Abstract
The responses of river macroinvertebrates to hydromorphological alteration are often considered weak or unclear. It is therefore crucial to verify if and how existing invertebrate-based approaches can reveal the effects of hydromorphological modification. We analyzed the responses of benthic metrics to morphological impairment, with emphasis on the STAR_ICM index, legally required for macroinvertebrate-based ecological status assessment in Italy. A Principal Component Analysis (PCA) was run to condense information on morphological impairment. The major gradient (Component 1) expressed a combination of bank and channel modifications opposed to tree-related features indicating the presence of comparatively unmodified habitats. Jointly, habitat descriptors including Habitat Modification Score (HMS) derived from the application of a habitat survey method were calculated. Spearman rank correlations between biological metrics and morphological impairment indicators (PCA scores and HMS) were significant. A linear mixed-effects regression approach was applied to relate HMS and STAR_ICMi across a wide geographical context. HMS explained > 60% of STAR_ICMi variability, in the absence of apparent water pollution. Results demonstrated that morphological information resumed with habitat survey methods is meaningful for the biological community and that HMS can support the interpretation of ecological status across rivers’ types and in different environmental settings.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
ARPAC, 2003. 2a Relazione sullo Stato dell'Ambiente in Campania - Capitolo Acque superficiali e sotterranee [available on internet at https://www.arpacampania.it/web/guest/340]. Accessed on November 2018
ARPAS, 2014. Annuario dati ambientali Sardegna 2014 [available on internet at https://www.sardegnaambiente.it/arpas/]. Accessed on November 2018
Balestrini, R., M. Cazzola & A. Buffagni, 2004. Characterizing hydromorphological features of selected Italian rivers: a comparative application of environmental indices. Hydrobiologia 516: 365–379.
Balestrini, R., C. A. Delconte, M. T. Palumbo, & A. Buffagni, 2018. Biotic control of in-stream nutrient retention in nitrogen-rich springs (Po Valley, Northern Italy). Ecological Engineering 122:303–314.
Barquín, J. & F. Martínez-Capel, 2011. Preface: Assessment of physical habitat characteristics in rivers, implications for river ecology and management. Limnetica 30: 159–168.
Bartoń, K., 2018. MuMIn: Multi-Model Inference. R Package Version 1.40.0 [available on internet at https://CRAN.R-project.org/package=MuMIn]. Accessed on November 2019
Bates, D., M. Maechler, B. Bolker & S. Walker, 2017. Lme4: Linear Mixed-Effects Models Using ‘Eigen’ and S4. R package Version 1.1–14 [available on internet at https://lme4.r-forge.r-project.org/]. Accessed on November 2019
Belletti, B., M. Rinaldi, D. Buijse, A. M. Gurnell & E. Mosselmanet, 2015. A review of assessment methods for river hydromorphology. Environmental Earth Sciences 73: 2079–2100.
Belmar, O., D. Bruno, F. Martínez-Capel, J. Barquín & J. Velasco, 2013. Effects of flow regime alteration on fluvial habitats and riparian quality in a semiarid Mediterranean region. Ecological Indicators 30: 52–64.
Belmar, O., D. Bruno, S. Guareschi, A. Mellado-Díaz, A. Millán & J. Velasco, 2019. Functional responses of aquatic macroinvertebrates to flow regulation are shaped by natural flow intermittence in Mediterranean streams. Freshwater Biology 64: 1064–1077.
Boon, P. J., N. T. Holmes & P. J. Raven, 2010. Developing standard approaches for recording and assessing river hydromorphology: the role of the European Committee for Standardization (CEN). Aquatic Conservation: Marine and Freshwater Ecosystems 20: S55–S61.
Boon, P. J., C. Argillier, A. Boggero, M. Ciampittiello, J. England, M. Peterlin, S. Radulović, J. Rowan, H. Soszka & G. Urbanič, 2019. Developing a standard approach for assessing the hydromorphology of lakes in Europe. Aquatic Conservation: Marine and Freshwater Ecosystems 29: 655–669.
Brierley, G., H. Reid, K. Fryirs & N. Trahan, 2010. What are we monitoring and why? Using geomorphic principles to frame eco-hydrological assessments of river condition. Science of the Total Environment 408: 2025–2033.
Bruno, D., O. Belmar, D. Sánchez-Fernández, S. Guareschi, A. Millán A. & J. Velasco, 2014. Responses of Mediterranean aquatic and riparian communities to human pressures at different spatial scales. Ecological Indicators 45: 456–464.
Buffagni, A. & J. L. Kemp, 2002. Looking beyond the shores of the United Kingdom: addenda for the application of River Habitat Survey in South European rivers. Journal of Limnology 61: 199–214.
Buffagni, A. & C. Belfiore, 2013. MacrOper.ICM software ver 1.0.5. Classificazione dei fiumi italiani per laWFD sulla base dei macroinvertebrati bentonici. CNR-IRSA & UniTuscia- DEB, Roma, Italia (April 2015). (In Italian).
Buffagni, A., S. Erba, M. Cazzola & J. L. Kemp, 2004. The AQEM multimetric system for the southern Italian Apennines: assessing the impact of water quality and habitat degradation on pool macroinvertebrates in Mediterranean rivers. Hydrobiologia 516: 313–329.
Buffagni, A., S. Erba, M. Cazzola, J. Murray-Bligh, H. Soszka & P. Genoni, 2006. The STAR Inter-calibration Common metrics approach to the WFD Inter-calibration Process: a full application across Europe for small, lowland rivers. Hydrobiologia 566: 379–399.
Buffagni, A., S. Erba & M. T. Furse, 2007. A simple procedure to harmonize class boundaries of assessment systems at the pan-European scale. Environmental Science and Policy 10: 709–724.
Buffagni, A., S. Erba & D. G. Armanini, 2010. The lentic–lotic character of Mediterranean rivers and its importance to aquatic invertebrate communities. Aquatic Sciences 72: 45–60.
Buffagni, A., D. Demartini & L. Terranova, 2013. Manuale di applicazione del metodo CARAVAGGIO - Guida al rilevamento e alla descrizione degli habitat fluviali. 1/i. Monografie dell'Istituto di Ricerca Sulle Acque del C.N.R., Roma (301 pp, ISBN: 9788897655008) [available on internet at https://www.life-inhabit.it/it/download/tutti-file/doc_download/123-manuale-caravaggiop] (In Italian). Accessed on November 2018
Buffagni, A., R. Tenchini, M. Cazzola, S. Erba, R. Balestrini, C. Belfiore & R. Pagnotta, 2016. Detecting the impact of bank and channel modification on invertebrate communities in Mediterranean temporary streams (Sardinia, SW Italy). Science of the Total Environment 565: 1138–1150.
Buffagni, A., E. Barca, S. Erba & R. Balestrini, 2019. In-stream microhabitat mosaic depicts the success of mitigation measures and controls the Ecological Potential of benthic communities in heavily modified rivers. Science of the Total Environment 673: 489–501.
Burdon, F. J., A. R. McIntosh & J. S. Harding, 2013. Habitat loss drives threshold response of benthic invertebrate communities to deposited sediment in agricultural streams. Ecological Applications 23: 1036–1047.
Chapman, D. V., C. Bradley, G. M. Gettel, I. Gábor Hatvani, T. Hein, J. Kovács, I. Liska, D. M. Oliver, P. Tanos, B.Trásy & G. Várbíró, 2016. Developments in water quality monitoring and management in large river catchments using the Danube River as an example. Environmental Science & Policy 64: 141–154.
Cooper, S. D., P. S. Lake, S. Sabater, J. M. Melack & J. L. Sabo, 2013. The effects of land use changes on streams and rivers in mediterranean climates. Hydrobiologia 719: 383–425.
CIS, 2005. Guidance document no. 13. Overall approach to the classification of ecological status and ecological potential. Luxemburg
Doretto, A., E. Piano, F. Bona & S. Fenoglio, 2018. How to assess the impact of fine sediments on the macroinvertebrate communities of alpine streams? A selection of the best metrics. Ecological Indicators 84: 60–69.
Dresti, C., G. Becciu, H. Saidi & M. Ciampittiello, 2016. The hydromorphological state in mountain rivers subject to human impacts: a case study in the North-West of Italy. Environmental Earth Sciences 75: 495.
Dunbar, M. J., M. Warren, C. Extence, L. Baker, D. Cadman, D. J. Mould, J. Hall & R. Chadd, 2010. Interaction between macroinvertebrates, discharge and physical habitat in upland rivers. Aquatic Conservation: Marine and Freshwater Ecosystems 20: S31–S44.
EC, 2000. Directive 2000/60/EC of the European Parliament and the Council of 23 October 2000 establishing a framework for community action in the field of water. Official Journal of the European Communities (L327), pp. 1–72.
EC, 2018. 2018/229/EU: Commission Decision of 12 February 2018 establishing, pursuant to Directive 2000/60/EC of the European Parliament and of the Council, the values of the Member State monitoring system classifications as a result of the intercalibration exercise and repealing Commission Decision 2013/480/EU. Official Journal of the European Union (L47), pp. 1–91.
EEA, 2018 - European Environment Agency, 2018. European waters. Assessment of status and pressures. EEA Report No 7/2018. doi:10.2800/303664.
Erba, S., M. T. Furse, R. Balestrini, A. Christodoulides, T. Ofenböck, W. van de Bund, J.-G. Wasson & A. Buffagni, 2009. The validation of common European class boundaries for river benthic macroinvertebrates to facilitate the intercalibration process of the Water Framework Directive. Hydrobiologia 633: 17–31.
Erba, S., G. Pace, D. Demartini, D. Di Pasquale, G. Dörflinger & A. Buffagni, 2015. Land use at the reach scale as a major determinant for benthic invertebrate community in Mediterranean rivers of Cyprus. Ecological Indicators 15: 477–491.
Extence, C. A., R. P. Chadd, J. England, M. Naura & A. G. G. Pickwell, 2017. Application of the Proportion of Sediment‐sensitive Invertebrates (PSI) biomonitoring index. River Research and Applications 33: 1596–1605.
Feio, M. J., J. Ferreira, A. Buffagni, S. Erba, G. Dörflinger, M. Ferréol, A. Munné, N. Prat, I. Tziortzis & G. Urbanič, 2014a. Comparability of ecological quality boundaries in the Mediterranean basin using freshwater benthic invertebrates. Statistical options and implications. Science of Total Environment 476-477: 777–784.
Feio, M. J., F. C. Aguiar, S. F. P. Almeida, J. Ferreira, M. T. Ferreira, C. Elias, S. R. Q. Serra, A. Buffagni, J. Cambra, C. Chauvin, F. Delmas, G. Dorflinger, S. Erba, N. Flor, M. Ferreol, M. Germ, L. Mancini, P. Manolaki, S. Marcheggiani, M. R. Minciardi, A. Munné, E. Papastergiadou, N. Prat, C. Puccinelli, J. Rosebery, S. Sabater, S. Ciadamidaro, E. Tornes, I. Tziortzis, G. Urbanic & C. Vieira, 2014b. Least Disturbed Condition for European Mediterranean rivers. Science of Total Environment 476-477: 745–756.
Feld, C. K., 2004. Identification and measure of hydromorphological degradation in Central European lowland streams. Hydrobiologia 516: 69–90.
Feld, C. K. & D. Hering, 2007. Community structure or function: effects of environmental stress on benthic macroinvertebrates at different spatial scales. Freshwater Biology 52: 1380–1399.
Feld, C. K., F. De Bello & S. Dolédec, 2014. Biodiversity of traits and species both show weak responses to hydromorphological alteration in lowland river macroinvertebrates. Freshwater Biology 59: 233–248.
Fernández, D., J. Barquin & P. J. Raven, 2011. A review of river habitat characterisation methods: indices vs. characterisation protocols. Limnetica 30: 217–234.
Friberg, N., L. Sandin & M. L. Pedersen, 2009. Assessing impacts of hydromorphological degradation on macroinvertebrate indicators in rivers: examples, constraints and outlook. Integrated Environmental Assessment and Management 5: 86–96.
Friberg, N., N. Bonada, D. C. Bradley, M. J. Dunbar, F. K. Edwards, J. Grey, R. B. Hayes, A. G. Hildrew, N. Lamouroux, M. Trimmer & G. Woodward, 2011. Biomonitoring of human impacts in natural ecosystems: the good, the bad, and the ugly. Advances in Ecological Research 44: 2–49.
Gieswein, A., D. Hering & C. K. Feld, 2017. Additive effects prevail: The response of biota to multiple stressors in an intensively monitored watershed. Science of the Total Environment 593: 27–35.
Golfieri, B., N. Surian & S. Hardersen, 2018. Towards a more comprehensive assessment of river corridor conditions: A comparison between the Morphological Quality Index and three biotic indices. Ecological Indicators 84: 525–534.
González del Tánago, M., A. M. Gurnell, B. Belletti & D. García de Jalón, 2016. Indicators of river system hydromorphological character and dynamics: understanding current conditions and guiding sustainable river management. Aquatic Sciences 78: 35–55.
Gross, J. & U. Ligges, 2015. Nortest: Tests for Normality. 1.4–4. [available on internet at https://CRAN.R-project.org/package=nortest]. Accessed on November 2019
Hammer, Ø., D. A. T. Harper & P. D. Ryan, 2001. PAST: Paleontological Statistics Software Package for Education and Data Analysis. Palaeontologia Electronica 4: 9pp.
Ioannou, A., Y. Chatzinikolaou & M. Lazaridou, 2009. A preliminary pressure–impact analysis applied in the Pinios river basin (Thessaly, Central Greece). Water and Environment Journal 23: 200–209.
Johnson, R. K. & D. Hering, 2009. Response of taxonomic groups in streams to gradients in resource and habitat characteristics. Journal of Applied Ecology 46: 175–186.
Kail, J., K. Brabec, M. Poppe & K. Januschke, 2015. The effect of river restoration on fish, macroinvertebrates and aquatic macrophytes: A meta-analysis. Ecological Indicators 58: 311–321.
Kijowska-Strugała, M., L. Wiejaczka, J. Lekach & A. Bucała-Hrabia, 2017. Diversification of the hydromorphological state and the habitat quality of streams in the Negev Desert (Israel). Environmental Earth Sciences 76: 99.
Krajenbrink, H. J., M. Acreman, M. J. Dunbar, D. M. Hannah, C. L. R. Laizé & P. J. Wood, 2019. Macroinvertebrate community responses to river impoundment at multiple spatial scales. Science of the Total Environment 650: 2648–2656.
Lamaddalena, N., A. F. Piccinini & M. Vurro, 2008. Definizione di strategie sostenibili per la gestione di bacini idrografici in aree semiaride. Quaderni Istituto di ricerca sulle Acque, p. 128.
Langhans, S. D., J. Lienert, N. Schuwirth & P. Reichert, 2013. How to make river assessments comparable: A demonstration for hydromorphology. Ecological Indicators 32: 264–275.
Legendre, P. & L. Legendre, 1998. Numerical Ecology. Developments in Environmental Modelling 20.(2 ed). Elsevier, Amsterdam.
Leps, M., J. D. Tonkin, V. Dahm, P. Haase & A. Sundermann, 2015. Disentangling environmental drivers of benthic invertebrate assemblages: The role of spatial scale and riverscape heterogeneity in a multiple stressor environment. Science of the Total Environment 536: 546–556.
Lorenz, A., D. Hering, C. K. Feld & P. Rolauffs, 2004. A new method for assessing the impact of hydromorphological degradation on the macroinvertebrate fauna of five German stream types. Hydrobiologia 516: 107–127.
Marzin, A., V. Archaimbault, J. Belliard, C. Chauvin, F. Delmas & D. Pont, 2012. Ecological assessment of running waters: Do macrophytes, macroinvertebrates, diatoms and fish show similar responses to human pressures? Ecological Indicators 23: 56–65.
MATTM, 2010. Italian Ministry of Environment and Land and Sea Protection. Ministerial Decree 260/2010. ‘Regolamento recante i Criteri tecnici per la classificazione dello stato dei corpi idrici superficiali, per la modifica delle norme tecniche del decreto legislativo 3 aprile 2006, n. 152, recante norme in materia ambientale, predisposto ai sensi dell'articolo 75, comma 3, del medesimo decreto legislativo’. Gazzetta Ufficiale della Repubblica Italiana 30 7th February 2011 (In Italian).
Morandi, B., J. Kail, A. Toedter, C. Wolter & H. Piégay, 2017. Diverse Approaches to Implement and Monitor River Restoration: A Comparative Perspective in France and Germany. Environmental Management 60: 931–946.
Naura, M., M. J. Clark, D. A. Sear, P. M. Atkinson, D. D. Hornby, P. Kemp, J. England, G. Peirson, C. Bromley & M. G. Carter, 2016. Mapping habitat indices across river networks using spatial statistical modelling of River Habitat Survey data. Ecological Indicators 66: 20–29.
Ofenböck, T., O. Moog, J. Gerritsen & M. Barbour, 2004. A stressor specific multimetric approach for monitoring running waters in Austria using benthic macro-invertebrates. Hydrobiologia 516: 251–268.
Olsen, R. L., R. W. Chappell & J. C. Loftis, 2012. Water quality sample collection, data treatment and results presentation for principal components analysis e literature review and Illinois River watershed case study. Water Research 46: 3110–3122.
Panno, S. V., W. R. Kelly, A. T. Martinsek & K. C. Hackley, 2006. Estimating Background and Threshold Nitrate Concentrations Using Probability Graphs. Ground Water 44: 697–709.
Pardo, I., C. Gómez-Rodríguez, J.-G. Wasson, R. Owen, W. van de Bund, M. G. Kelly, C. Bennett, S. Birk, A. Buffagni, S. Erba, N. Mengin, J. Murray-Bligh & G. Ofenböck, 2012. The European reference condition concept: a scientific and technical approach to identify minimally impacted River ecosystems. Science of the Total Environment 420: 33–42.
R Core Development Team, 2019. R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. [available on internet at https://www.R-project.org/]. Accessed on November 2019
RAS, 2009. Programma di monitoraggio delle acque superficiali della Regione Sardegna Decreto del Ministero dell’Ambiente e della Tutela del Territorio e del Mare N. 56 del 14 aprile 2009. Delibera del Comitato Istituzionale dell’Autorità di Bacino della Sardegna n. 5 del 13/10/2009.
Raven, P. J., P. Fox, M. Everard, N. T. H. Holmes & F. H. Dawson, 1997. River Habitat Survey: a new system for classifying rivers according to their habitat quality. In: Boon, P. J., Howell, D. L. (Eds.), Freshwater Quality: Defining the Indefinable? The Stationary Office, Edinburgh, 215–234.
Raven, P. J., N. T. H. Holmes, F. H. Dawson, P. J. A. Fox, M. Everard, I. R. Fozzard & K. J. Rouen, 1998. River habitat quality the physical character of rivers and streams in the UK and Isle of Man. (River Habitat survey Report No. 2). Environment Agency.
RER, 2005. Piano di Tutela Acque. Regione Emilia Romagna. Delibera n. 40 dell'Assemblea legislativa il 21 dicembre 2005 [available on internet at https://ambiente.regione.emilia-romagna.it/acque/temi/piano-di-tutela-delle-acque]. Accessed on November 2018
Rinaldi, M., N. Surian, F. Comiti & M. Bussettini, 2013. A method for the assessment and analysis of the hydromorphological condition of Italian streams: the morphological quality index (MQI). Geomorphology 180-181: 96–108.
Ruhi, A., X. Dong, C. H. McDaniel, D. P. Batzer & J. L. Sabo, 2018. Detrimental effects of a novel flow regime on the functional trajectory of an aquatic invertebrate metacommunity. Global Change Biology 24: 3749–3765.
Sergeant, C. J., E. N. Starkey, K. K. Bartz, M. H. Wilson & F. J. Mueter, 2016. A practitioner’s guide for exploring water quality patterns using principal components analysis and Procrustes. Environmental Monitoring and Assessment 188: 249–264.
Singh, R. K., H. R. Murty, S. K. Gupta & A. K. Dikshit, 2012. An overview of sustainability assessment methodologies. Ecological Indicators 15: 281–299.
Smith, A. J., R. L. Thomas, J. K. Nolan, D. J. Velinsky, S. Klein & B. T. Duffy, 2013. Regional nutrient thresholds in wadeable streams of New York State protective of aquatic life. Ecological Indicators 29: 455–467.
StatSoft, 2004. STATISTICA (data analysis software system), version 7.
Stoll, S., P. Breyer, J. D. Tonkin, D. Früha & P. Haase, 2016. Scale-dependent effects of river habitat quality on benthic invertebrate communities—Implications for stream restoration practice. Science of the Total Environment 553: 495–503.
Szoszkiewicz, K., A. Buffagni, J. Davy-Bowker, J. Lesny, B. H. Chojnicki, J. Zbierska, R. Staniszewski & T. Zgola, 2006. Occurrence and variability of River Habitat Survey features across Europe and the consequences for data collection and evaluation. Hydrobiologia 566: 267–280.
Tavzes, B. & G. Urbanič, 2009. New indices for assessment of hydromorphological alteration of rivers and their evaluation with benthic invertebrate communities: Alpine case study. Review of hydrobiology 2: 133–161.
Theodoropoulos, C., I. Karaouzas, A. Vourka & N. Skoulikidis, 2020. ELF – A benthic macroinvertebrate multi-metric index for the assessment and classification of hydrological alteration in rivers. Ecological Indicators 108. 105713.
Turunen, J., T. Muotka, K.-M. Vuori, S. M. Karjalainen, J. Rääpysjärvi, T. Sutela & J. Aroviita, 2016. Disentangling the responses of boreal stream assemblages to low stressor levels of diffuse pollution and altered channel morphology. Science of the Total Environment 544: 954–962.
Urbanič, G., 2014. Hydromorphological degradation impact on benthic invertebrates in large rivers in Slovenia. Hydrobiologia 729: 191–207.
Vaughan, I. P., 2010. Habitat indices for rivers: derivation and applications. Aquatic Conservation: Marine and Freshwater Ecosystems 20: S4–S12.
Vaughan, I. P., M. Diamond, A. Gurnell, K. A. Hall, A. Jenkins, N. J. Milner, L. A. Naylor, D. A. Sear, G. Woodward & S. J. Ormerod, 2009. Integrating ecology with hydromorphology: a priority for river science and management. Aquatic Conservation: Marine and Freshwater Ecosystems 19: 113–125.
Verdonschot, P. F. M., 2009. Impact of Hydromorphology and Spatial Scale on Macroinvertebrate Assemblage Composition in Streams. Integrated Environmental Assessment and Management 5: 97–109.
Verdonschot, R. C. M., J. Kail, B. G. McKie & P. F. M. Verdonschot, 2016. The role of benthic microhabitats in determining the effects of hydromorphological river restoration on macroinvertebrates. Hydrobiologia 769: 55–66.
Villeneuve, B., Y. Souchon, P. Usseglio-Polatera, M. Ferréol & L. Valette, 2015. Can we predict biological condition of stream ecosystems? A multi-stressors approach linking three biological indices to physico-chemistry, hydromorphology and land use. Ecological Indicators 48: 88–98.
Villeneuve, B., J. Piffady, L. Valette, Y. Souchon & P. Usseglio-Polatera, 2018. Direct and indirect effects of multiple stressors on stream invertebrates across watershed, reach and site scales: A structural equation modelling better informing on hydromorphological impacts. Science of the Total Environment 612: 660–671.
Wiatkowski, M. & P. Tomczyk, 2018. Comparative Assessment of the Hydromorphological Status of the Rivers Odra, Bystrzyca, and Ślęza using the RHS, LAWA, QBR, and HEM Methods above and below the Hydropower Plants. Water 10: 855.
Wyżga, B., A. Amirowicz, P. Oglecki, H. Hajdukiewicz, A. Radecki-Pawlik, J. Zawiejska & P. Mikuś, 2014. Response of fish and benthic invertebrate communities to constrained channel conditions in a mountain river: Case study of the Biała, PolishCarpathians. Limnologica 46: 58–69.
Acknowledgements
Data were collected within the frame of the following European and National projects: AQEM project (EVK1-CT1999-00027); APQ Candelaro (Settore Tutela e Gestione Integrata delle Risorse Idriche in Puglia); MiCaRi project (MIUR, D.M. 408 Ric.20.03.2002—Settore “Risorse Idriche”) and INHABIT (LIFE08 ENV/IT/000413). We would like to thank all the people involved in the data collection and two anonymous reviewers for the useful comments provided. We are also grateful to Emanuele Barca (CNR-IRSA) for the support provided in statistical analysis.
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
Conflict of interest
All authors declare that they have no conflict of interest.
Additional information
Handling editor: María del Mar Sánchez-Montoya
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Electronic supplementary material
Below is the link to the electronic supplementary material.
Rights and permissions
About this article
Cite this article
Erba, S., Cazzola, M., Belfiore, C. et al. Macroinvertebrate metrics responses to morphological alteration in Italian rivers. Hydrobiologia 847, 2169–2191 (2020). https://doi.org/10.1007/s10750-020-04242-w
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10750-020-04242-w