This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
Alford S. B. and Rozas L. P., 2019 – Effects of non-native Eurasian watermilfoil, Myriophyllum spicatum, on nekton habitat quality in a Louisiana oligohaline, Estuaries and Coasts, 42, 613-628, DOI: 10.1007/s12237-018-00513-x.Search in Google Scholar
Bănăduc D., Curtean-Bănăduc A., Barinova S., Lozano V. L., Afanasyev S., Leite T., Branco P., Gomez Isaza D. F., Geist J., Tegos A., Simić S. B., Olosutean H. and Cianfaglione K., 2024 – Multi-interacting natural and anthropogenic stressors on freshwater ecosystems: their current status and future prospects for 21st century, Water, 16, 1483, 1-46, DOI: 10.3390/w16111483.Search in Google Scholar
Bănăduc D., Barinova S., Cianfaglione K. and Curtean-Bănăduc A., 2023 – Editorial: Multiple freshwater stressors-Key drivers for the future of freshwater environments, Frontiers in Environmental Science, 11, 1143706, 1-3, DOI: 10.3389/fenvs2023.1143706.Search in Google Scholar
Bănăduc D., Simić V., Cianfaglione K., Barinova S., Afanasyev S., Öktener A., McCall G., Simić S. and Curtean-Bănăduc A., 2022 – Freshwater as a sustainable resource and generator of secondary resources in the 21st century: stressors, threats, risks, management and protection strategies, and conservation approaches, International Journal of Environmental Research and Public Health, 19, 16570, 1-30, DOI: 10.3390/ijerph192416570.Search in Google Scholar
Błońska D., Janic B., Serhan Tarkan A., Piria M., Bănăduc D., Slovák Švolíková K., Števove B., Lappalainen J., Pyrzanowski K., Tszydel M. and Bukowska B., 2024 – Physiological responses of invasive round goby (Neogobius melanostomus) to environmental stressors across a latitudinal span, Biological Invasions, 26, 3433-34444, Springer, DOI: 10.1007/s10530-024-03387-2.Search in Google Scholar
Bučar M., Rimac A., Šegota V., Vuković N. and Alegro A., 2024 – Ecology of Elodea canadensis Michx. and Elodea nuttallii (Planch.) H. St. John ‒ Insights from national water monitoring in Croatia, Plants, 13, 1624, DOI: 10.3390/ plants13121624.Search in Google Scholar
Buldrini F., Pezzi G., Barbero M., Alessandrini A., Amadei L., Andreatta S, Giuseppe Ardenghi N. M., Armiraglio S., Bagella S. et. al, 2023 – The invasion history of Elodea canadensis and E. nuttallii (Hydrocharitaceae) in Italy from herbarium accessions, field records and historical literature, Biological Invasions, 25, 827-846, DOI: 10.1007/s10530-022-02949-6.Search in Google Scholar
Carey M. P., Sethi S. A., Larsen S. J. and Rich C. F., 2016 – A primer on potential impacts, management priorities, and future directions for Elodea spp. in high latitude systems: learning from the Alaskan experience, Hydrobiologia, 777, 1-19, DOI: 10.1007/s10750-016-2767-x.Search in Google Scholar
Chadli C., Mardi L., Boualam O., Bouslamti R. and Ennabili A., 2023 – Experimental control tests of Pistia stratiotes L., an invasive aquatic plant of lentic habitats (Fez, Morocco), Scientific African, 21, e01775.Search in Google Scholar
Geng Y. P., Pan X. Y., Xu C., Zhang W. J., Li B. and Chen J. K., 2006 ‒ Phenotypic plasticity of invasive Alternanthera philoxeroides in relation to different water availability, comparing to its native congener, Acta oecologica, 30, 3, 380-385, DOI: 10.1016/j.actao.2006.07.002.Search in Google Scholar
Goodwin B. J., McAllister A. J. and Fahrig L., 1999 – Predicting invasiveness of plant species based on biological information, Conservation Biology, 13, 2, 422-426.Search in Google Scholar
Havel J. E., Kovalenko K. E., Thomaz S. M., Amalfitano S. and Kats L. B., 2015 – Aquatic invasive species: challenges for the future, Hydrobiologia, 750, 147-170, DOI: 10.1007/s10750-014-2166-0.Search in Google Scholar
Hill M. P., Coetzee J. A., Martin G. D., Smith R. and Strange E.F., 2020 – Invasive alien aquatic plants in south african freshwater ecosystems, in van Wilgen B., Measey J., Richardson D., Wilson J. and T. Zengeya (eds.), Biological Invasions in South Africa. Invading Nature - Springer Series in Invasion Ecology, Springer, Cham, 97-114, DOI: 10.1007/978-3-030- 32394-3_4.Search in Google Scholar
Hussner A., 2010 – Growth response and root system development of the invasive Ludwigia grandiflora and Ludwigia peploides to nutrient availability and water level, Fundamental and Applied Limnology, 177, 189-196, DOI: 10.1127/1863-9135/2010/0177-0189.Search in Google Scholar
Hussner A., Heidbuchel P., Coetzee J. and Gross E. M., 2021 – From introduction to nuisance growth: a review of traits of alien aquatic plants which contribute to their invasiveness, Hydrobiologia, 848, 2119-2151, DOI: 10.1007/s10750-020-04463-z.Search in Google Scholar
IPBES, 2019 – https://ipbes.net/sites/default/files/inline/files/ipbes_global_assessment_report_summary_for_policymakers.pdf (accessed 13.11.2021).Search in Google Scholar
Jaklič M., Koren Š. and Jogan N., 2020 – Alien water lettuce (Pistia stratiotes L.) outcompeted native macrophytes and altered the ecological conditions of a Sava oxbow lake (SE Slovenia), Acta Botanica Croatica, 79, 1, 35-42, DOI: 10.37427/botcro-2020-009.Search in Google Scholar
Janauer G., Exler N., Anačkov G., Barta V., Berczik Á., Boža P., Dinka M., Georgiev V., Germ M., Holcar M., and Hrivnák, R., 2021., 2021 – Distribution of the macrophyte communities in the Danube reflects river serial discontinuity, Water, 13, 7, 918, DOI: 10.3390/w13070918.Search in Google Scholar
Király G., Mesterházy A. and Bakan, B., 2007 – Elodea nuttalii (Planch.) H. St. John, Myosotis laxa Lehm. and Pyrus austriaca Kern., new for Slovenia, as well as other floristic records, Hladnikia, 20, 11-15.Search in Google Scholar
Kočić A., Horvatić J. and Jelaska S. D., 2014 – Distribution and morphological variations of invasive macrophytes Elodea nuttallii (Planch.) H. St. John and Elodea canadensis Michx in Croatia, Acta Botanica Croatica, 73, 2, 437-446, DOI: 10.2478/botcro-2014-0011.Search in Google Scholar
Kolar C. S. and, Lodge D. M., 2000 – Freshwater nonindigenous species: interactions with other global changes, In Mooney, H. A. and R. J. Hobbs (eds.), Invasive Species in a Changing World, Island Press, Washington D. C., 3-30.Search in Google Scholar
Kourantidou M., Haubrock P. J., Cuthbert R. N, Bodey T. W., Lenzner B., Gozlan R. E., Nuñez M. A., Salles J. M., Diagne C. and Courchamp F., 2022 – Invasive alien species as simultaneous benefits and burdens: trends, stakeholder perceptions and management, Biological Invasions, 24, 1905-1926, DOI: 10.1007/s10530-021-02727-w.Search in Google Scholar
Kovalenko K. E., Pelicice F. M, Kats L. B., Kotta J. and Thomaz S. M., 2021 – Aquatic invasive species: introduction to the Special Issue and dynamics of public interest. Hydrobiologia, 848, 1939-1953, DOI: 10.1007/s10750-021-04585-y.Search in Google Scholar
Kuhar U., Germ M. and Gaberščik A., 2010 – Habitat characteristics of the alien species Elodea canadensis in Slovenian watercourses, Hydrobiologia, 656, 1, 205-212, DOI: 10.1007/s10750-010-0438-xSearch in Google Scholar
Lind L., Eckstein R. L. and Relyea R. A., 2022 – Direct and indirect effects of climate change on distribution and community composition of macrophytes in lentic systems, Biological Reviews, 97, 1677-1690. 1677, DOI: 10.1111/brv.12858.Search in Google Scholar
Macedo R. L., Haubrock P. J., Klippel G., Fernandez R. D., Leroy B., Angulo E., Carneiro L., Musseau C. L., Rocha O., and Cuthbert R. N., 2024 – The economic costs of invasive aquatic plants: A global perspective on ecology and management gaps, Science of The Total Environment, 908, 168217.Search in Google Scholar
Mazej Grudnik Z. and Germ M., 2013 – Spatial pattern of native species Myriophyllum spicatum and invasive alien species Elodea nuttallii after introduction of the latter one into the Drava River (Slovenia), Biologia, 68, 2, 202-209.Search in Google Scholar
Mazej Grudnik Z., Jelenko I. and Germ M., 2014 – Influence of abiotic factors on invasive behaviour of alien species Elodea nuttallii in the Drava River (Slovenia), Annales de Limnologie ‒ International Journal of Limnology, 50, 1-8.Search in Google Scholar
Meyerson L. A. and Mooney H. A., 2007 – Invasive alien species in an era of globalization, Frontiers in Ecology and the Environment, 5, 4, 199-208, DOI: 10.1890/1540-9295(2007)5[199:IASIAE]2.0.CO2.Search in Google Scholar
Pyšek P. and Richardson D. M., 2010 – Invasive species, environmental change and management, and health, Annual Review of Environment and Resouces, 35, 25-55.Search in Google Scholar
Reitsema R. E., Meire P. and Schoelynck J., 2018 – The future of freshwater macrophytes in a changing world: dissolved organic carbon quantity and quality and its interactions with macrophytes, Frontiers of Plant Science, 9, 629, DOI: 10.3389/fpls.2018.00629.Search in Google Scholar
Saarinen K., Lindström L. and Ketola T., 2019 – Invasion triple trouble: environmental fluctuations, fluctuation-adapted invaders and fluctuation-mal-adapted communities all govern invasion success, BMC Evolutionary Biology, 19, 42, DOI: 10.1186/s12862-019-1348-9.Search in Google Scholar
Šajna N., Haler M., Škornik M. and Kaligarič M., 2007 – Survival and expansion of Pistia stratiotes L. in a thermal stream in Slovenia, Aquatic Botany, 87, 75-79, DOI: 10.1016/j.aquabot.2007.01.012.Search in Google Scholar
Šajna N., Urek T., Kušar P. and Šipek M., 2023 – The importance of thermally abnormal waters for bioinvasions ‒ A case study of Pistia stratiotes, Diversity, 15, 421, DOI: 10.3390/d15030421.Search in Google Scholar
Tattersdill K., Ecke F., Frainer A. and McKie B. G., 2017 – A head start for an invasive species in a strongly seasonal environment? Growth of Elodea canadensis in boreal lakes, Aquatic Invasions, 12, 4, 487-498, DOI: 10.3391/ai.2017.12.4.06.Search in Google Scholar
Thomaz S. M., Kovalenko K. E., Havel J. E. and Kats L. B., 2015 – Aquatic invasive species: general trends in the literature and introduction to the special issue, Hydrobiologia, 746, 1-12, DOI: 10.1007/s10750-014-2150-8.Search in Google Scholar
Vilović T., Šegota V., Bilić K. and Nikolić T., 2020 – Searching for invasive aliens: A case study from ZA & ZAHO herbarium collections, Natura Croatica, 29, 1, 99-108, DOI: 10.20302/NC.2020.29.9.Search in Google Scholar
Vukov D., Ilić M., Čuk M., Igić R. and Janauer G., 2017 – The Relationship between habitat factors and aquatic macrophyte assemblages in the Danube River in Serbia, Archives of Biological Sciences, 69, 3, 427-437.Search in Google Scholar
Wang Y. J., Bai Y. F., Zeng S. Q., Yao B., Wang W. and F. L. Luo, 2016 – Heterogeneous water supply affects growth and benefits of clonal integration between co-existing invasive and native Hydrocotyle species, Scientific Reports, 6, 29420.Search in Google Scholar
Wu H. and Ding J., 2019 – Global change sharpens the double-edged sword effect of aquatic alien plants in China and beyond, Frontiers of Plant Science, 10, 787, DOI: 10.3389/fpls.2019.00787.Search in Google Scholar
Zehnsdorf A., Hussner A., Eismann F., Rönicke H. and Melzer A., 2015 – Management options of invasive Elodea nuttallii and Elodea canadensis, Limnologica, 51, 110-117.Search in Google Scholar
Zelnik I., Germ M., Kuhar U. and Gaberščik., A., 2022 – Waterbodies in the floodplain of the Drava River host species-rich macrophyte communities despite Elodea invasions, Diversity, 14, 10, 870.Search in Google Scholar
Perfil de Orcid