{"refrec":{"BRefID":293768,"RR":"<b>Decostere, B.; Coppens, J.; Vervaeren, H.; Vlaeminck, S.E.; De Gelder, L.; Boon, N.; Nopens, I.; Van Hulle, S.W.H.</b> (2017). Kinetic exploration of intracellular nitrate storage in marine microalgae. <i>Journal of Environmental Science and Health Part A-Toxic/Hazardous Substances & Environmental Engineering 52(14)</i>: 1303-1311. <a href=\"https://dx.doi.org/10.1080/10934529.2017.1364921\" target=\"_blank\">https://dx.doi.org/10.1080/10934529.2017.1364921</a>","BEntID":285832,"PublicFlag":1,"CheckedFlag":1,"wosflag":1,"vabbflag":0,"RefStringPartII":". <i>Journal of Environmental Science and Health Part A-Toxic/Hazardous Substances & Environmental Engineering 52(14)</i>: 1303-1311. <a href=\"https://dx.doi.org/10.1080/10934529.2017.1364921\" target=\"_blank\">https://dx.doi.org/10.1080/10934529.2017.1364921</a>","DocTypID":8,"DocType":"Journal article","MarineFlag":1,"FreshFlag":0,"BrackishFlag":0,"TerrestrialFlag":0,"Authorstring":"Decostere, B.; Coppens, J.; Vervaeren, H.; Vlaeminck, S.E.; De Gelder, L.; Boon, N.; Nopens, I.; Van Hulle, S.W.H.","OrigTitleTranslFlag":0,"Authorstringtrunc":"Decostere, B. <i>et al.</i>","Englishabstract":"In this study, a recently developed model accounting for intracellular nitrate storage kinetics was thoroughly studied to understand and compare the storage capacity of <i>Phaeodactylum tricornutum</i> and <i>Amphora coffeaeformis</i>. In the first stage the identifiability of the biokinetic parameters was examined. Next, the kinetic model was calibrated for both microalgal species based on experimental observations during batch growth experiments. Two kinetic parameters were calibrated, namely the maximum specific growth rate <span class=\"NLM_disp-formula-image inline-formula\"><noscript><img src=\"/na101/home/literatum/publisher/tandf/journals/content/lesa20/2017/lesa20.v052.i14/10934529.2017.1364921/20171103/images/lesa_a_1364921_ilm0001.gif\" alt=\"\" /></noscript><img src=\"/na101/home/literatum/publisher/tandf/journals/content/lesa20/2017/lesa20.v052.i14/10934529.2017.1364921/20171103/images/lesa_a_1364921_ilm0001.gif\" alt=\"\" class=\"no-mml-formula\" data-formula-source=\"{\"type\" : \"image\", \"src\" : \"/na101/home/literatum/publisher/tandf/journals/content/lesa20/2017/lesa20.v052.i14/10934529.2017.1364921/20171103/images/lesa_a_1364921_ilm0001.gif\"}\"><span class=\"no-mml-formula\"></span></span> and the nitrate storage rate (<span class=\"NLM_disp-formula-image inline-formula\"><noscript><img src=\"/na101/home/literatum/publisher/tandf/journals/content/lesa20/2017/lesa20.v052.i14/10934529.2017.1364921/20171103/images/lesa_a_1364921_ilm0002.gif\" alt=\"\" /></noscript><img src=\"/na101/home/literatum/publisher/tandf/journals/content/lesa20/2017/lesa20.v052.i14/10934529.2017.1364921/20171103/images/lesa_a_1364921_ilm0002.gif\" alt=\"\" class=\"no-mml-formula\" data-formula-source=\"{\"type\" : \"image\", \"src\" : \"/na101/home/literatum/publisher/tandf/journals/content/lesa20/2017/lesa20.v052.i14/10934529.2017.1364921/20171103/images/lesa_a_1364921_ilm0002.gif\"}\"><span class=\"no-mml-formula\"></span></span>). A significant difference was observed for the nitrate storage rate between both species. For <i>P. tricornutum,</i> the nitrate storage rate was much higher (<span class=\"NLM_disp-formula-image inline-formula\"><noscript><img src=\"/na101/home/literatum/publisher/tandf/journals/content/lesa20/2017/lesa20.v052.i14/10934529.2017.1364921/20171103/images/lesa_a_1364921_ilm0003.gif\" alt=\"\" /></noscript><img src=\"/na101/home/literatum/publisher/tandf/journals/content/lesa20/2017/lesa20.v052.i14/10934529.2017.1364921/20171103/images/lesa_a_1364921_ilm0003.gif\" alt=\"\" class=\"no-mml-formula\" data-formula-source=\"{\"type\" : \"image\", \"src\" : \"/na101/home/literatum/publisher/tandf/journals/content/lesa20/2017/lesa20.v052.i14/10934529.2017.1364921/20171103/images/lesa_a_1364921_ilm0003.gif\"}\"><span class=\"no-mml-formula\"></span></span> = 0.036 m<sup>3</sup> g<sup>−1</sup> DW d<sup>−1</sup>) compared to <i>A. coffeaeformis</i> (<span class=\"NLM_disp-formula-image inline-formula\"><noscript><img src=\"/na101/home/literatum/publisher/tandf/journals/content/lesa20/2017/lesa20.v052.i14/10934529.2017.1364921/20171103/images/lesa_a_1364921_ilm0004.gif\" alt=\"\" /></noscript><img src=\"/na101/home/literatum/publisher/tandf/journals/content/lesa20/2017/lesa20.v052.i14/10934529.2017.1364921/20171103/images/lesa_a_1364921_ilm0004.gif\" alt=\"\" class=\"no-mml-formula\" data-formula-source=\"{\"type\" : \"image\", \"src\" : \"/na101/home/literatum/publisher/tandf/journals/content/lesa20/2017/lesa20.v052.i14/10934529.2017.1364921/20171103/images/lesa_a_1364921_ilm0004.gif\"}\"><span class=\"no-mml-formula\"></span></span> = 0.0004 m<sup>3</sup> g<sup>−1</sup> DW d<sup>−1</sup>). This suggests that <i>P. tricornutum</i> has a more efficient nitrate uptake ability and intracellular nitrate storage capacity and also indicates the need for determination of <span class=\"NLM_disp-formula-image inline-formula\"><noscript><img src=\"/na101/home/literatum/publisher/tandf/journals/content/lesa20/2017/lesa20.v052.i14/10934529.2017.1364921/20171103/images/lesa_a_1364921_ilm0005.gif\" alt=\"\" /></noscript><img src=\"/na101/home/literatum/publisher/tandf/journals/content/lesa20/2017/lesa20.v052.i14/10934529.2017.1364921/20171103/images/lesa_a_1364921_ilm0005.gif\" alt=\"\" class=\"no-mml-formula\" data-formula-source=\"{\"type\" : \"image\", \"src\" : \"/na101/home/literatum/publisher/tandf/journals/content/lesa20/2017/lesa20.v052.i14/10934529.2017.1364921/20171103/images/lesa_a_1364921_ilm0005.gif\"}\"><span class=\"no-mml-formula\"></span></span> in order to quantify nitrate storage.","AbstractOtherLang":null,"BibLvlCode":"AS","StandardTitle":"Kinetic exploration of intracellular nitrate storage in marine microalgae","OrigTitleLangCode":"en","OrigTitleLangCodeExtended":"eng","OrigTitleLangID":15,"DateLastModified":{"date":"2024-12-10 01:33:17.368041","timezone_type":1,"timezone":"+01:00"},"UserAccessRight":null,"UserAccID":null,"AuthorKeywords":"Microalgae; modelling; nutrient recovery; parameter identifiability;wastewater","OtherDescriptors":null,"Notes":null,"AnaPub":2017,"MonPub":null,"DateUpdate":"2020-09-01","DateCreate":"2018-03-12","SecASFANote":null,"ConfID":null,"PeerRev":1,"VlizCoreFlag":1,"WoScode":"WOS:000415634300004","VABBcode":null,"OpenAcc":0,"DOI":"10.1080/10934529.2017.1364921"},"refs":null,"anarec":{"AnaID":293768,"PubliDate":2017,"Pagination":"1303-1311","XtraPublOfAnaID":null,"ISBN":null,"Volume":"52","Issue":"14","BRefMon":null,"BRefMonRR":null,"BRefXtra":null,"BRefXtraRR":null,"SerBRefID":271930,"SerRR":"Journal of Environmental Science and Health Part A-Toxic/Hazardous Substances & Environmental Engineering. 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