Please use this identifier to cite or link to this item: http://hdl.handle.net/1893/31917
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dc.contributor.authorArmstrong, Alonaen_UK
dc.contributor.authorPage, Trevoren_UK
dc.contributor.authorThackeray, Stephen Jen_UK
dc.contributor.authorHernandez, Rebecca Ren_UK
dc.contributor.authorJones, Ian Den_UK
dc.date.accessioned2020-11-11T01:03:56Z-
dc.date.available2020-11-11T01:03:56Z-
dc.date.issued2020-11-20en_UK
dc.identifier.other114055en_UK
dc.identifier.urihttp://hdl.handle.net/1893/31917-
dc.description.abstractIn an era of looming land scarcity and environmental degradation, the development of low carbon energy systems without adverse impacts on land and land-based resources is a global challenge. 'Floatovoltaic' energy systems—comprising floating photovoltaic (PV) panels over water—are an appealing source of low carbon energy as they spare land for other uses and attain greater electricity outputs compared to land-based systems. However, to date little is understood of the impacts of floatovoltaics on the hosting water body. Anticipating changes to water body processes, properties and services owing to floatovoltaic deployment represents a critical knowledge gap that may result in poor societal choices and water body governance. Here, we developed a theoretically-derived hierarchical effects framework for the assessment of floatovoltaic impacts on freshwater water bodies, emphasising ecological interactions. We describe how the presence of floatovoltaic systems may dramatically alter the air-water interface, with subsequent implications for surface meteorology, air-water fluxes and physical, chemical and biological properties of the recipient water body. We apply knowledge from this framework to delineate three response typologies - 'magnitude', those for which the direction and magnitude of effect can be predicted; 'direction', those for which only the direction of effect can be predicted; and 'uncertain', those for which the response cannot be predicted - characterised by the relative importance of levels in the effects hierarchy. Illustrative decision trees are developed for an example water body response within each typology, specifically, evaporative water loss, cyanobacterial biomass, and phosphorus release from bed sediments, and implications for ecosystem services, including climate regulation, are discussed. Finally, the potential to use the new understanding of likely ecosystem perturbations to direct floatovoltaic design innovations and identify future research priorities is outlined, showcasing how inter-sectoral collaboration and environmental science can inform and optimize this low carbon, land-sparing renewable energy for ecosystem gains.en_UK
dc.language.isoenen_UK
dc.publisherIOP Publishingen_UK
dc.relationArmstrong A, Page T, Thackeray SJ, Hernandez RR & Jones ID (2020) Integrating environmental understanding into freshwater floatovoltaic deployment using an effects hierarchy and decision trees. Environmental Research Letters, 15 (11), Art. No.: 114055. https://doi.org/10.1088/1748-9326/abbf7ben_UK
dc.rightsOriginal content from this work may be used under the terms of the Creative Commons Attribution 4.0 license (http://creativecommons.org/licenses/by/4.0/). Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI.en_UK
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/en_UK
dc.subjectfloating solaren_UK
dc.subjectFPVen_UK
dc.subjectfloatovoltaicsen_UK
dc.subjectaquatic ecosystemen_UK
dc.subjectfreshwateren_UK
dc.subjectecosystem servicesen_UK
dc.titleIntegrating environmental understanding into freshwater floatovoltaic deployment using an effects hierarchy and decision treesen_UK
dc.typeJournal Articleen_UK
dc.identifier.doi10.1088/1748-9326/abbf7ben_UK
dc.citation.jtitleEnvironmental Research Lettersen_UK
dc.citation.issn1748-9326en_UK
dc.citation.volume15en_UK
dc.citation.issue11en_UK
dc.citation.publicationstatusPublisheden_UK
dc.citation.peerreviewedRefereeden_UK
dc.type.statusVoR - Version of Recorden_UK
dc.contributor.funderCentre for Ecology & Hydrologyen_UK
dc.author.emailian.jones@stir.ac.uken_UK
dc.citation.date08/10/2020en_UK
dc.contributor.affiliationLancaster Universityen_UK
dc.contributor.affiliationLancaster Universityen_UK
dc.contributor.affiliationCentre for Ecology & Hydrology (CEH)en_UK
dc.contributor.affiliationUniversity of California, Davisen_UK
dc.contributor.affiliationBiological and Environmental Sciencesen_UK
dc.identifier.isiWOS:000591068700001en_UK
dc.identifier.scopusid2-s2.0-85096911403en_UK
dc.identifier.wtid1679172en_UK
dc.contributor.orcid0000-0002-6898-1429en_UK
dc.date.accepted2020-10-08en_UK
dcterms.dateAccepted2020-10-08en_UK
dc.date.filedepositdate2020-11-09en_UK
rioxxterms.apcnot requireden_UK
rioxxterms.typeJournal Article/Reviewen_UK
rioxxterms.versionVoRen_UK
local.rioxx.authorArmstrong, Alona|en_UK
local.rioxx.authorPage, Trevor|en_UK
local.rioxx.authorThackeray, Stephen J|en_UK
local.rioxx.authorHernandez, Rebecca R|en_UK
local.rioxx.authorJones, Ian D|0000-0002-6898-1429en_UK
local.rioxx.projectProject ID unknown|Centre for Ecology & Hydrology|en_UK
local.rioxx.freetoreaddate2020-11-10en_UK
local.rioxx.licencehttp://creativecommons.org/licenses/by/4.0/|2020-11-10|en_UK
local.rioxx.filenameArmstrong_2020_Environ._Res._Lett._15_114055.pdfen_UK
local.rioxx.filecount1en_UK
local.rioxx.source1748-9326en_UK
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