Distribution and role of macrophytes in coastal lagoons : implications of critical shifts

Crossroads, crucibles and refuges are three words that may describe natural coastal lagoon environments. The words refer to the complex mix of marine and terrestrial influences, prolonged dilution due to the semi-enclosed nature and the function of a habitat for highly diverse plant and animal communities, some of which are endangered. To attain a realistic picture of the present situation, high vulnerability to anthropogenic impact should be added to the description. As the sea floor in coastal lagoons is usually entirely photic, macrophyte primary production is accentuated compared with open sea environments. There is, however, a lack of proper knowledge on the importance of vegetation for the general functioning of coastal lagoon ecosystems. The aim of this thesis is to assess the role of macrophyte diversity, cover and species identity over temporal and spatial scales for lagoon functions, and to determine which steering factors primarily restrict the qualitative and quantitative composition of vegetation in coastal lagoons. The results are linked to patterns of related trophic levels and the indicative potential of vegetation for assessment of general conditions in coastal lagoons is evaluated. This thesis includes five field studies conducted in flads and glo-flads in the brackish water northern Baltic Sea. Flads and glo-flads are defined as a Baltic variety of coastal lagoons, which due to an inlet threshold and post-glacial landuplift slowly will be isolated from the open sea. This process shrinks inlet size, increases exposure and water retention, and is called habitat isolation. The studied coastal lagoons are situated in the archipelago areas of the eastern coast of Sweden, the Åland Islands and the south-west mainland of Finland, where land-uplift amounts to ca. 5 mm/ per year. Out of 400 evaluated sites, a total of 70 lagoons varying in inlet size, archipelago position and anthropogenic influence to cover for essential environmental variation were chosen for further inventory. Vegetation composition, cover and richness were measured together with several hydrographic and morphometric variables in the lagoons both seasonally and inter-annually to cover for general regional, local and temporal patterns influencing lagoon and vegetation development. On smaller species-level scale, the effects of macrophyte species identity and richness for the fish habitat function were studied by examining the influence of plant interaction on juvenile fish diversity. Thus, the active election of plant monoand polycultures by fish and the diversity of fish in the respective culture were examined and related to plant height and water depth. The lagoons and vegetation composition were found to experience a regime shift initiated by increased habitat isolation along with land-uplift. Vegetation composition altered, richness decreased and cover increased forming a less isolated and more isolated regime, named the vascular plant regime and charophyte regime, respectively according to the dominant vegetation. As total phosphorus in the water, turbidity and the impact of regional influences decreased in parallel, the dominance of charophytes and increasing cover seemed to buffer and stabilize conditions in the charophyte regime and indicated an increased functional role of vegetation for the lagoon ecosystem. The regime pattern was unaffected by geographical differences, while strong anthropogenic impact seemed to distort the pattern due to loss of especially Chara tomentosa L. in the charophyte regime. The regimes were further found unperturbed by short-time temporal fluctuations. In fact the seasonal and inter-annual dynamics reinforced the functional difference between the regimes by the increasing role of vegetation along habitat isolation and the resemblance to lake environments for the charophyte regime. For instance, greater total phosphorus and chlorophyll a concentrations in the water in the beginning of the season in the charophyte regime compared with the vascular plant regime presented a steeper reduction to even lower values than in the vascular plant regime along the season. Despite a regional importance and positive relationship of macrophyte diversity in relation to trophic diversity, species identity was underlined in the results of this thesis, especially with decreasing spatial scale. This result was supported partly by the increased role of charophytes in the functioning of the charophyte regime, but even more explicitly by the species-specific preference of juvenile fish for tall macrophyte monocultures. On a smaller species-level scale, tall plant species in monoculture seemed to be able to increase their length, indicating that negative selection forms preferred habitat structures, which increase fish diversity. This negative relationship between plant and fish diversity suggest a shift in diversity patterns among trohic levels on smaller scale. Thus, as diversity patterns seem complex and diverge among spatial scales, it might be ambiguous to extend the understanding of diversity relationships from one trophic level to the other. All together, the regime shift described here presents similarities to the regime development in marine lagoon environments and shallow lakes subjected to nutrient enrichment. However, due to nutrient buffering by vegetation with increased isolation and water retention as a consequence of the inlet threshold, the development seems opposite to the course along an eutrophication gradient described in marine lagoons lacking an inlet threshold, where the role of vegetation decreases. Thus, the results imply devastating consequences of inlet dredging (decreasing isolation) in terms of vegetation loss and nutrient release, and call for increased conservational supervision. Especially the red listed charophytes would suffer negatively from such interference and the consequences are likely to also deteriorate juvenile fish production. The fact that a new species to Finland, Chara connivens Salzm. Ex. Braun 1835 was discovered during this study further indicates a potential of the lagoons serving as refuges for rare species.

Spatial and temporal variation in fish populations and assemblages in coastal waters of the northern Baltic Proper

The distribution and traits of fish are of interest both ecologically and socio-economically. In this thesis, phenotypic and structural variation in fish populations and assemblages was studied on multiple spatial and temporal scales in shallow coastal areas in the archipelago of the northern Baltic Proper. In Lumparn basin in Åland Islands, the fish assemblage displayed significant seasonal variation in depth zone distribution. The results indicate that investigating both spatial and temporal variation in small scale is crucial for understanding patterns in fish distribution and community structure in large scale. The local population of Eurasian perch Perca fluviatilis L displayed habitat-specific morphological and dietary variation. Perch in the pelagic zone were on average deeper in their body shape than the littoral ones and fed on fish and benthic invertebrates. The results differ from previous studies conducted in freshwater habitats, where the pelagic perch typically are streamlined in body shape and zooplanktivorous. Stable isotopes of carbon and nitrogen differed between perch with different stomach contents, suggesting differentiation of individual diet preferences. In the study areas Lumparn and Ivarskärsfjärden in Åland Islands and Galtfjärden in Swedish east coast, the development in fish assemblages during the 2000’s indicated a general shift towards higher abundances of small-bodied lower-order consumers, especially cyprinids. For European pikeperch Sander lucioperca L., recent declines in adult fish abundances and high mortalities (Z = 1.06–1.16) were observed, which suggests unsustainably high fishing pressure on pikeperch. Based on the results it can be hypothesized that fishing has reduced the abundances of large predatory fish, which together with bottom-up forcing by eutrophication has allowed the lower-order consumer species to increase in abundances. This thesis contributes to the scientific understanding of aquatic ecosystems with new descriptions on morphological and dietary adaptations in perch in brackish water, and on the seasonal variation in small-scale spatial fish distribution. The results also demonstrate anthropogenic effects on coastal fish communities and underline the urgency of further reducing nutrient inputs and regulating fisheries in the Baltic Sea region.

Streptococcus agalactiae (GBS) PNA FISH -tekniikan soveltuminen B-ryhmän streptokokin tunnistukseen

B-ryhmän beetahemolyyttinen streptokokki (GBS = Group B Streptococcus, Streptococcus agalactiae)aiheuttaa vakavia infektioita yleensä astasyntyneillä. Tartunta saadaan yleensä synnytyskanavasta ja riskitekijöinä ovat muun muassa keskosuus, ennenaikainen lapsivedenmeno ja äidin runsas Bstreptokokkikolonisaatio emättimessä. Bakteerin tunnistukseen käytetään tällä hetkellä viljelytekniikkaa, jonka tulos saadaan vasta 24-48 tunnin kuluttua. Opinnäytetyöni tarkoituksena on tutkia uutta ja nopeampaa tunnistusmenetelmää: GBS PNA FISH - tekniikkaa (Peptide Nucleic Acid Fluorescence in Situ Hybridization). Tarkoituksena on tutkia tekniikan spesifiteettiä ja sensitiviteettiä. Tekniikan spesifiteettiä tutkitaan B-ryhmän beetahemolyyttisellä streptokokilla sekä kuudella muulla emättimen normaaliflooraan kuuluvalla bakteerilajilla. Yhteensä bakteerikantoja on tutkimuksessa mukana 48 kappaletta. Tämän lisäksi tutkitaan myös tekniikan sensitiviteettiä, jota tutkitaan bakteereista tehdyn laimennossarjan avulla. Sensitiviteetti tutkitaan bakteeriseoksesta, jonne on B-ryhmän beetahemolyyttisen streptokokin lisäksi lisätty muita emättimen normaaliflooran bakteereita. Lisäksi sensitiviteetti tutkitaan pelkällä B-ryhmän beetahemolyyttisellä streptokokilla käyttäen sekä normaalia että bakteerin rikastusmenetelmää. Testeistä saadut tulokset tulkitaan fluoresenssimikroskoopin avulla. GBS PNA FISH -tekniikan spesifiteetti todettiin erittäin hyväksi. Tekniikka tunnisti kaikki B-ryhmän beetahemolyyttiset streptokokit positiivisiksi ja kaikki muut lajit antoivat negatiivisen tuloksen. B-streptokokin positiivisuus oli erotettavissa mikroskopoitaessa vahvana fluoresointina, kun taas muut lajit eivät fluoresoineet lainkaan. GBS PNA FISH -tekniikan sensitiivisyyden tulokset eivät kuitenkaan täyttäneet odotuksia. Ainoastaan bakteerin rikastusmenetelmällä saadut tulokset olivat loistavia, mutta bakteeriseoksella ja pelkällä B-ryhmän beetahemolyyttisellä streptokokilla saadut tulokset olivat lähes olemattomia. Rikastusmenetelmän kaikki laimennokset fluoresoivat positiivisina, kun taas muissa tapauksissa vain vahvin liuos antoi jonkinlaista positiivista fluoresointia. GBS PNA FISH -tekniikan spesifiteetti todettiin hyväksi. Tekniikan sensitiviteetti ei kuitenkaan vastaa käyttötarkoitusta ja todellisessa tilanteessa tekniikka ei pystyisi tunnistamaan sille spesifistä bakteeria muiden bakteerien joukosta.