00847nam0-22002891i-450-99000010962040332120080714121144.0000010962FED01000010962(Aleph)000010962FED0100001096220020821d--------km-y0itay50------baitay-------001yyFarbenphotographie und farbenfilmwissenschaftlische grundlagen und technische gestaltungmit einemgeleitwort von J. Eggert.BerlinSpringer verlag1953VI, 318 p., 2 tav.ill.24 cmFilm a coloriFotografia a colori778Schultze,WernerITUNINARICAUNIMARCBK99000010962040332123 19 B 2420167FINAGFINAGUNINA04751nam 2201153z- 450 991055790010332120210501(CKB)5400000000046279(oapen)https://directory.doabooks.org/handle/20.500.12854/69281(oapen)doab69281(EXLCZ)99540000000004627920202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierAdvancing Knowledge on Cyanobacterial Blooms in FreshwatersBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 online resource (202 p.)3-03943-505-1 3-03943-506-X Cyanobacterial blooms are a water quality problem that is widely acknowledged to have detrimental ecological and economic effects in drinking and recreational water supplies and fisheries. There is increasing evidence that cyanobacterial blooms have increased globally and are likely to expand in water resources as a result of climate change. Of most concern are cyanotoxins, along with the mechanisms that induce their release and determine their fate in the aquatic environment. These secondary metabolites pose a potential hazard to human health and agricultural and aquaculture products that are intended for animal and human consumption; therefore, strict and reliable control of cyanotoxins is crucial for assessing risk. In this direction, a deeper understanding of the mechanisms that determine cyanobacterial bloom structure and toxin production has become the target of management practices. This Special Issue, entitled "Advancing Knowledge on Cyanobacterial Blooms in Freshwaters", aims to bring together recent multi- and interdisciplinary research, from the field to the laboratory and back again, driven by working hypotheses based on any aspect of mitigating cyanobacterial blooms, from ecological theory to applied research.Biology, life sciencesbicsscResearch & information: generalbicsscair temperatureantioxidative enzymesbacterial communityBalkanbest management practice (BMP)bloombloomscaffeic acidclimate changecontrolcyanobacteriacyanobacteria communitycyanobacterial bloomcyanobacterial growthdissolved inorganic nitrogendissolved organic carbonDolichospermum lemmermanniiecological functionecosystemsenvironmental changeenvironmental factorseutrophicationfreshwaterfunctional groupsharmful cyanobacterial bloom (CyanoHAB)human and animal healthhydrodynamicLake GuchenghuLake Ludošlogistic equationman-made surface water channelmass transfermax algal populationmicrocystinMicrocystis aeruginosamitten crab culturemodelnestednessnon-point source (NPS)non-toxicnutrientsOregon Department of Environmental Quality (ODEQ)oxidative stressphenyl-acyl compoundsphosphonatephytoplanktonpoint source (PS)potentially harmful speciesproper functioning condition (PFC)Pseudanabaena galeataredox microcystin LRseasonal successionseasonal variationstoichiometrystream-lake linkagestress responsessubsurface methane maximumsubtropical reservoirSynechococcustaxonomictotal maximum daily load (TMDL)toxinstransboundarywater qualityBiology, life sciencesResearch & information: generalKormas Konstantinos Aredt1324222Vardaka ElisabethedtKormas Konstantinos ArothVardaka ElisabethothBOOK9910557900103321Advancing Knowledge on Cyanobacterial Blooms in Freshwaters3036066UNINA