Total found: 266 records |
Haaland S.,
Hejzlar J., Eikebrokk B., Orderud G.,
Paule-Mercado M.,
Porcal P., Sláma J., Vogt R.D. (2024) Predicting the dissolved natural organic matter (DNOM) concentration and the specific ultraviolet absorption (sUVa) index in a browning central European stream. Ecological Indicators
165 : 112200.
DOI: 10.1016/j.ecolind.2024.112200
|
Kopáček J., Bače R., Grill S.,
Hejzlar J.,
Kaňa J.,
Porcal P.,
Turek J. (2024) Dynamics and variability of microclimate in an unmanaged mountain forest after a bark beetle outbreak. Agricultural and Forest Meteorology
344: 109824.
DOI: 10.1016/j.agrformet.2023.109824
|
Kopáček J., Grill S.,
Hejzlar J.,
Porcal P.,
Turek J. (2024) Tree dieback and subsequent changes in water quality accelerated the climate-related warming of a central European forest lake. Journal of Water and Climate Change
15: 127.
DOI: 10.2166/wcc.2023.581
|
Macek M.,
Vrba J.,
Hejzlar J.,
Řeháková K.,
Jarošík J., Šorf M.,
Šimek K. (2024) Two-decade changes in the ciliate assemblage feeding pattern reflect the reservoir nutrient load. Diversity
16: 534.
DOI: 10.3390/d16090534
|
Tesfaye M.,
Jůza T.,
Šmejkal M.,
Hejzlar J.,
Čech M.,
Prchalová M.,
Muška M.,
Tušer M.,
Kočvara L.,
Sajdlová Z.,
Draštík V.,
Říha M.,
Vašek M.,
Blabolil P.,
Symonová R., Brabec M.,
Kubečka J., Souza A.T. (2024) The impact of climatic conditions and food availability on bimodality size structure and density of YOY pikeperch (Sander lucioperca). Hydrobiologia
851: 3665–3681.
DOI: 10.1007/s10750-024-05527-0
|
Weyhenmeyer G., Chukwuka A.V., Anneville O., Brookes J., Carvalho C.R., Cotner J.B., Grossart H., Hamilton D.P., Hanson P.C.,
Hejzlar J., Hilt S., Hipsey M., Ibelings B.W., Jacquet S., Kangur K., Kragh T., Lehner B., Lepori F. , Lukubye B., Marce R., McElarney Y.,
Paule-Mercado M., North R., Rojas‐Jimenez K., Rusak J., Sharma S., Scordo F., de Senerpont Domis L.N., Sø J.S., Wood S.A., Xenopoulos M., Zhou Y. (2024) Global lake health in the Anthropocene: Societal implications and treatment strategies. Earth's Future
12: e2023EF004387.
DOI: 10.1029/2023EF004387
|
Hejzlar J.,
Porcal P.,
Kopáček J.,
Jarošík J.,
Paule-Mercado M. (2023) Předpovědní model DOC v přítoku do VN Římov a ve vodárenském odběru z nádrže. [Forecast model of DOC in the inflow to the Římov water reservoir and in the withdrawal of water from the reservoir.] Sborník konference Vodárenská biologie
45–50.
|
Jůza T.,
Blabolil P.,
Čech M.,
Draštík V.,
Hejzlar J.,
Kočvara L.,
Muška M.,
Peterka J.,
Sajdlová Z.,
Tušer M.,
Vašek M.,
Kubečka J. (2023) Distribution patterns, annual density changes, growth and mortality of pikeperch [Sander lucioperca (L. 1758)] fry following oligotrophication of a reservoir. Ecology of Freshwater Fish
32: 724-734.
DOI: 10.1111/eff.12718
|
Kopáček J., Bače R., Choma M.,
Hejzlar J.,
Kaňa J., Oulehle F.,
Porcal P., Svoboda M., Tahovská K. (2023) Carbon and nutrient pools and fluxes in unmanaged mountain Norway spruce forests, and losses after natural tree dieback. Science of the Total Environment
903: 166233.
DOI: 10.1016/j.scitotenv.2023.166233
|
Orderud G.,
Porcal P., Eikebrokk B., Sláma J., Vogt R.D.,
Hejzlar J., Haaland S. (2023) The technological development of drinking water treatment plants in the Czech Republic. Water Policy
25: 889.
DOI: 10.2166/wp.2023.102
|
Tesfaye M., Souza, A.T.,
Soukalová K.,
Šmejkal M.,
Hejzlar J.,
Prchalová M.,
Říha M.,
Muška M.,
Vašek M.,
Frouzová J.,
Blabolil P., Boukal D.,
Kubečka J. (2023) Somatic growth of pikeperch (Stizostedion lucioperca) in relation to variation in temperature and eutrophication in a Central Europe Lake. Fisheries Research
267: 106824.
DOI: 10.1016/j.fishres.2023.106824
|
Vašek M., Brabec M.,
Blabolil P.,
Čech M.,
Draštík V.,
Jůza T.,
Kubečka J.,
Muška M.,
Peterka J.,
Prchalová M.,
Říha M.,
Hejzlar J. (2023) Fish scale stable isotopes as potential indicators of nutrient pollution: Exploring the response of roach (Rutilus rutilus) scale δ15N and δ13C to a gradient of land use disturbance. Science of the Total Environment
865: 161198.
DOI: 10.1016/j.scitotenv.2022.161198
|
Vogt R.D.,
Porcal P.,
Hejzlar J.,
Paule-Mercado M., Haaland S., Gundersen C.B., Orderud G., Eikebrokk B. (2023) Distinguishing between sources of natural dissolved organic matter (DOM) based on its characteristics. Water
15: 3006.
DOI: 10.3390/w15163006
|
Vystavna Y.,
Paule-Mercado M., Schmidt S.,
Hejzlar J.,
Porcal P., Matiatos I. (2023) Nutrient dynamics in temperate European catchments of different land use under changing climate. Journal of Hydrology: Regional Studies
45: 101288.
DOI: 10.1016/j.ejrh.2022.101288
|
Brouček M.,
Hejzlar J., Říha J., Satrapa L. (2022) Použití vícekriteriálního hodnocení při výběru varianty vodního díla Skalička. [The use of multiple-criteria decision-making analysis when choosing a variant of the Skalička dam.] Sborník konference Vodní nádrže
65–69.
|
Fott J., Nedbalová L., Brabec M., Kozáková R.,
Řeháková K.,
Hejzlar J., Šorf M.,
Vrba J. (2022) Light as a controlling factor of winter phytoplankton in a monomictic reservoir. Limnologica
95: 125995.
DOI: 10.1016/j.limno.2022.125995
|
Golub M., Thiery W., Marcé R., Pierson D., Vanderkelen I. ......,
Hejzlar J. (2022) A framework for ensemble modelling of climate change impacts on lakes worldwide: the ISIMIP Lake Sector. Geoscientific Model Development
15: 4597–4623.
DOI: 10.5194/gmd-15-4597-2022
|
Hejzlar J.,
Blabolil P.,
Čtvrtlíková M.,
Jůza T.,
Kasalický V.,
Kubečka J.,
Seďa J.,
Znachor P. (2022) Účinnost biomanipulace pro řízení vodního ekosystému a kvality vody ve vodárenských nádržích? [Biomanipulation efficiency for the control of aquatic ecosystem and water quality in water supply reservoirs?] Proc. Conf. Water Supply Biology 2022
147-156.
|
Hejzlar J.,
Jarošík J.,
Mercado M.,
Porcal P. (2022) Optimalizace odtokového režimu ve VN Římov z hlediska vodárenského odběru. [Optimization of the outflow regime in the Římov reservoir from the point of view of water supply.] Vodní nádrže 2022
26-31.
|
Petrusek A.,
Hejzlar J. (2022) Když se ryby dusí aneb Příčiny a důsledky úbytku kyslíku ve vodách. [When fish suffocate or Causes and consequences of oxygen depletion in waters.] Živa
2: 75-77.
|