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: | JTI-20-83-497 |
Kategori: | S-JTI | Cirkularitet / restströmmar |
Ansökningsår: | 2020 |
Huvudsökande: | Cecilia Lalander |
Organisation: | Sveriges lantbruksuniversitet |
E-postadress: | cecilia.lalander@slu.se |
Telefon: | 0762215361 |
Medsökande: | Björn Vinnerås |
Medsökande: | Klara Löfkvist |
This application aims at finding a solution to a problem that exists in greenhouse production. Greenhouses have long been considered to be closed systems with no leakage to the surrounding environment. However, it has been shown that plant protection products (PPP) are found in the environment outside the production. The handling of the residual plant materials generally needs to be improved and processes that break down PPP:s developed. This application aims to study how fly larval composting (FLC) can contribute to finding a solution to an industry-wide concern, but also to develop a better handling of the plant nutrient-containing residual streams. The project is divided into four focus areas. In Focus 1, the volume and properties of the residuals are mapped, to be evaluated in the FLC process in Focus 2. A mobile FLC plant is prepared and tested in Focus 3; and in Focus 4, fly larval composting of the residual streams are conducted at a greenhouse in the mobile FLC plant.
Denna ansökan syftar till att hitta en lösning på en problematik som finns inom växthusproduktionen. Växthus har länge ansetts utgöra slutna system utan några läckage till omgivande miljö. Det har dock påvisats att växtskyddsmedel återfinns i miljön utanför produktionen. Hanteringen av det överblivna växtmaterialet behöver generellt förbättras och processer som bryter ner resterna av växtskyddsmedel utvecklas. Denna ansökan syftar till att studera hur fluglarvskompostering (FLK) kan bidra till att hitta en lösning på ett branschgemensamt bekymmer, men också att utveckla en bättre hantering av det växtnäringsinnehållande växtmaterialet. Projketet är uppdelat i fyra fokusområden. I fokus 1 kartläggs restströmmarnas volym och karaktär för att i fokus 2 utvärderas i fluglarvskomposteringsprocessen. En mobil anläggning för fluglarvskompostering förbereds och testas i fokus 3, och i fokus 4 testas fluglarvskompostering av restströmmarna vid ett växthus i den mobila anläggningen.
Projektnummer: O-20-22-476 • Status: Pågående • Ansökningsår: 2020
The raw material potential in Swedish agriculture needs to be utilized more efficiently to produce sustainable biofuels and thereby increase security of supply and reach the goals of reducing emissions from the transport sector by 2030. Aim of the project is examine how farms can adapt and …
Läs merProjektnummer: O-20-23-473 • Status: Pågående • Ansökningsår: 2020
The carbon footprint for ruminants is high compared to other food products of animal origin but grazing animals such
as beef and lamb have other positive effects on the environment such as increased biodiversity and carbon
sequestration. Beef- and lamb producers need clear guidelines on how to …
Projektnummer: O-20-23-457 • Status: Pågående • Ansökningsår: 2020
A main challenge for regions with intensive livestock production is phosphorus (P) surplus on farms, resulting in low P use efficiency and losses to waters. The project will provide solutions to increase P recycling from animal manure. This will decrease our dependency on imported P fertilizers, …
Läs merProjektnummer: H-20-47-555 • Status: Pågående • Ansökningsår: 2020
Viral infections of horses have significant impact on animal welfare and can lead to huge economic losses. One of the first early signs of a viral infection is the development of fever and to at this early step be able to identify the agent behind the infection would lead to rapid and correct …
Läs merProjektnummer: H-20-47-553 • Status: Pågående • Ansökningsår: 2020
Young horses can develop cervical vertebral stenotic myelopathy and ataxia, known as "wobbler syndrome" and associated with loss of breeding value, reduced athletic potential and euthanasia. Some wobblers have osteochondrosis of their vertebral facet joints, but it is now known how this relates to …
Läs merProjektnummer: H-20-47-556 • Status: Pågående • Ansökningsår: 2020
The alarming development of triple resistant Parascaris spp. is an increasing threat to foal health and the equine industry, due to the risk of increasing veterinary costs and loss of foals. A continued development of triple resistant roundworms in Sweden would be devastating for foals and …
Läs merProjektnummer: H-20-47-567 • Status: Pågående • Ansökningsår: 2020
Instructing riders is a complex task because the riding teacher needs to pay attention to both the horse and the rider. This is particularly challenging in the riding school situation. The aim of this project is to investigate riding teachers’ instructions of aids and their timing. The study will …
Läs merProjektnummer: JTI-20-83-495 • Status: Pågående • Ansökningsår: 2020
According to applicable legislation, manure and digestate must be sanitized in order to prevent disease transmission before they may be merchandised on the open market. Swedish plants currently have the choice between using one of two standard methods (70 °C for 1 h, or 52 °C for 10 h), or carry …
Läs merProjektnummer: R-21-25-516 • Status: Pågående • Ansökningsår: 2021
The rollback of insecticides exposes Swedish horticulture to a multitude of pests. Targeted and sustainable innovations are sorely needed. Here we target several pests of fruits, onion, cabbage, beans and salad and aim to develop 1) species-selective lures using a novel olfactomics platform, 2) use …
Läs merProjektnummer: R-21-25-509 • Status: Pågående • Ansökningsår: 2021
Fruit tree canker, caused by the fungus Neonectria ditissima, has become a threat for Swedish apple production. No efficient protective measures are available and no complete genetic resistance is known in apple. However, apple genotypes differ in the level of partial resistance which must be fully …
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