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Items where Modified Agris Subject Categories is "(A) Swedish standard research categories 2011 > 1 Natural sciences > 105 Earth and Related Environmental Sciences > Oceanography, Hydrology, Water Resources"

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Number of items at this level: 307.

A

Agstam-Norlin, Oskar and Lannergård, Emma and Futter, Martyn and Huser, Brian (2020). Optimization of aluminum treatment efficiency to control internal phosphorus loading in eutrophic lakes. Water Research. 185 , 116150
[Research article]

Ahrné, Karin and Aronsson, Mora and Berglund, Håkan and Bjelke, Ulf and Dahlberg, Anders and Eide, Wenche and Gärdenfors, Ulf and Halling, Christina and Hallingbäck, Tomas and Jacobson, Anders and Larsson, Artur and Ljungberg, Håkan and Lönnell, Niklas and Mo, Kerstin and Johansson, Mona and Sandström, Jonas and Sundberg, Sebastian and Svensson, Mikael and Thor, Göran and Tjernberg, Martin and Tranvik, Lena and Von Wachenfeldt, Eddie (2015). Tillstånd och trender för arter och deras livsmiljöer. Uppsala: (NL, NJ) > Swedish Species Information Centre, Sveriges lantbruksuniversitet. ArtDatabanken rapporterar ; 17
[Report]

B

Bargues Tobella, Aida and Sheil, Douglas (2020). More trees for more water in drylands: myths and opportunities. ETFRN News , 209-216
[Article Review/Survey]

Beck, Hylke E. and Pan, Ming and Lin, Peirong and Seibert, Jan and van Dijk, Albert I. J. M. and Wood, Eric F. (2020). Global Fully Distributed Parameter Regionalization Based on Observed Streamflow From 4,229 Headwater Catchments. Journal of geophysical research. Atmospheres. 125 , e2019JD031485
[Research article]

Beier, Ulrika (2016). Habitat use in fish communities. Diss. (sammanfattning/summary) Uppsala : Sveriges lantbruksuniv., Acta Universitatis Agriculturae Sueciae, 1652-6880 ; 2016:72
ISBN 978-91-576-8646-6
eISBN 978-91-576-8647-3
[Doctoral thesis]

Bejarano, Maria Dolores and Garcia-Palacios, Jaime H. and Sordo-Ward, Alvaro and Garrote, Luis and Nilsson, Christer (2020). A New Tool for Assessing Environmental Impacts of Altering Short-Term Flow and Water Level Regimes. Water. 12 , 2913
[Research article]

Belgrano, Andrea and Villasante, Sebastian (2021). Linking Ocean's Benefits to People (OBP) with Integrated Ecosystem Assessments (IEAs). Population Ecology. 63 , 102-107
[Article Review/Survey]

Belle, Simon and Goedkoop, Willem (2021). Functional diversity of chironomid communities in subarctic lakes across gradients in temperature and catchment characteristics. Limnology. 22 , 5-16
[Research article]

Bergek, Sara and Sandin, Leonard (2021). Vad händer med avrinningsområdenas ekosystemtjänster i ett framtida klimat? (NL, NJ) > Department of Aquatic Resources, Sveriges lantbruksuniversitet. Aqua reports ; 2021:2
[Report]

Bergvall, Martin (2011). Hydrogeological modeling to improve remediation strategies for a drinking water aquifer contaminated by an aqueous phase liquid. Diss. (sammanfattning/summary) Umeå : Sveriges lantbruksuniv., Acta Universitatis Agriculturae Sueciae, 1652-6880 ; 2011:26
ISBN 978-91-576-7561-3
[Doctoral thesis]

Bieroza, Magdalena and Dupas, Remi and Glendell, Miriam and McGrath, Gavan and Mellander, Per-Erik (2020). Hydrological and Chemical Controls on Nutrient and Contaminant Loss to Water in Agricultural Landscapes. Water. 12 , 3379
[Editorial]

Blackburn, Meredith (2018). In search of control points: A study on the interaction of hydrological fluxes and nitrogen in the boreal landscape. Diss. (sammanfattning/summary) Umeå : Sveriges lantbruksuniv., Acta Universitatis Agriculturae Sueciae, 1652-6880 ; 2018:2
ISBN 978-91-7760- 144-9
eISBN 978-91-7760-145-6
[Doctoral thesis]

Burdon, Francis and Ramberg, Ellinor and Sargac, Jasmina and Forio, Marie Anne Eurie and de Saeyer, Nancy and Mutinova, Petra Thea and Moe, Therese Fosholt and Pavelescu, Mihaela Oprina and Dinu, Valentin and Cazacu, Constantin and Witing, Felix and Kupilas, Benjamin and Grandin, Ulf and Volk, Martin and Risnoveanu, Geta and Goethals, Peter and Friberg, Nikolai and Johnson, Richard and Mckie, Brendan (2020). Assessing the Benefits of Forested Riparian Zones: A Qualitative Index of Riparian Integrity Is Positively Associated with Ecological Status in European Streams. Water. 12 , 1178 , 1-24
[Research article]

D

Denfeld, Blaize A. and Lupon, Anna and Sponseller, Ryan A. and Laudon, Hjalmar and Karlsson, Jan (2020). Heterogeneous CO2 and CH4 patterns across space and time in a small boreal lake. Inland Waters. 10 , 348-359
[Research article]

Deutscher, Jan and Kupec, Petr and Kucera, Ales and Urban, Josef and Ledesma, Jose and Futter, Martyn (2019). Ecohydrological consequences of tree removal in an urban park evaluated using open data, free software and a minimalist measuring campaign. Science of the total environment. 655 , 1495-1504
[Research article]

Djodjic, Faruk and Bieroza, Magdalena and Bergström, Lars (2021). Land use, geology and soil properties control nutrient concentrations in headwater streams. Science of the Total Environment. 772 , 145108
[Research article]

Djodjic, Faruk and Geranmayeh, Pia and Markensten, Hampus (2020). Optimizing placement of constructed wetlands at landscape scale in order to reduce phosphorus losses. AMBIO: A Journal of the Human Environment. 49 , 1797-1807
[Research article]

Drakare, Stina (2014). Översyn av typologi för sjöar och vattendrag. Uppsala: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2014:2
[Report]

de Wit, Heleen A. and Lepisto, Ahti and Marttila, Hannu and Wenng, Hannah and Bechmann, Marianne and Blicher-Mathiesen, Gitte and Eklöf, Karin and Futter, Martyn and Kortelainen, Pirkko and Kronvang, Brian and Kyllmar, Katarina and Rakovic, Jelena (2020). Land-use dominates climate controls on nitrogen and phosphorus export from managed and natural Nordic headwater catchments. Hydrological Processes. 34 , 4831-4850
[Research article]

E

Ellison, David and Speranza, Chinwe Ifejika (2020). From blue to green water and back again: Promoting tree, shrub and forest-based landscape resilience in the Sahel. Science of the Total Environment. 739 , 140002 , 1-14
[Research article]

F

Florin, Ann-Britt and Mo, Kerstin and Svensson, Filip and Schagerström, Ellen and Kautsky, Lena and Bergström, Lena (2013). First records of Conrad’s false mussel, Mytilopsis leucophaeata (Conrad, 1831) in the southern Bothnian Sea, Sweden, near a nuclear power plant. BioInvasions Records. 2 :4 , 303-309
[Research article]

Fölster, Jens (1999). Control of runoff chemistry by processes in the near-stream zone. Uppsala : Sveriges lantbruksuniv. , Rapport / Sveriges lantbruksuniversitet, Miljöanalys, 1403-977X ; 1999:5
[Licentiate thesis]

Fölster, Jens and Djodjic, Faruk (2016). Underlag till bedömningsgrunder för kväve i sjöar och vattendrag. Uppsala: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2015:12
[Report]

Fölster, Jens and Von Brömssen, Claudia and Kyllmar, Katarina (2017). Metodutveckling av trendanalys för jordbruksvattendrag. Uppsala, Sweden: (NL, NJ) > Dept. of Aquatic Sciences and Assessment
(NL, NJ) > Dept. of Soil and Environment
(S) > Dept. of Soil and Environment

(NL, NJ) > Dept. of Energy and Technology, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2017:2
[Report]

G

Gebrehiwot, Solomon Gebreyohannis and Ilstedt, Ulrik and Gärdenäs, Annemieke and Bishop, Kevin (2011). Hydrological characterization of watersheds in the Blue Nile Basin, Ethiopia. Hydrology and earth system sciences. 15 :1 , 11-20
[Research article]

Golovko, Oksana and Örn, Stefan and Sörengård, Mattias and Frieberg, Kim and Nassazzi, Winnie and Lai, Foon Yin and Ahrens, Lutz (2021). Occurrence and removal of chemicals of emerging concern in wastewater treatment plants and their impact on receiving water systems. Science of the Total Environment. 754 , 142122
[Research article]

Grabs, T. and Xu, C. Y. and Seibert, Jan and Reynolds, J. E. and Halldin, S. (2020). Flood prediction using parameters calibrated on limited discharge data and uncertain rainfall scenarios. Hydrological Sciences Journal. 65 , 1512-1524
[Research article]

Grabs, Thomas and Bishop, Kevin and Laudon, H. and Lyon, Steve W. and Seibert, Jan (2012). Riparian zone hydrology and soil water total organic carbon (TOC). Biogeosciences. 9 :10 , 3901-3916
[Research article]

Granath, Gustaf and Moore, Paul A. and Lukenbach, Maxwell C. and Waddington, J.M (2016). Mitigating wildfire carbon loss in managed northern peatlands through restoration. Scientific Reports. 6 , 1-9
[Research article]

Gren, Ing-Marie and Sandman Nyström, Antonia and Näslund, Johan (2016). Economic effects of the invasive worm Marenzelleria spp. in the Baltic Sea. Uppsala: (NL, NJ) > Dept. of Economics, Sveriges lantbruksuniversitet. Working paper series / Swedish University of Agricultural Sciences, Department of Economics ; 2016:11
[Report]

Griffiths, Jennifer R. and Kadin, Martina and Niiranen, Susa and Nascimento, Francisco and Tamelander, Tobias and Törnroos, Anna and Bonaglia, Stefano and Bonsdorf, Erik and Gårdmark, Anna and Brüchert, Volker and Järnström, Marie and Kotta, Jonne and Lindegren, Martin and Norström, Marie and Norkko, Alf and Olsson, Jens and Weigel, Benjamin and Zydelis, Ramunas and Blenckner, Thorsten and Niiranen, Susa and Winder, Monica (2017). The importance of benthic-pelagic coupling for marine ecosystem functioning in a changing world. Global change biology. 23 :6 , 2179-2196
[Article Review/Survey]

H

Hakala, Kirsti and Addor, Nans and Gobbe, Thibault and Ruffieux, Johann and Seibert, Jan (2020). Risks and opportunities for a Swiss hydroelectricity company in a changing climate. Hydrology and Earth System Sciences. 24 , 3815-3833
[Research article]

Hallstan, Simon and Boström, Gustaf and Gönczi, Mikaela (2020). Övervakning av biologi i vattendrag i jordbruksintensiva områden: resultat av elva års övervakning samt utvärdering av övervakningsprogrammet. (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. CKB rapport / Sveriges lantbruksuniversitet, Kompetenscentrum för kemiska bekämpningsmedel ; 2020:2
[Report]

Hashemi, Fatemeh and Pohle, Ina and Pullens, Johannes W. M. and Tornbjerg, Henrik and Kyllmar, Katarina and Marttila, Hannu and Lepisto, Ahti and Klove, Bjorn and Futter, Martyn and Kronvang, Brian (2020). Conceptual Mini-Catchment Typologies for Testing Dominant Controls of Nutrient Dynamics in Three Nordic Countries. Water. 12 , 1776 , 1-17
[Research article]

Heathwaite, Ann Louise and Bieroza, Magdalena (2020). Fingerprinting hydrological and biogeochemical drivers of freshwater quality. Hydrological Processes. 35
[Research article]

Hinzman, Alexa M. and Sjoeberg, Ylva and Lyon, Steve W. and Ploum, Stefan and van der Velde, Ype (2020). Increasing non-linearity of the storage-discharge relationship insub-Arcticcatchments. Hydrological Processes. 34 , 3894-3909
[Research article]

Holmgren, Kerstin and Renman, Ola and Sundin, Josefin and Wickström, Håkan and Bohman, Patrik and Persson, John (2020). Temperaturmätning i samband med provfisken. UNSPECIFIED.

Hu, Qian and Huser, Brian (2014). Anthropogenic oligotrophication via liming: Long-term phosphorus trends in acidified, limed, and neutral reference lakes in Sweden. Ambio. 43 :Suppl. 1 , 104-112
[Research article]

Huser, Brian (2019). Läckagebenägen fosfor i sediment Mulöviken, Granöfjärden, och Bergnäsfjärden. Uppsala: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2019:8
[Report]

Huser, Brian (2014). Phosphorus binding by aluminium in sediment: a tool for restoring water quality in the Baltic Sea and other brackish surface waters. Uppsala: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2014:5
[Report]

Huser, Brian (2018). Undersökning av läckagebenägen fosfor och rekommendation av aluminiumdosering i Milsbosjöarna. (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. ; 2018:120
[Report]

Huser, Brian and Fölster, Jens and Köhler, Stephan (2012). Lead, zinc, and chromium concentrations in acidic headwater streams in Sweden explained by chemical, climatic, and land-use variations. Biogeosciences. 9 :11 , 4323-4335
[Research article]

Huser, Brian and Kikuchi, Johannes (2017). Läckagebenägen fosfor i Molkomsjöns sediment. Uppsala: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2017:7
[Report]

Huser, Brian and Köhler, Stephan (2018). Aluminiumbehandling av bottensedimenten i sjöarna Växjösjön och Södra Bergundasjön. Uppsala: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2018:14
[Report]

Huser, Brian and Köhler, Stephan (2014). Granskning av åtgärdsförslag för att minska internbelastningen av fosfor i Växjösjöarna. Uppsala: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2014:7
[Report]

Huser, Brian and Köhler, Stephan (2012). Potential toxicity and chemical processes of aluminium addition for sediment phosphorus control in Östhammarsfjärden. Uppsala, Sweden: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2012:02
[Report]

Huser, Brian and Köhler, Stephan and Wilander, Anders and Johansson, Kjell and Fölster, Jens (2011). Temporal and spatial trends for trace metals in streams and rivers across Sweden (1996-2009). Biogeosciences. 8 :7 , 1813-1823
[Research article]

Huser, Brian and Löfgren, Stefan and Markensten, Hampus (2016). Internbelastning av fosfor i svenska sjöar och kustområden. Uppsala: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2016:6
[Report]

J

Jarsjö, Jerker and Andersson-Sköld, Yvonne and Fröberg, Mats and Pietron, Jan and Borgström, Robin and Löv, Åsa and Berggren Kleja, Dan (2020). Projecting impacts of climate change on metal mobilization at contaminated sites: Controls by the groundwater level. Science of the Total Environment. 712 , 1-13
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

Jutebring Sterte, Elin and Lidman, Fredrik and Lindborg, Emma and Sjöberg, Ylva and Laudon, Hjalmar (2021). How catchment characteristics influence hydrological pathways and travel times in a boreal landscape. Hydrology and Earth System Sciences. 25 , 2133-2158
[Research article]

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Kiessling, Anders and Futter, Martyn and Elofsson, Katarina and Vidakovic, Aleksandar (2019). Musselodling i Östersjön som miljöåtgärd : nya positiva data från tre pågående EU-projekt. (NL, NJ) > Dept. of Aquatic Sciences and Assessment
(NL, NJ) > Dept. of Economics
(VH) > Dept. of Animal Nutrition and Management, Sveriges lantbruksuniversitet.
[Report]

Kiewiet, Leonie and van Meerveld, Ilja and Stahli, Manfred and Seibert, Jan (2020). Do stream water solute concentrations reflect when connectivity occurs in a small, pre-Alpine headwater catchment? Hydrology and Earth System Sciences. 24 , 3381-3398
[Research article]

Klaus, Marcus and Vachon, Dominic (2020). Challenges of predicting gas transfer velocity from wind measurements over global lakes. Aquatic Sciences - Research Across Boundaries. 82 , 53 , 1-17
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Kolbe, Tamara and Marcais, Jean and de Dreuzy, Jean-Raynald and Labasque, Thierry and Bishop, Kevin (2020). Lagged rejuvenation of groundwater indicates internal flow structures and hydrological connectivity. Hydrological Processes. 34 , 2176-2189
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Kozii, Nataliia and Haahti, Kersti and Tor-ngern, Pantana and Chi, Jinshu and Maher Hasselquist, Eliza and Laudon, Hjalmar and Launiainen, Samuli and Oren, Ram and Peichl, Matthias and Wallerman, Jörgen and Hasselquist, Niles (2020). Partitioning growing season water balance within a forested boreal catchment using sap flux, eddy covariance, and a process-based model. Hydrology and Earth System Sciences. 24 , 2999-3014
[Research article]

Kuglerova, Lenka and Jyvasjarvi, Jussi and Ruffing, Claire and Muotka, Timo and Jonsson, Anna and Richardson, John S. (2020). Cutting Edge: A Comparison of Contemporary Practices of Riparian Buffer Retention Around Small Streams in Canada, Finland, and Sweden. Water Resources Research. 56 , e2019WR026381
[Research article]

Kuglerova, Lenka and Maher Hasselquist, Eliza and Sponseller, Ryan Allen and Muotka, Timo and Hallsby, Göran and Laudon, Hjalmar (2021). Multiple stressors in small streams in the forestry context of Fennoscandia: The effects in time and space. Science of the Total Environment. 756 , 143521
[Research article]

Kylin, Henrik and Haglund, Kurt (2010). Screening of antifouling biocides around a pleasure boat marina in the Baltic Sea after legal restrictions. Bulletin of environmental contamination and toxicology. 85 :4 , 402-406
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(S) > Dept. of Soil and Environment
, Sveriges lantbruksuniversitet. Ekohydrologi ; 152
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Kynkäänniemi, Pia (2014). Small wetlands designed for phosphorus retention in Swedish agricultural areas. Diss. (sammanfattning/summary) Uppsala : Sveriges lantbruksuniv., Acta Universitatis Agriculturae Sueciae, 1652-6880 ; 2014:70
ISBN 978-91-576-8088-4
eISBN 978-91-576-8089-1
[Doctoral thesis]

L

Lannergård, Emma and Agstam-Norlin, Oskar and Huser, Brian and Sandström, Sara and Rakovic, Jelena and Futter, Martyn (2020). New Insights Into Legacy Phosphorus From Fractionation of Streambed Sediment. Journal of Geophysical Research: Biogeosciences. 125 , e2020JG005763
[Research article]

Larson, Niklas (2020). Baltic international acoustic survey report, October 2019. (NL, NJ) > Department of Aquatic Resources, Sveriges lantbruksuniversitet. Aqua reports ; 2020:10
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Laudon, Hjalmar (2000). Separating natural acidity from anthropogenic acidification in the spring flood of northern Sweden. Diss. (sammanfattning/summary) Uppsala : Sveriges lantbruksuniv., Acta Universitatis Agriculturae Sueciae. Silvestria, 1401-6230 ; 160
ISBN 91-576-5894-3
[Doctoral thesis]

Laudon, Hjalmar and Sponseller, Ryan A. and Bishop, Kevin (2021). From legacy effects of acid deposition in boreal streams to future environmental threats. Environmental Research Letters. 16 , 015007
[Research article]

Lavonen, Elin (2015). Tracking changes in dissolved natural organic matter composition. Diss. (sammanfattning/summary) Uppsala : Sveriges lantbruksuniv., Acta Universitatis Agriculturae Sueciae, 1652-6880 ; 2015:42
ISBN 978-91-576-8282-6
eISBN 978-91-576-8283-3
[Doctoral thesis]

Ledesma, José L. J. (2016). Biogeochemical processes in forest riparian zones. Diss. (sammanfattning/summary) Uppsala : Sveriges lantbruksuniv., Acta Universitatis Agriculturae Sueciae, 1652-6880 ; 2016:14
ISBN 978-91-576-8530-8
eISBN 978-91-576-8531-5
[Doctoral thesis]

Ledesma, José L. J. and Futter, Martyn and Laudon, Hjalmar and Evans, Christopher D. and Evans, C.D. and Köhler, Stephan (2016). Boreal forest riparian zones regulate stream sulfate and dissolved organic carbon. Science of the total environment. 560-561 , 110-122
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Lerman, Peggy and Hedlund, Anders (2007). Miljöbedömning och andra konsekvensanalyser i vattenplanering. Uppsala: (NL, NJ) > Dept. of Urban and Rural Development
(LTJ, LTV) > Dept. of Urban and Rural Development
, Sveriges lantbruksuniversitet. Rapporter (Institutionen för stad och land, SLU) ; 2007:5
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Li, Li and Sullivan, Pamela L. and Benettin, Paolo and Cirpka, Olaf A. and Bishop, Kevin and Brantley, Susan L. and Knapp, Julia L. A. and van Meerveld, Ilja and Rinaldo, Andrea and Seibert, Jan and Wen, Hang and Kirchner, James W. (2021). Toward catchment hydro-biogeochemical theories. WIREs Water. 8 , e1495
[Research article]

Lidberg, William and Nilsson, Mats and Lundmark, Tomas and Ågren, Anneli (2017). Evaluating preprocessing methods of digital elevation models for hydrological modelling. Hydrological processes. 31 , 4660-4668
[Research article]

Limburg, Karin and Breitburg, Denise and Swaney, Dennis P. and Jacinto, Gil S. (2020). Ocean deoxygenation: a primer. One Earth. 2 , 24-29
[Article Review/Survey]

Lindberg, Johanna (2001). Swedish environmental quality criteria. Uppsala : Sveriges lantbruksuniv. , Rapport / Sveriges lantbruksuniversitet, Miljöanalys, 1403-997X ; 2001:11
[Licentiate thesis]

Lindborg, Tobias and Rydberg, Johan and Andersson, Eva and Lofgren, Anders and Lindborg, Emma and Saetre, Peter and Sohlenius, Gustav and Berglund, Sten and Kautsky, Ulrik and Laudon, Hjalmar (2020). A carbon mass-balance budget for a periglacial catchment in West Greenland - Linking the terrestrial and aquatic systems. Science of the Total Environment. 711 , 1-19
[Research article]

Lopez, Marc Girons and Vis, Marc J. P. and Jenicek, Michal and Griessinger, Nena and Seibert, Jan (2020). Assessing the degree of detail of temperature-based snow routines for runoff modelling in mountainous areas in central Europe. Hydrology and Earth System Sciences. 24 , 4441-4461
[Research article]

Luan, Xiangyu and Vico, Giulia (2021). Canopy temperature and heat stress are increased by compound high air temperature and water stress and reduced by irrigation - a modeling analysis. Hydrology and Earth System Sciences. 25 , 1411-1423
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Lundin, Lars and Nilsson, Torbjörn and Jordan, Sabine and Lode, Elve and Strömgren, Monika (2017). Impacts of rewetting on peat, hydrology and water chemical composition over 15 years in two finished peat extraction areas in Sweden. Wetlands ecology and management. 24 :4 , 405-419
[Research article]

Lyon, Steve W. and Temnerud, Johan and Braun, Hendrik (2011). Accounting for instream lakes when interpolating stream water chemistry observations. Journal of spatial hydrology: an official publication of Spatial Hydrology. 11 :2 , 1-20
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Löfgren, Stefan (2004). Integrerad miljöövervakning av svensk skogsmark - IM, Sammanfattning av 1997-2001 och årsrapport för 2001. Uppsala: (NL, NJ) > Dept. of Soil and Environment
(S) > Dept. of Soil and Environment
, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Miljöanalys ; 7
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Löfgren, Stefan (1999). Integrerad miljöövervakning av svensk skogsmark - IM, Årsrapport 1997. Stockholm: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Naturvårdsverket ; 5031
[Report]

Löfgren, Stefan (1999). Integrerad miljöövervakning av svensk skogsmark - IM, Årsrapport 1997. Stockholm: (NL, NJ) > Dept. of Soil and Environment
(S) > Dept. of Soil and Environment
, Sveriges lantbruksuniversitet. Rapport / Naturvårdsverket ; 5031
[Report]

Löfgren, Stefan (2002). Integrerad miljöövervakning av svensk skogsmark - IM, Årsrapport 2000. Uppsala: (NL, NJ) > Dept. of Environmental Assessment (until 080831), Sveriges lantbruksuniversitet. Rapport / Naturvårdsverket ; 17
[Report]

Löfgren, Stefan (2000). Miljötillståndet i skogsmark - Integrerad miljöövervakning - Årsrapport 1998. Stockholm: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Naturvårdsverket ; 5071
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Löfgren, Stefan and Grandin, Ulf and Lundin, Lars and Östlund, Mikael and Bovin, Kajsa and Moldan, Filip and Pihl Karlsson, Gunilla (2016). Integrerad övervakning av miljötillståndet i svensk skogsmark - IM. Uppsala: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2016:5
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Nydahl, Anna C. and Wallin, Marcus and Weyhenmeyer, Gesa A. (2020). Diverse drivers of long-term pCO(2)increases across thirteen boreal lakes and streams. Inland Waters. 10 , 360-372
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Oni, Stephen and Futter, Martyn and Ledesma, José L. J. and Teutschbein, Claudia and Buttle, Jim and Laudon, Hjalmar (2016). Using dry and wet year hydroclimatic extremes to guide future hydrologic projections. Hydrology and earth system sciences. 20 :7 , 2811-2825
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Palm, Ola and Lalander, Cecilia and Vidakovic, Aleksandar (2019). Processing and storage of mussels. (VH) > Institutionen för husdjurens utfodring och vård, Sveriges lantbruksuniversitet.
[Report]

Pastorello, Gilberto and Trotta, Carlo and Canfora, Eleonora and Chu, Housen and Christianson, Danielle and Cheah, You-Wei and Poindexter, Cristina and Chen, Jiquan and Elbashandy, Abdelrahman and Humphrey, Marty and Isaac, Peter and Polidori, Diego and Ribeca, Alessio and van Ingen, Catharine and Zhang, Leiming and Amiro, Brian and Ammann, Christof and Arain, M. Altaf and Ardo, Jonas and Arkebauer, Timothy and Arndt, Stefan K. and Arriga, Nicola and Aubinet, Marc and Aurela, Mika and Baldocchi, Dennis and Barr, Alan and Beamesderfer, Eric and Marchesini, Luca Belelli and Bergeron, Onil and Beringer, Jason and Bernhofer, Christian and Berveiller, Daniel and Billesbach, Dave and Black, Thomas Andrew and Blanken, Peter D. and Bohrer, Gil and Boike, Julia and Bolstad, Paul V. and Bonal, Damien and Bonnefond, Jean-Marc and Bowling, David R. and Bracho, Rosvel and Brodeur, Jason and Bruemmer, Christian and Buchmann, Nina and Burban, Benoit and Burns, Sean P. and Buysse, Pauline and Cale, Peter and Cavagna, Mauro and Cellier, Pierre and Chen, Shiping and Chini, Isaac and Christensen, Torben R. and Cleverly, James and Collalti, Alessio and Consalvo, Claudia and Cook, Bruce D. and Coursolle, Carole and Cremonese, Edoardo and Curtis, Peter S. and D'Andrea, Ettore and da Rocha, Humberto and Dai, Xiaoqin and Davis, Kenneth J. and De Cinti, Bruno and de Grandcourt, Agnes and De Ligne, Anne and De Oliveira, Raimundo C. and Delpierre, Nicolas and Desai, Ankur R. and Di Bella, Carlos Marcelo and di Tommasi, Paul and Dolman, Han and Domingo, Francisco and Dong, Gang and Dore, Sabina and Duce, Pierpaolo and Dufrene, Eric and Dunn, Allison and Dusek, Jiri and Eamus, Derek and Eichelmann, Uwe and ElKhidir, Hatim Abdalla M. and Eugster, Werner and Ewenz, Cacilia M. and Ewers, Brent and Famulari, Daniela and Fares, Silvano and Feigenwinter, Iris and Feitz, Andrew and Fensholt, Rasmus and Filippa, Gianluca and Fischer, Marc and Frank, John and Galvagno, Marta and Gharun, Mana and Gianelle, Damiano and Gielen, Bert and Gioli, Beniamino and Gitelson, Anatoly and Goded, Ignacio and Goeckede, Mathias and Goldstein, Allen H. and Gough, Christopher M. and Goulden, Michael L. and Graf, Alexander and Griebel, Anne and Gruening, Carsten and Gruenwald, Thomas and Hammerle, Albin and Han, Shijie and Hansen, Birger Ulf and Hanson, Chad and Hatakka, Juha and He, Yongtao and Hehn, Markus and Heinesch, Bernard and Hinko-Najera, Nina and Hoertnagl, Lukas and Hutley, Lindsay and Ibrom, Andreas and Ikawa, Hiroki and Jackowicz-Korczynski, Marcin and Janous, Dalibor and Jans, Wilma and Jassal, Rachhpal and Jiang, Shicheng and Kato, Tomomichi and Khomik, Myroslava and Klatt, Janina and Knohl, Alexander and Knox, Sara and Kobayashi, Hideki and Koerber, Georgia and Kolle, Olaf and Kosugi, Yoshiko and Kotani, Ayumi and Kowalski, Andrew and Kruijt, Bart and Kurbatova, Julia and Kutsch, Werner L. and Kwon, Hyojung and Launiainen, Samuli and Laurila, Tuomas and Law, Bev and Leuning, Ray and Li, Yingnian and Liddell, Michael and Limousin, Jean-Marc and Lion, Marryanna and Liska, Adam J. and Lohila, Annalea and Lopez-Ballesteros, Ana and Lopez-Blanco, Efren and Loubet, Benjamin and Loustau, Denis and Lucas-Moffat, Antje and Lueers, Johannes and Ma, Siyan and Macfarlane, Craig and Magliulo, Vincenzo and Maier, Regine and Mammarella, Ivan and Manca, Giovanni and Marcolla, Barbara and Margolis, Hank A. and Marras, Serena and Massman, William and Mastepanov, Mikhail and Matamala, Roser and Matthes, Jaclyn Hatala and Mazzenga, Francesco and McCaughey, Harry and McHugh, Ian and McMillan, Andrew M. S. and Merbold, Lutz and Meyer, Wayne and Meyers, Tilden and Miller, Scott D. and Minerbi, Stefano and Moderow, Uta and Monson, Russell K. and Montagnani, Leonardo and Moore, Caitlin E. and Moors, Eddy and Moreaux, Virginie and Moureaux, Christine and Munger, J. William and Nakai, Taro and Neirynck, Johan and Nesic, Zoran and Nicolini, Giacomo and Noormets, Asko and Northwood, Matthew and Nosetto, Marcelo and Nouvellon, Yann and Novick, Kimberly and Oechel, Walter and Olesen, Jorgen Eivind and Ourcival, Jean-Marc and Papuga, Shirley A. and Parmentier, Frans-Jan and Paul-Limoges, Eugenie and Pavelka, Marian and Peichl, Matthias and Pendall, Elise and Phillips, Richard P. and Pilegaard, Kim and Pirk, Norbert and Posse, Gabriela and Powell, Thomas and Prasse, Heiko and Prober, Suzanne M. and Rambal, Serge and Rannik, Ullar and Raz-Yaseef, Naama and Reed, David and de Dios, Victor Resco and Restrepo-Coupe, Natalia and Reverter, Borja R. and Roland, Marilyn and Sabbatini, Simone and Sachs, Torsten and Saleska, Scott R. and Sanchez-Canete, Enrique P. and Sanchez-Mejia, Zulia M. and Schmid, Hans Peter and Schmidt, Marius and Schneider, Karl and Schrader, Frederik and Schroder, Ivan and Scott, Russell L. and Sedlak, Pavel and Serrano-Ortiz, Penelope and Shao, Changliang and Shi, Peili and Shironya, Ivan and Siebicke, Lukas and Sigut, Ladislav and Silberstein, Richard and Sirca, Costantino and Spano, Donatella and Steinbrecher, Rainer and Stevens, Robert M. and Sturtevant, Cove and Suyker, Andy and Tagesson, Torbern and Takanashi, Satoru and Tang, Yanhong and Tapper, Nigel and Thom, Jonathan and Tiedemann, Frank and Tomassucci, Michele and Tuovinen, Juha-Pekka and Urbanski, Shawn and Valentini, Riccardo and van der Molen, Michiel and van Gorsel, Eva and van Huissteden, Ko and Varlagin, Andrej and Verfaillie, Joseph and Vesala, Timo and Vincke, Caroline and Vitale, Domenico and Vygodskaya, Natalia and Walker, Jeffrey P. and Walter-Shea, Elizabeth and Wang, Huimin and Weber, Robin and Westermann, Sebastian and Wille, Christian and Wofsy, Steven and Wohlfahrt, Georg and Wolf, Sebastian and Woodgate, William and Li, Yuelin and Zampedri, Roberto and Zhang, Junhui and Zhou, Guoyi and Zona, Donatella and Agarwal, Deb and Biraud, Sebastien and Torn, Margaret and Papale, Dario (2020). The FLUXNET2015 dataset and the ONEFlux processing pipeline for eddy covariance data. Scientific Data. 7 , 225
[Research article]

Patriarca, Claudia and Sedano-Nunez, Vicente T. and Garcia, Sarahi L. and Bergquist, Jonas and Bertilsson, Stefan and Sjoberg, Per J. R. and Tranvik, Lars J. and Hawkes, Jeffrey A. (2021). Character and environmental lability of cyanobacteria-derived dissolved organic matter. Limnology and Oceanography. 66 , 496-509
[Research article]

Peralta-Tapia, Andres (2015). From precipitation to stream. Diss. (sammanfattning/summary) Umeå : Sveriges lantbruksuniv., Acta Universitatis Agriculturae Sueciae, 1652-6880 ; 2015:64
ISBN 978-91-576-8326-7
eISBN 978-91-576-8327-7
[Doctoral thesis]

Persson, Jesper and Fridell, Kent (2014). Övningsuppgifter i vattenbyggnad för landskapsingenjörer. Alnarp: (LTJ, LTV) > Department of Landscape Architecture, Planning and Management (from 130101), Sveriges lantbruksuniversitet. Landskapsarkitektur, trädgård, växtproduktionsvetenskap: rapportserie ; 2014:18
[Report]

Persson, Jesper and Fridell, Kent and Gustafsson, Eva-Lou and Englund, Jan-Eric (2014). Att räkna på vatten. Alnarp: (LTJ, LTV) > Department of Landscape Architecture, Planning and Management (from 130101), Sveriges lantbruksuniversitet. Landskapsarkitektur, trädgård, växtproduktionsvetenskap: rapportserie ; 2014:17
[Report]

Ploum, Stefan and Laudon, Hjalmar and Tapia, Andres Peralta and Kuglerova, Lenka (2020). Are dissolved organic carbon concentrations in riparian groundwater linked to hydrological pathways in the boreal forest? Hydrology and Earth System Sciences. 24 , 1709-1720
[Research article]

Ploum, Stefan W (2021). Groundwater connections between the boreal landscape and its headwater streams: the role of discrete riparian inflow points (DRIPs). Diss. (sammanfattning/summary) Sveriges lantbruksuniv., Acta Universitatis Agriculturae Sueciae, 1652-6880
ISBN 978-91-7760-732-8
eISBN 978-91-7760-733-5
[Doctoral thesis]

R

Ramberg, Ellinor and Burdon, Francis and Sargac, Jasmina and Kupilas, Benjamin and Rîşnoveanu, Geta and Lau, Danny C. P. and Johnson, Richard and Mckie, Brendan (2020). The Structure of Riparian Vegetation in Agricultural Landscapes Influences Spider Communities and Aquatic-Terrestrial Linkages. Water. 12 , 2855
[Research article]

Rankinen, Katri and Turtola, Eila and Lemola, Riitta and Futter, Martyn and Cano Bernal, Jose Enrique (2021). Nutrient Load Mitigation with Wintertime Cover as Estimated by the INCA Model. Water. 13 , 450
[Research article]

Rutgersson, Anna and Pettersson, Heidi and Nilsson, Erik and Bergström, Hans and Wallin, Marcus and Nilsson, E. Douglas and Sahlée, Erik and Wu, Lichuan and Mårtensson, E. Monica (2020). Using land-based stations for air-sea interaction studies. Tellus A: Dynamic Meteorology and Oceanography. 72 , 1-23
[Research article]

Rydén, Jesper (2019). A note on analysis of extreme minimum temperatures with the GAMLSS framework. Acta Geophysica. 67 , 1599-1604
[Research article]

S

Sandin, Leonard (2000). Spatial and temporal variability of stream benthic macroinvertebrates. Diss. (sammanfattning/summary) Uppsala : Sveriges lantbruksuniv., Acta Universitatis Agriculturae Sueciae. Silvestria, 1401-6230 ; 172
ISBN 91-576-6056-5
[Doctoral thesis]

Schelker, Jakob (2013). Forestry impact on water quality: a landscape perspective on dissolved organic carbon. Diss. (sammanfattning/summary) Umeå : Sveriges lantbruksuniv., Acta Universitatis Agriculturae Sueciae, 1652-6880 ; 2013:38
ISBN 978-91-576-7815-7
[Doctoral thesis]

Sikorska-Senoner, Anna E. and Schaefli, Bettina and Seibert, Jan (2020). Downsizing parameter ensembles for simulations of rare floods. Natural Hazards and Earth System Sciences. 20 , 3521-3549
[Research article]

Skarbovik, Eva and Aroviita, Jukka and Fölster, Jens and Solheim, Anne Lyche and Kyllmar, Katarina and Rankinen, Katri and Kronvang, Brian (2020). Comparing nutrient reference concentrations in Nordic countries with focus on lowland rivers. AMBIO: A Journal of the Human Environment. 49 , 1771-1783
[Research article]

Sonesten, Lars (2018). Test av olika naturgeografiska indelningar av sjöar och vattendrag till Sveriges vattenmiljö. Uppsala: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2018:2
[Report]

Sonesten, Lars (2018). Vattenkemi och bottenfauna i Mariestadsfjärden 2017. Uppsala: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2018:9
[Report]

Sonesten, Lars (2012). Vattenkemi och mjukbottenfauna i Mariestadsfjärden 2011. Uppsala: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2012:18
[Report]

Sonesten, Lars (2013). Vattenkemi och mjukbottenfauna i Mariestadsfjärden 2012. Uppsala: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2013:12
[Report]

Sonesten, Lars (2015). Vattenkemi och mjukbottenfauna i Mariestadsfjärden 2014. Uppsala: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2015:13
[Report]

Sonesten, Lars (2016). Vattenkemi och mjukbottenfauna i Mariestadsfjärden 2015. Uppsala: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2016:3
[Report]

Sonesten, Lars (2017). Vattenkemi och mjukbottenfauna i Mariestadsfjärden 2016. Uppsala: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2017:6
[Report]

Sonesten, Lars (2019). Vattenkemi och mjukbottenfauna i Mariestadsfjärden 2018. Uppsala: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2019:5
[Report]

Sonesten, Lars and Wallman, Karin and Axenrot, Thomas and Beier, Ulrika and Drakare, Stina and Ecke, Frauke and Goedkoop, Willem and Grandin, Ulf and Köhler, Stephan and Segersten, Joel and Vrede, Tobias (2013). Mälaren. Uppsala: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2013:1
[Report]

Strobl, Barbara and Etter, Simon and van Meerveld, Ilja and Seibert, Jan (2019). The CrowdWater game: A playful way to improve the accuracy of crowdsourced water level class data. PLoS ONE. 14 , e0222579 , 1-23
[Research article]

Su, Zhongbo and Zeng, Yijian and Romano, Nunzio and Manfreda, Salvatore and Francés, Félix and Ben Dor, Eyal and Szabó, Brigitta and Vico, Giulia and Nasta, Paolo and Zhuang, Ruodan and Francos, Nicolas and Mészáros, János and Fortunato Dal Sasso, Silvano and Bassiouni, Maoya and Zhang, Lijie and Tendayi Rwasoka, Donald and Retsios, Bas and Yu, Lianyu and Blatchford, Megan Leigh and Mannaerts, Chris (2020). An Integrative Information Aqueduct to Close the Gaps between Satellite Observation of Water Cycle and Local Sustainable Management of Water Resources. Water. 12 , 1495 , 1-36
[Research article]

Sun, Ge and Bishop, Kevin and Ferraz, Silvio and Jones, Julia (2020). Managing Forests and Water for People under a Changing Environment. Forests. 11 , 331 , 1-3
[Editorial]

T

Tamburino, Lucia and Di Baldassarre, Giuliano and Vico, Giulia (2020). Water management for irrigation, crop yield and social attitudes: a socio-agricultural agent-based model to explore a collective action problem. Hydrological Sciences Journal. 65 , 1815-1829
[Research article]

Tetzlaff, Doerthe and Buttle, James and Carey, Sean K. and Kohn, Matthew J. and Laudon, Hjalmar and McNamara, James P. and Smith, Aaron and Sprenger, Matthias and Soulsby, Chris (2021). Stable isotopes of water reveal differences in plant - soil water relationships across northern environments. Hydrological Processes. 35 , e14023
[Research article]

Thongdam, Somjate and Kuster, Anthony C. and Huser, Brian and Kuster, Anootnara T. (2021). Low Dose Coagulant and Local Soil Ballast Effectively Remove Cyanobacteria (Microcystis) from Tropical Lake Water without Cell Damage. Water. 13 , 111
[Research article]

Tiwari, Tejshree (2015). Conceptualizing catchment processes affecting stream chemistry. Diss. (sammanfattning/summary) Umeå : Sveriges lantbruksuniv., Acta Universitatis Agriculturae Sueciae, 1652-6880 ; 2015:67
ISBN 978-91-576-8332-8
eISBN 978-91-576-8333-5
[Doctoral thesis]

Tjerngren, Ida M J (2012). Redefining the role of wetlands as methyl mercury sources. Diss. (sammanfattning/summary) Umeå : Sveriges lantbruksuniv., Acta Universitatis Agriculturae Sueciae, 1652-6880 ; 2012:3
ISBN 978-91-576-7687-0
[Doctoral thesis]

V

Villa Solís, Ana (2014). Risk assessment of erosion and losses of particulate phosphorus. Diss. (sammanfattning/summary) Uppsala : Sveriges lantbruksuniv., Acta Universitatis Agriculturae Sueciae, 1652-6880 ; 2014:64
ISBN 978-91-576-8076-1
eISBN 978-91-576-8077-8
[Doctoral thesis]

van Emmerik, Tim and Seibert, Jan and Strobl, Barbara and Etter, Simon and den Oudendammer, Tijmen and Rutten, Martine and Razak, Mohd Shahrizal bin Ab and van Meerveld, Ilja (2020). Crowd-Based Observations of Riverine Macroplastic Pollution. Frontiers in Earth Science. 8 , 298
[Research article]

van Noordwijk, Meine and Bargues Tobella, Aida and Muthuri, C. W. and Gebrekirstos, Aster and Maimbo, M. and Leimona, B. and Bayala, Jules and Xing, M. and Lasco, R. and Jianchu, Xu and Ong, Chin K. (2019). Trees as part of nature-based water management. I/In: Sustainable development through trees on farms: agroforestry in its fifth decade. Sid./p. 299-327. Bogor: World Agroforestry (ICRAF) Southeast Asia Regional Program
[Book Chapter]

W

Wallin, Marcus and Audet, Joachim and Peacock, Michael and Sahlee, Erik and Winterdahl, Mattias (2020). Carbon dioxide dynamics in an agricultural headwater stream driven by hydrology and primary production. Biogeosciences. 17 , 2487-2498
[Research article]

Wallman, Karin and Düker, Anders and Nygren, Ingrid and Kulenovic, Mirsada (2020). Metallanalys i vatten från Bottenhavet och Bottenviken. (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2020:1
[Report]

Wauthy, Maxime and Rautio, Milla and Christoffersen, Kirsten S and Forsström, Laura and Laurion, Isabelle and Mariash, Heather L. and Peura, Sari and Vincent, Warwick F. (2018). Increasing dominance of terrigenous organic matter in circumpolar freshwaters due to permafrost thaw. Limnology and Oceanography Letters. 3 , 186-198
[Research article]

Widén Nilsson, Elin and Hansson, Klas and Wallin, Mats and Djodjic, Faruk and Lindgren, Georg (2012). The FyrisNP model version 3.2. Uppsala: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2012:9
[Report]

Widén Nilsson, Elin and Hansson, Klas and Wallin, Mats and Djodjic, Faruk and Orback, Caroline (2012). The FyrisNP model version 3.2 – a tool for catchment-scale modelling of source apportioned gross and net transport of nitrogen and phosphorus in rivers. Uppsala, Sweden: (NL, NJ) > Dept. of Aquatic Sciences and Assessment, Sveriges lantbruksuniversitet. Rapport / Sveriges lantbruksuniversitet, Institutionen för vatten och miljö ; 2012:8
[Report]

Winterdahl, Mattias (2013). Intra-annual variability of natural organic matter in boreal streams. Diss. (sammanfattning/summary) Uppsala : Sveriges lantbruksuniv., Acta Universitatis Agriculturae Sueciae, 1652-6880 ; 2013:1
ISBN 978-91-576-7758-7
[Doctoral thesis]

Y

Yan, Yanzi and Lidberg, William and Tenenbaum, David E. and Pilesjo, Petter (2020). The accuracy of drainage network delineation as a function of environmental factors: A case study in Central and Northern Sweden. Hydrological Processes. 34 , 5489-5504
[Research article]

Z

Zetterberg, Therese (2015). Measured and modelled long-term effects of whole-tree harvest. Diss. (sammanfattning/summary) Uppsala : Sveriges lantbruksuniv., Acta Universitatis Agriculturae Sueciae, 1652-6880 ; 2015:73
ISBN 978-91-576-8344-1
eISBN 978-91-576-8345-8
[Doctoral thesis]

Zuo, Minyu and Renman, Gunno and Gustafsson, Jon Petter and Renman, Agnieszka (2015). Phosphorus removal performance and speciation in virgin and modified argon oxygen decarburisation slag designed for wastewater treatment. Water research. 87 , 271-281
[Research article]

This list was generated on Mon May 17 03:02:58 2021 CEST.