Biofilms in Nitrogen Removal - Bacterial Population Dynamics and Spatial Distribution
Sammanfattning
Efficient nitrogen removal at wastewater treatment plants (WWTPs) is necessary to avoid
eutrophication of recipient waters. The most commonly used approach consists of aerobic
nitrification and subsequent anaerobic denitrification resulting in the release of dinitrogen
gas into the atmosphere. Nitrification is a two-step process performed by ammoniaoxidizing
bacteria (AOB) and nitrite-oxidizing bacteria (NOB) often grown in biofilms at
WWTPs. An alternative approach is anaerobic ammonium oxidation (anammox) where
anammox bacteria convert ammonium and nitrite directly into dinitrogen gas. These
groups of bacteria grow very slowly and are sensitive to perturbations, which may result in
decreased efficiency or even breakdown of the process. Therefore, the ecology and activity
of these bacteria and the structure of the biofilms in which they grow require detailed
investigation to improve the understanding of nitrification and to facilitate the design of
efficient nitrogen-removal strategies.
To facilitate such studies of relevance for wastewater treatment, a nitrifying pilotplant
was built where environmental conditions and especially ammonium concentrations
could be controlled.
In an experiment on model nitrifying trickling filters (NTFs), it was shown that
biofilms subjected to intermittent feeding regimes of alternating high and low ammonium
concentration in the water, could maintain a higher nitrification potential than biofilms
constantly fed with low ammonium water. Such ammonium feed strategies can be used to
optimize wastewater treatment performance.
Different AOB populations within the N. oligotropha lineage were shown to respond
differently to changes in environmental conditions, indicating microdiversity within this
lineage which may be of importance for wastewater treatment. This diversity was further
investigated through the development of new image analysis methods for analyzing
bacterial spatial distribution in biofilms. The diversity within the N. oligotropha lineage
was also reflected in the positioning of two such populations in the biofilm, where the
vertical distribution patterns and relative positions compared to the NOB Nitrospira were
different.
In combination with a cryosectioning approach for retrieval of intact biofilm from
small biofilm carrier compartments, the new image analysis methods showed a threedimensonal
stratification of AOB-anammox biofilms. This may be of importance for
mathematical modeling of such biofilms and the design of new biofilm carriers.
Delarbeten
1. Lydmark, P., Almstrand, R., Samuelsson, K., Mattsson, A., Sörensson, F.,
Lindgren, P.-E. and Hermansson, M. Effects of environmental conditions on
the nitrifying population dynamics in a pilot wastewater treatment plant.
Environmental microbiology 9, 2220-33 (2007).
::PMID::17686020 2. Almstrand, R., Lydmark, P., Sörensson, F. and Hermansson, M. Nitrification
potential and population dynamics of nitrifying bacterial biofilms in response
to controlled shifts of ammonium concentrations in wastewater trickling
filters. Bioresource technology 102, 7685-7691 (2011).
::PMID::21703852 3. Almstrand, R., Daims, H., Persson, F., Sörensson, F. and Hermansson, M.
Spatial distribution and co-aggregation of nitrifying bacteria in cryosectioned
biofilms from different wastewater systems. Submitted manuscript. 4. Almstrand, R., Daims, H., Ekenberg, M., Christensson, M., Sörensson, F.
and Hermansson, M. Three-dimensional stratification of bacterial biofilm
populations in moving bed biofilm carriers for the anammox process.
Manuscript. 5. Almstrand, R., Lydmark, P., Lindgren, P.-E., Sörensson, F. and Hermansson,
M. Dynamics of specific ammonia-oxidizing bacterial populations and
nitrification potential in response to controlled shifts of ammonium
concentrations in wastewater. Submitted manuscript.
Examinationsnivå
Doctor of Philosophy
Universitet
Göteborgs universitet. Naturvetenskapliga fakulteten
Institution
Department of Cell and Molecular Biology ; Institutionen för cell- och molekylärbiologi
Disputation
3 februari 2012, kl. 10.00 i föreläsningssal Carl Kylberg (K2320), Institutionen för Kemi och Molekylärbiologi, Medicinaregatan 9
Datum för disputation
2012-02-03
E-post
robert.almstrand@cmb.gu.se
Datum
2012-01-12Författare
Almstrand, Robert
Nyckelord
AOB
NOB
biofilms
image analysis
FISH
Nitrosomonas
population dynamics
spatial distribution
Publikationstyp
Doctoral thesis
ISBN
978-91-628-8420-8
Språk
eng