Lantbruks- och trädgårdsföretagarnas egen forskningsstiftelse finansierar behovsdriven forskning för svenska förhållanden.
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Lantbruks- och trädgårdsföretagarnas egen forskningsstiftelse finansierar behovsdriven forskning för svenska förhållanden.
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Status: | Pågående |
Projektnummer: | O-17-20-977 |
Kategori: | Focus area | Food & feed |
Branschområden: | Växtodling Socker Trädgård |
Ansökningsår: | 2017 |
Huvudsökande: | Åsa Olsson |
Organisation: | Åsa Olsson |
E-postadress: | ao@nbrf.nu |
Telefon: | 0708-161283 |
Medsökande: | Jens Blomquist |
Medsökande: | Lars Persson |
The role of liming in the crop rotation remains to be thoroughly investigated. Within two recent SLF projects, yield in sugar beet, barley and oil seed rape has been measured in the first rotation. In 2018, beets will be grown for a second time which gives us unique possibilities with the aim to study the long-term effects of liming on diseases, plant nutrition, soil structure and effects on phosphorus which has not been done before. The objectives of the project are to measure yield in beets in rotation 2 and in winter-wheat, barley and oil seed rape in rotation 1 in 13 GPS positioned trials. We will measure total amounts of P, phosphate-P etc. in drainage water from lysimeters and relate this to long term aggregate stability. Diseases are evaluated in the field as well as in bioassays. Effects of lime on free living nematodes are evaluated. Long term effects on plant nutrition in soil and in plants will also be studied.
Kalkningens roll i växtföljden har länge varit otillräckligt utredd. Inom ramarna för två SLF-projekt har skördar i sockerbetor, korn och raps analyserats under första växtföljdsomloppet. I och med start av odlingssäsongen 2018 börjar det om igen med sockerbetor på den första gården vilket ger oss unika möjligheter i syfte att studera kalkningens långsiktiga effekter på sjukdomar, växtnäringstillgång samt markstruktur med kvardröjande fosforeffekter, något som inte studerats tidigare. Målen med projektet är att i 13 fastlagda försök mäta skörd i betor omlopp 2 och i höstvete, höstraps i omlopp 1. Vi kommer att mäta mängden total-P, fosfat-P och partikulär-P i lakvatten från lysimetrar och relatera dessa till långsiktig aggregatstabilitet samt risk för P-förluster. Sjukdomar graderas i fält och i biotester och effekter på frilevande nematoder undersöks. Dessutom studeras långsiktiga effekter av kalk på växnäringsinnehåll i jord och i plantor.
Projektnummer: O-19-20-310 • Status: Pågående • Ansökningsår: 2019
Both footrot and contagious ovine digital dermatitis (CODD) can cause extensive damage to the feet of affected sheep, and cause both suffering and financial losses. The aim of the proposed one-year project is to gain new knowledge about these two infectious feet diseases and their respective …
Läs merProjektnummer: O-19-20-299 • Status: Pågående • Ansökningsår: 2019
We work with the vision that it possible to reduce herbicide use and completely abandon glyphosate in reduced and no-till systems by promoting soil health and crop vigour through a diverse crop rotation, cover crops and mechanical weed control. In field experiments, we compare innovative glyphosate …
Läs merProjektnummer: O-19-20-316 • Status: Pågående • Ansökningsår: 2019
Climate change has brought about changing conditions for agriculture. In recent years precipitation deficit during the growing season has led to a shortage of forage in Sweden. During dry years, irrigation is necessary to achieve optimal yields. In addition, irrigation can bring about positive …
Läs merProjektnummer: O-19-20-320 • Status: Pågående • Ansökningsår: 2019
The Brassica pod midge Dasineura brassicae and its facilitator, the cabbage seed pod weevil Ceutorrhynchus obstrictus, have caused serious damage in oilseed rape crops during the last few years. No locally adapted IPM strategies exist, including pesticide management thresholds with evidentiary …
Läs merProjektnummer: O-19-22-292 • Status: Pågående • Ansökningsår: 2019
The conversion into a bio-based economy in Sweden requires a broad range of initiatives. One of the challenges is that additional sources of biomass will be needed. High yield potential, low conversion and production costs are critical success factors for new raw material. Salix is an energy crop …
Läs merProjektnummer: O-19-23-298 • Status: Pågående • Ansökningsår: 2019
Adding flowers to the cropping system that support beneficial insects is a promising option to achieve crop protection
in Swedish agriculture and horticulture. However, the wide-spread adoption of this approach has been hampered by
limited economic benefit and the risk of propagating pests and …
Projektnummer: O-19-23-309 • Status: Pågående • Ansökningsår: 2019
Climate projections for Sweden indicate higher temperatures during summer and larger variability in precipitation between years. This poses enormous challenges for Swedish agriculture. The main aim of this project is to investigate relationships between soil management, soil quality and crop yield. …
Läs merProjektnummer: JTI-19-82-289 • Status: Pågående • Ansökningsår: 2019
Kim, aged 24, is to take over Grandpa's dairy farm with a large acreage of land and natural pastures. The synthesis will address the development opportunities of the farm based on knowledge regarding cultivation systems, technical solutions and animal husbandry, but above all highlight unresolved …
Läs merProjektnummer: JTI-19-82-290 • Status: Pågående • Ansökningsår: 2019
Swedish agriculture needs to be environmentally and climate-friendly and at the same time be productive, profitable and ethically- and socially sustainable. RISE knowledge and skills covers a large part of Sweden’s agricultural technical competence. RISE has established national and internationally …
Läs merProjektnummer: JTI-19-82-291 • Status: Pågående • Ansökningsår: 2019
Applying circular economy principles to agriculture is a systematic approach to reduce the environmental and climate impact of agriculture while increasing efficiency, production and profitability. The road to circular agriculture requires that we 1) minimize external inputs, 2) reduce losses and …
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