01080cam0-2200325---450-99000310303040332120080128105129.03-7045-0063-1000310303FED01000310303(Aleph)000310303FED0100031030320030910d1983----km-y0itay50------baengATy-------001yyInput-output modelingproceedings of the third IIASA Task Force Meeting, 23-25 September 1982Maurizio Grassini and Anatoli Smyshlyaev, editorsLaxenburgInternational Institute for Applied Systems Analysis1983ix, 572 p.ill.24 cmIIASA collaborative proceedings series83.2Grassini,MaurizioSmyshlyaev,AnatoliInternational institute for applied systems analysis121055ITUNINARICAUNIMARCBK990003103030403321B/3.2 INP/83172SESSESInput-output modeling461887UNINA04994nam 2201453z- 450 991056646060332120220506(CKB)5680000000037775(oapen)https://directory.doabooks.org/handle/20.500.12854/81042(oapen)doab81042(EXLCZ)99568000000003777520202205d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierCyanotoxins in BloomEver-Increasing Occurrence and Global Distribution of Freshwater Cyanotoxins from Planktic and Benthic CyanobacteriaBaselMDPI - Multidisciplinary Digital Publishing Institute20221 online resource (386 p.)3-0365-3922-0 3-0365-3921-2 At present, cyanobacteria and their toxins (also known as cyanotoxins) constitute a major threat for freshwater resources worldwide. Cyanotoxin occurrence in water bodies around the globe is constantly increasing, whereas emerging, less studied or completely new variants and congeners of various chemical classes of cyanotoxins, as well as their degradation/transformation products are often detected. In addition to planctic cyanobacteria, benthic cyanobacteria, in many cases, appear to be important toxin producers, although far less studied and more difficult to manage and control. This Special Issue highlights novel research results on the structural diversity of cyanotoxins from planktic and benthic cyanobacteria, as well as on their expanding global geographical spread in freshwaters.Cyanotoxins in Bloom Environmental economicsbicsscResearch & information: generalbicssc16S rRNA phylogenyaeruginosamideaeruginosinsallelopathyanabaenopeptinanabaenopeptinsanalysisanatoxinanatoxin-aAzoresbenthicbioactive metabolitesbiocidebloomsco-occurrencecyanobacteriacyanobacterial metabolitescyanobacterial toxinscyanopeptidescyanotoxin detectioncyanotoxinscyanotoxins (CTs)cylindrospermopsindeep-chlorophyll layers (DCLs)deoxycylindrospermopsindereplication strategydetection methodsdihydroanatoxin-aearthquakesESI-LC-MS/MSeutrophicationfish tissuefragmentation spectraGeorgian Bayglobal natural product social networking (GNPS)Greek freshwatersharmful algal bloomsharmful bloomharmful cyanobacterial bloomsHS-SPME-GC/MShypoxiaLake VegoritisLC-MS/MSLC-qTRAP MS/MSLiquid Chromatography with tandem mass spectrometry (LC-MS/MS)liquid chromatography-tandem mass spectrometrylong term monitoringmacrophytesmass spectrometryMaumee BayMeiktila Lakemetalsmicrocystinmicrocystinsmicrocystins (MCs)Microcystismicrogininsmonitoringn/aneurotoxicosisnext-generation biomonitoringNRPSpeptideplanktonic cyanobacteriaPlanktothrixplasticsqPCRRaphidiopsisreal-time PCRreservoirSandusky Baysaxitoxinsedimentsediment coresshellfishSPESPE-LC-MS/MSstructure elucidationSynechococcustaste and odor (T&O) compoundstemperate lakestoxicityTychonematychoplankticvolatile organic compounds (VOCs)water qualityEnvironmental economicsResearch & information: generalKaloudis Triantafyllosedt1279732Hiskia AnastasiaedtTriantis TheodorosedtKaloudis TriantafyllosothHiskia AnastasiaothTriantis TheodorosothBOOK9910566460603321Cyanotoxins in Bloom3015910UNINA