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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Analys av metanflöden från sjön Erken / Analysis of Methane Fluxes at Lake Erken

Mintz, Ryan January 2016 (has links)
While it is not the most abundant greenhouse gas, a significant portion of the greenhouse effect is caused by methane. The amount of methane in the atmosphere is increasing, indicating that there is a continuous source of methane to the atmosphere. One significant source of methane is freshwater lakes, even though they cover only a small portion of the Earth’s surface. Because of this, it is important to monitor methane fluxes from lakes in order to understand the processes which affect the magnitude of these fluxes. Methane is produced in the sediment at the bottom of the lake, and transported through the water by ebullition, diffusive flux, storage flux, or plant mediated emission. This study looked to examine the amount of methane transmitted to the atmosphere by these processes on Lake Erken in eastern Sweden. Using the eddy covariance method, we can study the methane flux with good spatial and temporal resolution. Regular sampling of lake water, both from the surface and depths of 5 and 10 meters, also helps us to understand the amount of methane dissolved in the lake. These measurements can help us to better understand the transfer velocity, or the efficiency of the exchange between water and air, as well as the amount of methane transported from lakes to the atmosphere. Water sampling showed that there is very little variation in methane concentration between different parts of the lake. Concentrations at four surface locations are nearly identical. These surface measurements are also similar to concentrations at different depths. Over time, the concentrations generally stayed the same, with isolated high and low concentration events. The amount of methane emitted by the lake was studied with the lake divided into a shallow water area, and a deep water area. The magnitude of fluxes from both areas was very similar, but the area of shallow water had a higher total flux. The fluxes were well correlated with wind speed; higher fluxes coming during times with higher wind speed. This relates well to the transfer velocity theory, and the bulk flux approximation. However, there was no clear diurnal cycle in methane fluxes. The fluxes during the night were similar to daytime fluxes. Atmospheric pressure also had an impact on fluxes, with greater fluxes coming at times of lower pressure. A large seasonal variation was clear. More methane escaped the water in autumn and winter than in spring or summer. This is due in part to the fluxes from when the lake freezes over/thaws and the water in the lake turns over, bringing methane rich water from the lake’s bottom to the surface. As expected, the waterside concentration of methane also had a strong correlation with the fluxes. The main conclusions of this study are: 1) Methane fluxes are variable with wind speed, waterside concentrations, and the seasons 2) Water depth and diurnal cycles do not affect methane fluxes as strongly. Keywords: methane, transfer velocity, flux, waterside concentration, eddy covariance
2

Mätningar av koldioxid- och metankoncentrationer över skogsbestånd med mobila mätsystem - en litteratur- och surveystudie för att kartlägga dagens teknikutveckling och framtidsutsikter / Measurements of carbon dioxide and methane flows over forest stands with mobile measuring systems - a literature- and survey study to map todays technology development and future prospects

Neuman, Malin January 2021 (has links)
Mänsklig aktivitet har ökat utsläppen av växthusgaser i atmosfären så mycket att det påverkat klimatet och spås förändra det mer om inte åtgärder vidtas för att utsläppen ska minksa och helst upphöra helt. För att lindra effekterna av koldioxid, som är den växthusgas med störst påverkan, kan skogen spela en stor roll. För att veta vilka åtgärder som är lämpliga krävs förståelse för hur olika ingrepp i skogen påverkar dess upptag och utsläpp. Under några decennier har koncentrationer och flöden av växthusgaser mätts med hjälp av fasta master. De är dock för få för att kunna generalisera resultaten över hela landskap. Här undersöks hur teknikläget för mobila mätmetoder ser ut idag via en litteratur- och surveyundersökning. Samtliga respondenter är hoppfulla och tror att det bara är en tidsfråga innan tekniken finns för att kunna använda sig av små drönare för att kunna genomföra mätningar av gaser över skogsmark. Ett koncept för en pilotstudie har tagits fram där koldioxidkoncentrationer ska mätas.

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