Publikasjoner
NIBIOs ansatte publiserer flere hundre vitenskapelige artikler og forskningsrapporter hvert år. Her finner du referanser og lenker til publikasjoner og andre forsknings- og formidlingsaktiviteter. Samlingen oppdateres løpende med både nytt og historisk materiale. For mer informasjon om NIBIOs publikasjoner, besøk NIBIOs bibliotek.
2024
Forfattere
Marianne Bechmann Frederik Bøe Hans Olav Eggestad Anastasija Isidorova Sigrun Kvernø Kathinka Lang Roger Holten Åge MolversmyrRedaktører
Hanne UgstadSammendrag
Program for jord- og vannovervåking i landbruket (JOVA) ledes av NIBIO divisjon for miljø og naturressurser og gjennomføres i samarbeid med Divisjon for bioteknologi og plantehelse, flere av forskningsstasjonene i NIBIO og andre institusjoner. JOVA overvåker jordbruksdominerte nedbørfelt over hele landet, og feltene representerer ulike driftsformer og ulike jordbunns-, hydrologiske og klimatiske forhold. JOVA rapporterer årlig om jordbruksdrift, avrenning og tap av partikler, næringsstoffer. Tap av partikler og næringsstoffer rapporteres for agrohydrologisk år, 1. mai – 1. mai. Tap av plantevernmidler overvåkes i for fem av feltene og rapporteres for kalenderår.
Forfattere
Getachew Birhanu Abera Aryan Bhusal Nabin Aryal Thea Os Andersen Linn Solli Svein Jarle Horn Lu Feng Begum BilgicSammendrag
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Forfattere
Csilla Farkas Moritz Shore Ágota Horel Gokhan Cüceloglu Levente Czelnai Dorota Mirosław-Świątek Maria Eliza Turek Natalja Čerkasova Brigitta Szabó Antonín Zajiček Attila Nemes Sinja Weiland Petr Fučík Annelie Holzkaemper Rasa Idzelyté Stepan MarvalSammendrag
Within the EU Horizon project OPTAIN (OPtimal strategies to reTAIN and re-use water and nutrients in small agricultural catchments across different soil-climatic regions in Europe, optain.eu) project, the effects of Natural/Small Water Retention Measures (NSWRMs) on water regime, soil erosion and nutrient transport are evaluated at both, catchment- and field-scales for present and future climate conditions. Our goal is to perform an integrated, model-based assessment of the effectiveness of NSWRMs at field scale and cross-validated these results from those obtained from the catchment-scale modelling. The field-scale assessment is based on the adaptation of the SWAP mathematical model to seven pilot sites across three European biogeographical regions and on combined NSWRM – projected climate scenario analyses. The scenarios are designed to evaluate the efficiency and potential of different natural/small water retention measures in improving soil water retention and reducing flash floods and the loss of soil and nutrients under changing climate conditions. We present the harmonized SWAP modelling workflow and the combined scenario analyses, including the implementation of various in-field measures in the SWAP model. Examples of model calibration, validation and scenario results for selected pilot sites will be given.
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Forfattere
Karin Juul Hesselsøe Anne Friederike Borchert Trond Olav Pettersen Atle Beisland Kristine Sundsdal Victoria Stornes Moen Erik Lysøe Monica Skogen Carl Frisk Tatsiana Espevig Christian Spring Mark Ferguson Matthew Clark Liam Hargreaves Martin Nilsson Wolfgang Prämaßing Lukas Borrink Daniel R. Hunt Julian Siebert Axel Städler Yuri Lebedin Valentina Maygurova Anna Antropova Tatiana Gagkaeva Marina Usoltseva Kate Entwistle Sabine Braitmaier Carlos Guerrero Ingeborg M. Hokkanen Heikki HokkanenSammendrag
Integrated Pest Management (IPM) refers to the integration of all available techniques for control of diseases, harmful insects and weeds and keep the use of pesticides to levels that are economically justified and environmentally sustainable (FAO, 2016). In compliance with regulations 2009/128/EU and 2009/1107/EU, the five Nordic countries, UK, the Netherlands, Germany, Portugal and Italy have all imposed strict regulations on pesticide use (STERF, 2016). In this context, a main challenge for golf courses is to secure high-quality playing conditions for current and future generations while at the same time reducing the dependency on chemical plant protection products. IPM has for many years been one of STERF’s highest research priorities with a focus on: Evaluation and management of turfgrass species, varieties and mixtures to create more disease resistant, stress tolerant and weed-competitive turf (i); Identification and understanding the biology and proliferation of harmful organisms in turf (ii) Safer and more efficient use of pesticides (including reduced risk for surface runoff and leaching to the environment (http://www.sterf.org/sv/projects/project-list?pid=12) (iii). Due to common EU directives, global warming and other reasons, golf courses in other parts of Northern Europe mostly experience the same IPM challenges as in the Nordic countries. This project addresses UN’s Sustainable Development Goals 12, 13 and 15 as described by R&A and STERF in ‘Golf Course Scandinavia 2030’. It is also a direct follow-up of R&A’s GC2030 ‘Action Plans for ‘Golf Course Condition and Playability’ (1) and ‘Resources’ which request projects that identify alternative approaches to pesticide use and discuss their efficacy (2). The overall goal of this project was to investigate cultural practices and new technologies for prevention and control of the two most important and destructive turfgrass diseases on golf course putting greens - microdochium patch and dollar spot, and to get insight on situation and methods for prevention and control of insect pests on golf courses with a minimum use of pesticides in the Nordic countries.
Forfattere
Attila Nemes Trond Haraldsen Lorna Dawson Monica Jayesingha Johanna Skrutvold Maria Dietrich Sigrid Esmeralda ArnestadSammendrag
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