Please use this identifier to cite or link to this item: http://hdl.handle.net/1893/31265
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dc.contributor.advisorHunter, Peter D-
dc.contributor.advisorCarvalho, Laurence-
dc.contributor.advisorMaberly, Stephen C-
dc.contributor.advisorMiller, Claire-
dc.contributor.authorRichardson, Jessica A-
dc.date.accessioned2020-06-11T08:35:44Z-
dc.date.issued2018-11-
dc.identifier.citationRichardson. J., Feuchtmayr. H., Miller. C., Hunter. P. D., Maberly. S. C., Carvalho. L. (2019) Response of cyanobacteria and phytoplankton abundance to warming, extreme rainfall events and nutrient enrichment. Global Change Biology. 25, 3365–3380. https://doi.org/10.1111/gcb.14701en_GB
dc.identifier.citationRichardson. J., Miller. C., Maberly. S. C., Taylor. P., Globevnik. L., Hunter. P. D., … & Søndergaard, M. (2018) Effects of multiple stressors on cyanobacteria abundance vary with lake type. Global Change Biology. 24, 5044–5055. DOI: 10.1111/gcb.14396en_GB
dc.identifier.urihttp://hdl.handle.net/1893/31265-
dc.description.abstractCyanobacteria are a diverse group of primary producers that can form dense blooms which are a major threat to freshwater quality and global water security. While nutrient enrichment is a key driver of cyanobacteria abundance, there is a broad consensus that ‘blooms like it hot’ and that climate warming will promote the proliferation of cyanobacterial blooms. A highly cited hypothesis suggests that nutrients and temperature enhance cyanobacterial blooms synergistically, but only a few studies have tested this directly. Furthermore, while climate change is often treated as a single stressor – warming – the impact on cyanobacteria of other potentially interacting factors, such as seasonal or extreme rainfall patterns, also need to be understood. This thesis explores, the multiple stressor effects of global change factors – eutrophication, climate warming and changes in rainfall patterns – on cyanobacterial abundance. This extends our knowledge from simple single stressor studies to dynamic, multiple-stressor studies using a range of approaches and scales. This includes analysis of European scale observational data from 494 lakes (chapter two), a mesocosm experiment (chapter three) and a process-based phytoplankton community model, PROTECH (chapter four). Overall, it is hard to generalise cyanobacterial responses to multiple stressors; both synergistic and some surprising antagonistic relationships were observed influenced by: lake characteristics (chapter two); the gradient of the stressor tested (chapter three); the measure of the response (chapter three); the timing and magnitude of the stressor (chapter four) and the location of the waterbody (chapters two and four). Broad generalisations can be made within lake types, yet, despite the need for complex models to deliver improved understanding, complex solutions may not be required. While precise sensitivities to climate stressors may vary, nutrient control remains the clearest mitigation measure to reduce the abundance of cyanobacteria in freshwaters, and this becomes even more important in the face of climate warming.en_GB
dc.language.isoenen_GB
dc.publisherUniversity of Stirlingen_GB
dc.subjectCyanobacteriaen_GB
dc.subjectLakesen_GB
dc.subjectClimate Changeen_GB
dc.subjectHarmful Algal Bloomsen_GB
dc.subjectMesocosmen_GB
dc.subjectMultiple Stressorsen_GB
dc.subjectNutrient Enrichmenten_GB
dc.subjectGlobal Changeen_GB
dc.subject.lcshCyanobacteria Ecologyen_GB
dc.subject.lcshLakesen_GB
dc.subject.lcshEutrophicationen_GB
dc.subject.lcshClimate changeen_GB
dc.titleClimate and nutrient controls of cyanobacteriaen_GB
dc.typeThesis or Dissertationen_GB
dc.type.qualificationlevelDoctoralen_GB
dc.type.qualificationnameDoctor of Philosophyen_GB
dc.rights.embargodate2020-10-31-
dc.rights.embargoreasonTime required to publish the final research chapter.en_GB
dc.contributor.funderThis work was supported in part by the MARS project funded under the EU 7th Framework Programme, Theme 6 (Environment including Climate Change), Contract No.: 603378en_GB
dc.author.emailjessica.richardson12@gmail.comen_GB
dc.rights.embargoterms2020-11-01en_GB
dc.rights.embargoliftdate2020-11-01-
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