
Defining minimum environmental flows at regional scale: application of mesoscale habitat models and catchments classification P Vezza, P Parasiewicz, M Rosso, C Comoglio River research and applications 28 (6), 717-730, 2012 | 54 | 2012 |
Comparison of MesoHABSIM with two microhabitat models (PHABSIM and HARPHA) P Parasiewicz, JD Walker River Research and Applications 23 (8), 904-923, 2007 | 45 | 2007 |
Use of quantitative habitat models for establishing performance metrics in river restoration planning P Parasiewicz, K Ryan, P Vezza, C Comoglio, T Ballestero, JN Rogers Ecohydrology 6 (4), 668-678, 2013 | 43 | 2013 |
Multiplex modeling of physical habitat for endangered freshwater mussels P Parasiewicz, E Castelli, JN Rogers, E Plunkett Ecological Modelling 228, 66-75, 2012 | 43 | 2012 |
Upscaling: Integrating habitat model into river management P Parasiewicz Canadian Water Resources Journal 28 (2), 283-299, 2003 | 40 | 2003 |
Application of MesoHABSIM and target fish community approaches to restoration of the Quinebaug River, Connecticut and Massachusetts, USA P Parasiewicz River Research and Applications 24 (4), 459-471, 2008 | 39 | 2008 |
Manuale tecnico-operativo per la modellazione e la valutazione dell’integrità dell’habitat fluviale P Vezza, A Zanin, P Parasiewicz ISPRA 154, 1-102, 2017 | 38 | 2017 |
Habitat time series analysis to define flow augmentation strategy for the Quinebaug River, Connecticut and Massachusetts, USA P Parasiewicz River research and applications 24 (4), 439-452, 2008 | 38 | 2008 |