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: JTI-21-83-606 • Status: Pågående • Ansökningsår: 2021
The overall purpose of the project is to generate a base for recommendations for construction of new subsurface drainage and re-drainage of clay soils in the area Water - resource efficient management. Efficient drainage of arable land is important to increase crop production, to achieve …
Läs merProjektnummer: JTI-20-83-494 • Status: Pågående • Ansökningsår: 2020
For sustainable future development, it is essential to recirculate plant nutrients from different parts of society,
especially sewage plants, back to arable land. The aim of the proposed project is to ensure that high-quality fertiliser
products attractive for agricultural use are produced from …
Projektnummer: R-18-26-131 • Status: Pågående • Ansökningsår: 2018
In the proposed project, we will explore the benefits of increasing the longevity of dairy cows under Swedish conditions by changes in herd management. We will focus on effects on methane emissions by modelling, using existing data from the Swedish Official Milk Recording Scheme and results from an …
Läs merProjektnummer: R-19-25-287 • Status: Pågående • Ansökningsår: 2019
The purpose of this project is to develop new non-chemical methods for control of different seedborne-and soilborne pathogens. Aerated steam treatment (ThermoSeed) is a modern and environmentally friendly method for seedborne pathogen sanitation, mainly used on cereals. We intend to develop the …
Läs merProjektnummer: O-20-23-461 • Status: Pågående • Ansökningsår: 2020
The purpose of this project is to investigate to what extent substances in algae inhibit microbial methane formation in cows. Several substances, so-called bioactive substances, in red, green and brown algae, have a significant methane reducing effect. These are promising results but in order to …
Läs merProjektnummer: O-20-23-462 • Status: Pågående • Ansökningsår: 2020
The goal of the project is to digitize the data from the Swedish official field trials through automated estimates of important traits such as germination, growth, resistance, maturity and the effect of plant protection products. The purpose is to streamline and improve scoring of both diseases but …
Läs merProjektnummer: R-18-26-134 • Status: Pågående • Ansökningsår: 2018
Food production needs to increase in a sustainable way. This great challenge requires evaluation methods that gives information for better understanding of the impacts from agriculture and food and how to manage those impacts. The project addresses methodologies that include a broad range of …
Läs merProjektnummer: R-18-26-005 • Status: Pågående • Ansökningsår: 2018
The sensory attributes of the raw milk are of major importance for the quality of the resulting dairy products. Since the early 90’ies, the so-called “blueberry off-flavour” has caused severe economic consequences for affected dairy farmers. The mechanism behind is still unclear, although forages …
Läs merProjektnummer: O-18-23-141 • Status: Pågående • Ansökningsår: 2018
Humus is an important indicator of soil quality and soil organic carbon (SOC) sequestration is a cost-effective measure to reduce the climatic impact of food production systems. The national soil-monitoring program (SMP) show an upward trend in SOC during the past 20 years, mostly attributed to an …
Läs merProjektnummer: O-18-23-169 • Status: Pågående • Ansökningsår: 2018
Conventional technology is virtually unable to measure complete GHG budgets of drained organic soils, which may provide misleading results. So, global estimates of GHG emissions are based on coarse assumptions that don’t take into account the complexity of agroecosystems. Better data are needed for …
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