Wetland biomass - Chemical benefits and problems with biogas usage

Lin, Shaojie

January 2012

Constructed wetlands are largely used for water treatment both in agricultural land and for treating water from municipal and industrial waste. These wetlands need to be managed in order to work properly. How to deal with the large amount of vegetation harvested in the wetlands has withdrawn a great concern. The application of using wetland biomass as the co-substrates in anaerobic digestion was studied in this project. Plant materials, mostly Phragmites australis (common reed) from three different wetlands were used as raw material to produce biogas. The methane production using reed material harvested from municipal wastewater, industrial wastewater and an agricultural wetland are 66, 106, 144 ml/g VS respectively, which were lower than the suggested number 180ml/g VS. The gas potential remains a lot to be improved such as harvesting at summer to reduce the lignin content and changing the co-digestion mixing level to adjust to the optimal C/N ratio. Chemical analyses were performed concerning the gas yield and the residue quality. The digested residues showed a low concentration of cadmium, providing a non-toxic possibility to be spread on farm land as fertilizers, and closing the nutrient circle from land into water and back to land again. Pretreatments in the biogas process are usually focusing on the reduction of the lignocellulosic content in the raw material. Assessment of costs and benefits is needed for using wetland reed in the biogas production and applying any pretreatment methods.

wetland biomass

anaerobic digestion

biogas

common reed

nutrient level

heavy metals

pretreatment

Utvärdering av Naturvårdsverkets bedömningsgrunder för makrofyter i sjöar

Landbecker, David

January 2011

According to the Water Framework Directive of the European Union, macrophytes should be used as indicators in the ecological and environmental monitoring of lakes. In the member state Sweden the Environmental Protection Agency has elaborated assessment criteria for determining lake status based on macrophytes. The main focus of this thesis is to evaluate the efficiency of the assessment criteria for macrophytes. In addition the concordance between the ecological status classes of the four quality factors included was analysed. The assessment criteria for macrophytes are based on the total phosphorus preference of the respective species. The focus is thus mainly on the nutrient level of the investigated lakes and the environmental problem monitored is eutrophication. Macrophytes are one of the five biological quality factors used for lakes. The others are phytoplankton, diatoms, benthic fauna and fish. The two latter were included in this thesis. In addition to the biological factors the chemical factor, nutrients in lakes, i.e. the total phosphorus, was included. The macrophyte composition was investigated in two eutrophic Uppland lakes: Lake Trehörningen and Lake Edasjön. Since the assessment criteria were launched in 2007 there have been problems reported regarding the outcome of the methods. The results are sometimes inconclusive for eutrophicated lakes and especially for lakes with naturally high levels of nutrients. In this study the macrophyte species composition was compared with the nutrient level of different lakes. Some species were found in equal shares in oligotrophic lakes as in eutrophic, e.g. Nymphaea candida and Nuphar lutea. Hence they were considered less suitable as elements in the method evaluated. A couple of species were present in predominantly oligotrophic (e.g. Lobelia dortmanna) or eutrophic (e.g. Hydrocharis morsus-ranae) lakes, respectively. They were regarded as better indicators since they ”preferred” lakes either poor or rich in nutrients. It is important to point out that all the other biological quality factors used, except for macrophytes, are multimetric. I conclude that more parameters are needed for evaluation of macrophytes in lakes. Tentatively, the degree of coverage of the plants and algae, the presence and degree of coverage of invasive nonnative species, lake lowerings and the consequent composition and abundance change, all should be tested as additional parameters.  A high level of concordance was verified for the status classifications of the four quality factors in lakes of oligotrophy as well as in lakes of eutrophy, i.e. no particular  pattern based on trophy level was found. The macrophyte inventories of the two Uppland lakes both resulted in a moderate ecological status for macrophytes.

Freshwater ecology

Limnisk ekologi