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.
2019
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Synnøve GrenneSammendrag
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Pablo González-Moreno Lorenzo Lazzaro Montserrat Vilà Cristina Preda Tim Adriaens Sven Bacher Giuseppe Brundu Gordon H. Copp Franz Essl Emili Garcia-Berthou Stelios Katsanevakis Toril Loennechen Moen Frances E. Lucy Wolfgang Nentwig Helen E. Roy Greta Srėbalienė Venche Talgø Sonia Vanderhoeven Ana Andjelković Kęstutis Arbačiauskas Marie-Anne Auger-Rozenberg Mi-Jung Bae Michel Bariche Pieter Boets Mário Boieiro Paulo Alexandre Borges João Canning-Clode Frederico Cardigos Niki Chartosia Elizabeth Joanne Cottier-Cook Fabio Crocetta Bram D'hondt Bruno Foggi Swen Follak Belinda Gallardo Øivind Gammelmo Sylvaine Giakoumi Claudia Giuliani Guillaume Fried Lucija Šerić Jelaska Jonathan M. Jeschke Miquel Jover Alejandro Juárez-Escario Stefanos Kalogirou Aleksandra Kočić Eleni Kytinou Ciaran Laverty Vanessa Lozano Alberto Maceda-Veiga Elizabete Marchante Hélia Marchante Angeliki F. Martinou Sandro Meyer Dan Michin Ana Montero-Castaño Maria Cristina Morais Carmen Morales-Rodriguez Nadia Muhthassim Zoltán Á. Nagy Nikica Ogris Huseyin Onen Jan Pergl Riikka Puntila Wolfgang Rabitsch Triya Tessa Ramburn Carla Rego Fabian Reichenbach Carmen Romeralo Wolf-Christian Saul Gritta Schrader Rory Sheehan Predrag Simonović Marius Skolka António Onofre Soares Leif Sundheim Ali Serhan Tarkan Rumen Tomov Elena Tricarico Konstantinos Tsiamis Ahmet Uludağ Johan van Valkenburg Hugo Verreycken Anna Maria Vettraino Lluís Vilar Øystein Wiig Johanna Witzell Andrea Zanetta Marc KenisSammendrag
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Finn-Arne HaugenSammendrag
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Vitenskapelig kapittel – Recent developments in protective production of sweet cherry
Mekjell Meland
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Mekjell MelandSammendrag
Sweet cherry production worldwide is grown in the open land. Production technique is more or less similar with scions grafted on dwarfing and semi-dwarfing rootstock and trees arranged in single rows. Sweet cherries can be grown in Norway in areas with suitable local climatic conditions up to 60°N. All orchards have high density planting systems and are rain covered. Rain-induced fruit cracking in cherries remains a problem at an international level. The most common systems in Norway are multibay high tunnel systems and retractable rain covers. Covered orchard tunnel systems offer not only the advantage of rain exclusion but also allow additional manipulation of the environment, tree growth and fruiting. In general, sweet cherry high tunnel production gives increased yields of larger fruit than in the open land, but investment costs are higher. This overview article describes results from different experiments about high tunnels sweet cherry production mainly conducted at Nibio Ullensvang, Norway during the last ten years.
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Jie Zhang Shaoqiang Ni Wenjun Wu Xiao Huang Hongqiang Jiang Qingquan Li Jinnan Wang Guofeng Wu Conrad Zorn Chaoqing YuSammendrag
China is continually seeking to improve river water quality. Implemented in 1996, the total pollutant load control system (TPLCS) is a regulatory strategy to reduce total pollutant loads, under which a Pollutant Discharge Permit (PDP) program tracks and regulates nutrient inputs from point source polluters. While this has been promising, the input-response relationship between discharge permits and water quality targets is largely unclear – especially in China's large and complex river basins. In response, this study involved a quantitative analysis method to combine the water quality targets of the 12th Five-Year Plan (2011–2015) with allocated PDPs in the Nenjiang River Basin, China. We demonstrated our approach by applying the Soil and Water Assessment Tool (SWAT) to the Nenjiang River Basin for hydrological and water quality simulation. Ammonia nitrogen (NH3-N) was used as the primary water quality indicator. Modelling indicated that only one control section in the wider river basin did not achieve the water quality target, suggesting that the TPLCS is largely effective. The framework should be applied in other basins to study the effectiveness of PDP policies, advise further updates to the TPLCS, and ultimately aim to achieve freshwater quality targets nationally.