Knowl. Manag. Aquat. Ecosyst.
Number 423, 2022
Anthropogenic impact on freshwater habitats, communities and ecosystem functioning
Article Number 17
Number of page(s) 9
Published online 29 July 2022
  • Beardsley H, Britton JR. 2012. Contribution of temperature and nutrient loading to growth rate variation of three cyprinid fishes in a lowland river. Aquat Ecol 46: 143–152. [CrossRef] [Google Scholar]
  • Benejam L, Alcaraz C, Sasal P, Simon-Levert G, García-Berthou E. 2009. Life history and parasites of the invasive mosquitofish (Gambusia holbrooki) along a latitudinal gradient. Biol Invasion 11: 2265–2277. [CrossRef] [Google Scholar]
  • Bøhn T, Terje Sandlund O, Amundsen PA, Primicerio R. 2004. Rapidly changing life history during invasion. Oikos 106: 138–150. [CrossRef] [Google Scholar]
  • Bolland J.D, Britton J.R, Cowx I.G. 2007. Lifetime consequences of variable 0 year group length in riverine populations of chub Leuciscus cephalus (L.). J Fish Biol 71: 1810–1819. [CrossRef] [Google Scholar]
  • Britton JR 2007. Reference data for evaluating the growth of common riverine fishes in the UK. J Appl Ichthyol 23: 555–560. [CrossRef] [Google Scholar]
  • Britton J.R, Copp GH, Brazier M, Davies G.D. 2011. A modular assessment tool for managing introduced fishes according to risks of species and their populations, and impacts of management actions. Biol Invasion 13: 2847–2860. [CrossRef] [Google Scholar]
  • Britton J.R, Cowx I.G, Peirson G. 2004. Sources of error in the ageing of stocked cyprinids. Fish Manag Ecol 11: 415–417. [CrossRef] [Google Scholar]
  • Britton J.R, Gozlan R.E, Copp G.H. 2011. Managing non‐native fish in the environment. Fish Fish 12: 256–274. [CrossRef] [Google Scholar]
  • Britton J.R, Davies GD, Pegg J. 2013. Spatial variation in the somatic growth rates of European barbel Barbus barbus: a UK perspective. Ecol Freshw Fish 22: 21–29. [CrossRef] [Google Scholar]
  • Brownscombe J.W, Fox MG. 2012. Range expansion dynamics of the invasive round goby (Neogobius melanostomus) in a river system. Aquat Ecol 46: 175–189. [CrossRef] [Google Scholar]
  • Caffrey J.M, Acevedo S, Gallagher K, Britton J.R. 2008. Chub (Leuciscus cephalus): a new potentially invasive fish species in Ireland. Aquat Invasion 3: 201–209. [CrossRef] [Google Scholar]
  • Caffrey J, Gallagher K, Broughan D, Dick J.T. 2018. Rapid response achieves eradication–chub in Ireland. Man Biol Invasion 9: 475. [CrossRef] [Google Scholar]
  • Campana SE 2001. Accuracy, precision and quality control in age determination, including a review of the use and abuse of age validation methods. J Fish Biol 59: 197–242. [CrossRef] [Google Scholar]
  • Chevin LM, Lande R, Mace GM. 2010. Adaptation, plasticity, and extinction in a changing environment: towards a predictive theory. PLoS Biol 8: e1000357. [CrossRef] [PubMed] [Google Scholar]
  • Dominguez Almela V, Palmer SC, Gillingham PK, Travis J.M, Britton JR. 2020. Integrating an individual-based model with approximate Bayesian computation to predict the invasion of a freshwater fish provides insights into dispersal and range expansion dynamics. Biol Invasion 22: 1461–1480. [CrossRef] [Google Scholar]
  • Dominguez Almela V, Palmer SC, Gillingham P.K, Travis J.M, Britton JR. 2021a. Predicting the influence of river network configuration, biological traits and habitat quality interactions on riverine fish invasions. Div Distrib 28: 257–270. [Google Scholar]
  • Dominguez Almela V, Palmer SC, Gillingham PK, Travis JM, Britton JR. 2021b. Predicting the outcomes of management strategies for controlling invasive river fishes using individual-based models. J Appl Ecol 58: 2427–2440. [CrossRef] [Google Scholar]
  • Fox MG, Vila-Gispert, A, Copp G.H 2007. Life-history traits of introduced Iberian pumpkinseed Lepomis gibbosus relative to native populations. Can differences explain colonization success J Fish Biol 71: 56–69. [CrossRef] [Google Scholar]
  • Francis RICC 1990. Back‐calculation of fish length: a critical review. J Fish Biol 36: 883–902. [CrossRef] [Google Scholar]
  • Franklin, PA, 2014. Dissolved oxygen criteria for freshwater fish in New Zealand: a revised approach. New Zealand J Mar Freshw Res 48: 112–126. [CrossRef] [Google Scholar]
  • Gozlan RE, Britton JR, Cowx IG, Copp GH. 2010. Current knowledge on non‐native freshwater fish introductions. J Fish Biol 76: 751–786. [CrossRef] [Google Scholar]
  • Gutmann Roberts C, Britton JR. 2020. Spawning strategies in cypriniform fishes in a lowland river invaded by non-indigenous European barbel Barbus barbus. Hydrobiologia 847: 4031–4047. [CrossRef] [Google Scholar]
  • Grabowska J, Tarkan A.S, Błońska D, Karakuş N.T, Janic B, Przybylski M, 2021. Prolific pioneers and reserved settlers. Changes in the life-history of the western tubenose goby (Proterorhinus semilunaris) at different invasion stages. Sci Tot Environ 750: 142316. [CrossRef] [Google Scholar]
  • Haubrock PJ, Pilotto F, Innocenti G, Cianfanelli S, Haase, P 2021. Two centuries for an almost complete community turnover from native to non‐native species in a riverine ecosystem. Glob Chang Biol 27: 606–623. [CrossRef] [PubMed] [Google Scholar]
  • Hudina S, Hock K, Žganec K, Lucić A. 2012. Changes in population characteristics and structure of the signal crayfish at the edge of its invasive range in a European river. Int J Limnol 48: 3–11. [CrossRef] [EDP Sciences] [Google Scholar]
  • Kottelat M, Freyhof J. 2007. Handbook of European freshwater fishes. EDP Publications. [Google Scholar]
  • Lappalainen J, Tarkan AS, Harrod C. 2008. A meta‐analysis of latitudinal variations in life‐history traits of roach, Rutilus rutilus, over its geographical range: linear or non‐linear relationships Freshw Biol 53: 1491–1501. [CrossRef] [Google Scholar]
  • Liu C, Chen Y, Britton JR. 2015. Influences of environmental and chemical parameters on the spatial growth patterns of four riverine cyprinid fishes. Knowl Manag Aquat Ecosys 416: 12. [CrossRef] [EDP Sciences] [Google Scholar]
  • Mann RHK 1974. Observations on the age, growth, reproduction and food of the dace, Leuciscus leuciscus (L.), in two rivers in southern England. J Fish Biol 6: 237–253. [CrossRef] [Google Scholar]
  • Mann RHK 1976. Observations on the age, growth, reproduction and food of the chub Squalius cephalus (L.) in the River Stour, Dorset. J Fish Biol 8: 265–288. [CrossRef] [Google Scholar]
  • Mann R.H.K, Steinmetz B. 1985. On the accuracy of age‐determination using scales from rudd, Scardinius erythrophthalmus (L.), of known age. J Fish Biol 26: 621–628. [CrossRef] [Google Scholar]
  • Messager ML, Olden JD. 2019. Phenotypic variability of rusty crayfish (Faxonius rusticus) at the leading edge of its riverine invasion. Freshw Biol 64: 1196–1209. [CrossRef] [Google Scholar]
  • Masson L, Brownscombe JW, Fox MG. 2016. Fine scale spatio-temporal life history shifts in an invasive species at its expansion front. Biol Invasion 18: 775–792. [CrossRef] [Google Scholar]
  • Mills CA, Mann RHK. 1985. Environmentally‐induced fluctuations in year‐class strength and their implications for management. J Fish Biol 27: 209–226. [CrossRef] [Google Scholar]
  • Mills CA, Beaumont WR, Clarke RT. 1985. Sources of variation in the feeding of larval dace Leuciscus leuciscus in an English river. Trans Am Fish Soc 114: 519–524. [CrossRef] [Google Scholar]
  • Musk RS, Britton JR, Axford SN. 2006. The effect of subjective fish scale ageing on growth and recruitment analyses: a case study from the UK. Acta Ichthyol Piscator 1: 36. [Google Scholar]
  • National River Flow Archive 2021. Search Data. [online] Available at: <> [Accessed 12 December 2021]. [Google Scholar]
  • Nolan E.T, Britton J.R. 2019. Spatial variability in the somatic growth of pikeperch Sander lucioperca, an invasive piscivorous fish. Ecol Freshw Fish 28: 330–340. [CrossRef] [Google Scholar]
  • Nunn AD, Harvey JP, Cowx IG. 2007. Variations in the spawning periodicity of eight fish species in three English lowland rivers over a 6 year period, inferred from 0+ year fish length distributions. J Fish Biol 70: 1254–1267. [CrossRef] [Google Scholar]
  • Olden J.D, Poff N.L, Bestgen K.R. 2006. Life‐history strategies predict fish invasions and extirpations in the Colorado River Basin. Ecol Monogr 76: 25–40. [CrossRef] [Google Scholar]
  • Oyugi DO, Cucherousset J, Ntiba MJ, Kisia SM, Harper DM, Britton J.R. 2011. Life history traits of an equatorial common carp Cyprinus carpio population in relation to thermal influences on invasive populations. Fish Res 110: 92–97. [CrossRef] [Google Scholar]
  • Paton RA, Gobin J, Rooke AC, Fox MG. 2019. Population density contributes to the higher functional response of an invasive fish. Biol Invasion 21: 1737–1749. [CrossRef] [Google Scholar]
  • Pegg M.A, Pierce CL. 2001. Growth rate responses of Missouri and Lower Yellowstone River fishes to a latitudinal gradient. J Fish Biol 59: 1529–1543. [CrossRef] [Google Scholar]
  • Perkins AT, Phillips BL, Baskett ML, Hastings A. 2013. Evolution of dispersal and life history interact to drive accelerating spread of an invasive species. Ecol Lett 16: 1079–1087. [CrossRef] [PubMed] [Google Scholar]
  • Przybylski M 1996. Variation in fish growth characteristics along a river course. Hydrobiologia 325: 39–46. [CrossRef] [Google Scholar]
  • Simmons OM, Gregory SD, Gillingham P.K, Riley W.D, Scott L.J, Britton JR. 2021. Biological and environmental influences on the migration phenology of Atlantic salmon Salmo salar smolts in a chalk stream in southern England. Freshw Biol 66: 1581–1594. [CrossRef] [Google Scholar]
  • Simmons OM, Britton JR, Gillingham PK, Gregory SD. 2020. Influence of environmental and biological factors on the overwinter growth rate of Atlantic salmon Salmo salar parr in a UK chalk stream. Ecol Freshw Fish 29: 665–678. [CrossRef] [Google Scholar]
  • Steinmetz B, Muller R. 1991. An atlas of fish scales and other bony structures used for age determination: non-salmonid species found in European fresh waters. Samara Publishing Ltd. [Google Scholar]
  • Tedesco P.A, Sagnes P, Laroche J. 2009. Variability in the growth rate of chub Leuciscus cephalus along a longitudinal river gradient. J Fish Biol 74: 312–319. [CrossRef] [PubMed] [Google Scholar]
  • Vila-Gispert A, Alcaraz C, García-Berthou E. 2005. Life-history traits of invasive fish in small Mediterranean streams. Biol Invasion 7: 107–116. [CrossRef] [Google Scholar]
  • Vilizzi L, Walker K.F. 1999. Age and growth of the common carp, Cyprinus carpio, in the River Murray, Australia: validation, consistency of age interpretation, and growth models. Environ Biol Fish 54: 77–106. [CrossRef] [Google Scholar]
  • Vilizzi L, Copp GH, Adamovich B, et al. 2019. A global review and meta-analysis of applications of the freshwater Fish Invasiveness Screening Kit. Rev Fish Biol Fish 29: 529–568. [CrossRef] [Google Scholar]
  • Water Quality Archive (2021) 2021. Open WIMS data. [online] Available at: <> [Accessed 12 December 2021]. [Google Scholar]
  • Wheeler A 1976. On the populations of roach (Rutilus rutilus), rudd (Scardinius erythrophthalmus), and their hybrids in Esthwaite Water, with notes on the distinctions between them. J Fish Biol 9: 391–400. [CrossRef] [Google Scholar]
  • Winfield IJ, Fletcher JM, James JB. 2008. The Arctic charr (Salvelinus alpinus) populations of Windermere, UK: population trends associated with eutrophication, climate change and increased abundance of roach (Rutilus rutilus). Env Biol Fish 83: 25–35. [CrossRef] [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.