Knowl. Manag. Aquat. Ecosyst.
Number 425, 2024
Freshwater ecosystems management strategies
Article Number 8
Number of page(s) 11
Published online 12 April 2024
  • Alp M, Cucherousset J, Buoro M, Lecerf A. 2016. Phenological response of a key ecosystem function to biological invasion. Ecol Lett 19: 519–527. [Google Scholar]
  • Amoroso RO, Tillotson MD, Hilborn R. 2017. Measuring the net biological impact of fisheries enhancement: pink salmon hatcheries can increase yield, but with apparent costs to wild populations. Can J Fish Aquat Sci 74: 1233–1242. [Google Scholar]
  • Baca RM, Drenner RW. 1995. Do the effects of piscivorous largemouth bass cascade to the plankton? Hydrobiologia 316: 139–151. [Google Scholar]
  • Bates D, Mächler M, Bolker B, Walker S. 2015. Fitting Linear Mixed-Effects Models Using lme4. J Stat Softw 67: 1–48. [Google Scholar]
  • Bolding B, Bonar S, Divens M. 2004. Use of artificial structure to enhance angler benefits in lakes, ponds, and reservoirs: a literature review. Rev Fish Sci 12: 75–96. [Google Scholar]
  • Bond NR, Sabater S, Glaister A, Roberts S, Vanderkruk K. 2006. Colonisation of introduced timber by algae and invertebrates, and its potential role in aquatic ecosystem restoration. Hydrobiologia 556: 303–316. [Google Scholar]
  • Brown TG, Runciman B, Pollard S, A.D.A. 2009. Biological synopsis of largemouth bass. Can Manuscr Rep Fish Aquat Sci 2884 V 27 P. [Google Scholar]
  • Claussen JE, Philipp DP. 2023. Assessing the role of supplementation stocking: a perspective. Fish Manag Ecol 30: 583–591. [Google Scholar]
  • Cooke SJ, Piczak ML, Vermaire JC, Kirkwood AE. 2023. On the troubling use of plastic ‘habitat’ structures for fish in freshwater ecosystems – or – when restoration is just littering. FACETS 8: 1–19. [Google Scholar]
  • Cormier SM, Suter II GW, Zheng L, Pond GJ. 2013. Assessing causation of the extirpation of stream macroinvertebrates by a mixture of ions. Environ Toxicol Chem 32: 277–287. [Google Scholar]
  • Cowx. 1994. Stocking strategies. Fish Manag Ecol 1: 15–30. [Google Scholar]
  • Czarnecka M. 2016. Coarse woody debris in temperate littoral zones: implications for biodiversity, food webs and lake management. Hydrobiologia 767: 13–25. [Google Scholar]
  • Dobson A, Lodge D, Alder J, Cumming GS, Keymer J, McGlade J, Mooney H, Rusak JA, Sala O, Wolters V, Wall D, Winfree R, Xenopoulos MA. 2006. Habitat loss, trophic collapse, and the decline of ecosystem services. Ecology 87: 1915–1924. [Google Scholar]
  • Donaldson MR, O’Connor CM, Thompson LA, Gingerich AJ, Danylchuk SE, Duplain RR, Cooke SJ. 2011. Contrasting global game fish and non-game fish species. Fisheries 36: 385–397. [Google Scholar]
  • Drenner RW, Baca RM, Gilroy JS, Ernst MR, Jensen DJ, Marshall DH. 2002. Community responses to piscivorous largemouth bass: a biomanipulation experiment. Lake Reserv Manag 18: 44–51. [Google Scholar]
  • Eby LA, Roach WJ, Crowder LB, Stanford JA. 2006. Effects of stocking-up freshwater food webs. Trends Ecol Evol 21: 576–584. [Google Scholar]
  • Emmrich M, Schälicke S, Hühn D, Lewin C, Arlinghaus R. 2014. No differences between littoral fish community structure of small natural and gravel pit lakes in the northern German lowlands. Limnologica 46: 84–93. [Google Scholar]
  • Everett RA, Ruiz GM. 1993. Coarse woody debris as a refuge from predation in aquatic communities. Oecologia 93: 475–486. [Google Scholar]
  • Feng K, Yuan J, Zhang Y, Qian J, Liu J, Li Z, Lek S, Wang Q. 2023. Application of artificial spawning substrates to support lacustrine fish recruitment and fisheries enhancement in a Chinese lake. Front Ecol Evol 10. [Google Scholar]
  • Garcia F, Paz-Vinas I, Gaujard A, Olden JD, Cucherousset J. 2023. Multiple lines and levels of evidence for avian zoochory promoting fish colonization of artificial lakes. Biol Lett 19: 20220533. [Google Scholar]
  • Gimenez M, Villéger S, Grenouillet G, Cucherousset J. 2023. Stocking practices shape the taxonomic and functional diversity of fish communities in gravel pit lakes. Fish Manag Ecol 30: 603–614. [Google Scholar]
  • Harmon ME, Franklin JF, Swanson FJ, Sollins P, Gregory SV, Lattin JD, Anderson NH, Cline SP, Aumen NG, Sedell JR, Lienkaemper GW, Cromack K, Cummins KW. 2004. Ecology of coarse woody debris in temperate ecosystems. Advances in Ecological Research, Academic Press, pp. 59–234. [Google Scholar]
  • Harrison PA, Berry PM, Simpson G, Haslett JR, Blicharska M, Bucur M, Dunford R, Egoh B, Garcia-Llorente M, Geamana N, Geertsema W, Lommelen E, Meiresonne L, Turkelboom F. 2014. Linkages between biodiversity attributes and ecosystem services: a systematic review. Ecosyst Serv 9: 191–203. [Google Scholar]
  • Huntingford FA. 2004. Implications of domestication and rearing conditions for the behaviour of cultivated fishes. J Fish Biol 65: 122–142. [Google Scholar]
  • Jackson DA. 2002. Ecological effects of Micropterus introductions: the dark side of black bass. American Fisheries Society Symposium, pp. 221–232. [Google Scholar]
  • Jacquin L, Petitjean Q, Côte J, Laffaille P, Jean S. 2020. Effects of pollution on fish behavior, personality, and cognition: some research perspectives. Front Ecol Evol 8. [Google Scholar]
  • Javed M, Usmani N. 2019. An overview of the adverse effects of heavy metal contamination on fish health. Proc Natl Acad Sci India Sect B Biol Sci 89: 389–403. [Google Scholar]
  • Jennings MJ, Emmons EE, Hatzenbeler GR, Edwards C, Bozek MA. 2003. Is littoral habitat affected by residential development and land use in watersheds of wisconsin lakes? Lake Reserv Manag 19: 272–279. [Google Scholar]
  • Johnston FD, Allen MS, Beardmore B, Riepe C, Pagel T, Hühn D, Arlinghaus R. 2018. How ecological processes shape the outcomes of stock enhancement and harvest regulations in recreational fisheries. Ecol Appl 28: 2033–2054. [Google Scholar]
  • Kahlert M, McKie BG. 2014. Comparing new and conventional methods to estimate benthic algal biomass and composition in freshwaters. Environ Sci Process Impacts 16: 2627–2634. [Google Scholar]
  • Knapp RA, Hawkins CP, Ladau J, McClory JG. 2005. Fauna of Yosemite national park lakes has low resistance but high resilience to fish introductions. Ecol Appl 15: 835–847. [Google Scholar]
  • Kruskal JB. 1964. Nonmetric multidimensional scaling: a numerical method. Psychometrika 29: 115–129. [Google Scholar]
  • Lecerf A, Dobson M, Dang CK, Chauvet E. 2005. Riparian plant species loss alters trophic dynamics in detritus-based stream ecosystems. Oecologia 146: 432–442. [Google Scholar]
  • Lenth RV, Bolker B, Buerkner P, Giné-Vázquez I, Herve M, Jung M, Love J, Miguez F, Riebl H, Singmann H. 2023. emmeans: Estimated Marginal Means, aka Least-Squares Means. [Google Scholar]
  • Lorenzen K. 2014. Understanding and managing enhancements: why fisheries scientists should care. J Fish Biol 85: 1807–1829. [Google Scholar]
  • Lorenzen K, Beveridge MCM, Mangel M. 2012. Cultured fish: integrative biology and management of domestication and interactions with wild fish. Biol Rev 87: 639–660. [Google Scholar]
  • Matern S, Emmrich M, Klefoth T, Wolter C, Nikolaus R, Wegener N, Arlinghaus R. 2019. Effect of recreational-fisheries management on fish biodiversity in gravel pit lakes, with contrasts to unmanaged lakes. J Fish Biol 94: 865–881. [Google Scholar]
  • Meyerhoff J, Klefoth T, Arlinghaus R. 2019. The value artificial lake ecosystems provide to recreational anglers: implications for management of biodiversity and outdoor recreation. J Environ Manage 252: 109580. [Google Scholar]
  • Milla S, Pasquet A, Mohajer LE, Fontaine P. 2021. How domestication alters fish phenotypes. Rev Aquac 13: 388–405. [Google Scholar]
  • Nilsson J, Engstedt O, Larsson P. 2014. Wetlands for northern pike (Esox lucius L.) recruitment in the Baltic Sea. Hydrobiologia 721: 145–154. [Google Scholar]
  • Oksanen J, Simpson GL, Blanchet FG, Kindt R, Legendre P, Minchin PR, O’Hara RB, Solymos P, Stevens MHH, Szoecs E, Wagner H, Barbour M, Bedward M, Bolker B, Borcard D, Carvalho G, Chirico M, Caceres MD, Durand S, Evangelista HBA, FitzJohn R, Friendly M, Furneaux B, Hannigan G, Hill MO, Lahti L, McGlinn D, Ouellette M-H, Cunha ER, Smith T, Stier A, Braak CJFT, Weedon J. 2022. vegan: Community Ecology Package. [Google Scholar]
  • Peig J, Green AJ. 2009. New perspectives for estimating body condition from mass/length data: the scaled mass index as an alternative method. Oikos 118: 1883–1891. [Google Scholar]
  • Post DM. 2003. Individual variation in the timing of ontogenetic niche shifts in largemouth bass. Ecology 84: 1298–1310. [Google Scholar]
  • R Core Team. 2022-. R: A language and environment for statistical computing. R Foundation for Statistical Computing. [Google Scholar]
  • Radinger J, Matern S, Klefoth T, Wolter C, Feldhege F, Monk CT, Arlinghaus R. 2023. Ecosystem-based management outperforms species-focused stocking for enhancing fish populations. Science 379: 946–951. [Google Scholar]
  • Roni P, Hanson K, Beechie T. 2008. Global review of the physical and biological effectiveness of stream habitat rehabilitation techniques. North Am J Fish Manag 28: 856–890. [Google Scholar]
  • Rudman SM, Heavyside J, Rennison DJ, Schluter D. 2016. Piscivore addition causes a trophic cascade within and across ecosystem boundaries. Oikos 125: 1782–1789. [Google Scholar]
  • Sass GG, Kitchell JF, Carpenter SR, Hrabik TR, Marburg AE, Turner MG. 2006. Fish community and food web responses to a whole-lake removal of coarse woody habitat. Fisheries 31: 321–330. [Google Scholar]
  • Sass GG, Rypel AL, Stafford JD. 2017. Inland fisheries habitat management: lessons learned from wildlife ecology and a proposal for change. Fisheries 42: 197–209. [Google Scholar]
  • Sass GG, Shaw SL, Fenstermacher CC, Porreca AP, Parkos III JJ. 2023. Structural habitat in lakes and reservoirs: physical and biological considerations for implementation. North Am J Fish Manag 43: 290–303. [Google Scholar]
  • Schindler DE, Hilborn R. 2015. Prediction, precaution, and policy under global change. Science 347: 953–954. [Google Scholar]
  • Schindler DE, Knapp RA, Leavitt PR. 2001. Alteration of nutrient cycles and algal production resulting from fish introductions intomountain lakes. Ecosystems 4: 308–321. [Google Scholar]
  • Schmude KL, Jennings MJ, Otis KJ, Piette RR. 1998. Effects of habitat complexity on macroinvertebrate colonization of artificial substrates in north temperate lakes. J North Am Benthol Soc. [Google Scholar]
  • Smokorowski KE, Pratt TC, Cole WG, McEachern LJ, Mallory EC. 2006. Effects on periphyton and macroinvertebrates from removal of submerged wood in three Ontario lakes. Can J Fish Aquat Sci 63: 2038–2049. [Google Scholar]
  • Taniguchi H, Nakano S, Tokeshi M. 2003. Influences of habitat complexity on the diversity and abundance of epiphytic invertebrates on plants. Freshw Biol 48: 718–728. [Google Scholar]
  • Theis S, Ruppert JLW, Shirton JR, Poesch MS. 2022. Measuring beta diversity components and beneficial effects of coarse woody habitat introduction on invertebrate and macrophyte communities in a shallow northern boreal lake; implications for offsetting. Aquat Ecol 56: 793–814. [Google Scholar]
  • Tiberti R, von Hardenberg A, Bogliani G. 2014. Ecological impact of introduced fish in high altitude lakes: a case of study from the European Alps. Hydrobiologia 724: 1–19. [Google Scholar]
  • Van de Perre D, Roessink I, Janssen CR, Smolders E, Van Regenmortel T, Van Wichelen J, Vyverman W, Van den Brink PJ, De Schamphelaere KAC. 2016. The effects of zinc on the structure and functioning of a freshwater community: a microcosm experiment. Environ Toxicol Chem 35: 2698–2712. [Google Scholar]
  • Yan ND, Keller W, Somers KM, Pawson TW, Girard RE. 1996. Recovery of crustacean zooplankton communities from acid and metal contamination: comparing manipulated and reference lakes. Can J Fish Aquat Sci 53: 1301–1327. [Google Scholar]
  • Závorka L, Lassus R, Britton JR, Cucherousset J. 2020. Phenotypic responses of invasive species to removals affect ecosystem functioning and restoration. Glob Change Biol 26: 5693–5704. [Google Scholar]
  • Zhao T, Grenouillet G, Pool T, Tudesque L, Cucherousset J. 2016. Environmental determinants of fish community structure in gravel pit lakes. Ecol Freshw Fish 25: 412–421. [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.