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Publications

NIBIOs employees contribute to several hundred scientific articles and research reports every year. You can browse or search in our collection which contains references and links to these publications as well as other research and dissemination activities. The collection is continously updated with new and historical material.

NIBIO's Scientific Publications →

2019

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Authors

Tatsiana Espevig Trond Olav Pettersen Trygve S. Aamlid

Abstract

No abstract has been registered

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Authors

Tatsiana Espevig Trond Olav Pettersen Trygve S. Aamlid

Abstract

Dette er den første rapporten om potensialet for additivet NanoPro til å redusere doseringen av de to mest brukte fungicider for bekjemping av mikrodochium flekk (Microdochium nivale), den økonomisk viktigste sykdommen på golfbaner i Skandinavia. Forsøket ble gjennomført fra 14.sept. 2018 til 1.mai 2019 på en tunrappgreen ved NIBIO Turfgrass Research Centre Landvik. Bruk av NanoPro 292 ml/ha i tankblanding, først med det systemiske fungicidet Delaro® SC 325 den 19.sept.18 og deretter med kontakt fungicidet Medallion® TL den 15.nov.18 gjorde det mulig å oppnå samme sykdomskontoll med 30-60 % mindre dose av fungicid. Virkningen av NanoPro var bedre med Medallion® TL enn med Delaro® SC 325. Våre foreløpige data tyder på at NanoPro kan være et viktig hjelpemiddel for å redusere forbruket av soppmidler på golfbaner. Forsøket bør gjentas ett år for å dokumentere effekten av NanoPro igjennom en artikkel i et vitenskapelig tidsskrift.

Authors

Trygve S. Aamlid Gudni Thorvaldsson Anne Mette Dahl Jensen Pia Heltoft Thomsen Tatsiana Espevig Trond Olav Pettersen Jan Tangsveen

Abstract

No abstract has been registered

Authors

Trygve S. Aamlid Tatsiana Espevig Trond Olav Pettersen

Abstract

No abstract has been registered

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Authors

Hans Martin Hanslin Armin Bischoff Knut Anders Hovstad

Abstract

Aim Root growth strategies may be critical for seeding survival and establishment under dry conditions, but these strategies and their plasticity are little known. We aim to document the ability of young grass seedlings to adjust their root system architecture, root morphology and biomass allocation to roots to promote water uptake and survival under progressive drought. Methods Seedlings growing in columns filled with sand and exposed to drought or well-watered controls were repeatedly harvested for determination of biomass fractions, root length, −architecture and -morphology in a greenhouse experiment. Allometric scaling exponents and standardised major axis regression were used to investigate allocation patterns. Results Young seedlings were able to sustain leaf turgor and functions during eight weeks of progressive drought through phenotypic plasticity of the primary root system producing deeper and simpler roots. Biomass allocation to roots decreased or did not respond, and other components of root morphology showed only moderate plasticity. Conclusion Our results suggest that morphological and architectural plasticity of the primary root system may well be key features for dehydration avoidance and survival in grass seedlings under moderate drought when allocation of biomass to roots and development of secondary roots are constrained.

Authors

Tatsiana Espevig

Abstract

No abstract has been registered

Authors

Tatsiana Espevig

Abstract

No abstract has been registered

Authors

Tatsiana Espevig

Abstract

No abstract has been registered

To document

Authors

Tatsiana Espevig Karin Normann Marina Usoltseva

Abstract

No abstract has been registered

Authors

Tatsiana Espevig

Abstract

No abstract has been registered