Scopus İndeksli Yayınlar Koleksiyonu / Scopus Indexed Publications Collection
Permanent URI for this collectionhttps://hdl.handle.net/11147/7148
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Book Part Micro-environment Establishment for Promoting Diverse Algal Growth(Springer Science and Business Media Deutschland GmbH, 2024) Sözmen,A.B.Algae offer sustainable sources for water, food, and energy production. They can remove pollutants and pathogens from wastewater and provide potable water. Also they can also be used in creating dietary supplements, functional foods, and biofuels. An optimal micro-environment is essential to promote their growth and productivity in specific applications, and for this purpose it is important to take various physical factors such as light, temperature, hydrodynamics, agitation, and shear stress and chemical factors such as nutrients, pH, and dissolved oxygen into consideration. These factors affect algae growth and productivity, both on their own and by a combinational affect. It is important to properly monitor and manage these factors to ensure optimal algae growth and productivity. This chapter provides an overview of physical and chemical factors that influence growth of algae, empha-sizing the importance of micro-environment management in promoting sustainable algae-based industries. It also includes the strategies that can be applied for this purpose, which covers the cultivation techniques and methods to manage cultivation microenvironment in terms of pH, nutrients, and dissolved oxygen. © The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2024.Article Citation - WoS: 98Citation - Scopus: 118Organophosphate Ester (opes) Flame Retardants and Plasticizers in Air and Soil From a Highly Industrialized City in Turkey(Elsevier Ltd., 2018) Kurt Karakuş, Perihan Binnur; Alegria, Henry; Birgül, Aşkın; Güngörmüş, Elif; Jantunen, LiisaPassive air samples were collected at eight sites in Bursa, Turkey during five sampling periods between February–December 2014. Locations encompassed urban, suburban, industrial, rural and background environments. Soil samples (n = 8) were collected at each site during February 2014. Six OPEs were detected in samples: tris(2-chloroethyl) phosphate (TCEP), tris(chloropropyl) phosphate (TCPP), triphenyl phosphate (TPHP), tris(2-butoxyethyl) phosphate (TBOEP), tris(2-ethylhexyl) phosphate (TEHP), and tris(2-isopropylphenyl) phosphate (T2iPPP). Frequency of detection in air samples was TCPP and TPHP (100%) > TBOEP (88%) > TCEP (85%) > TEHP (78%) > T2iPPP (20%). Total OPEs in air per site by sampling period (excluding non-detects) ranged from 529 to 19,139 pg/m3. In soil, total OPEs ranged from 38 to 468 ng/g dw. In air, alkylated OPEs dominated followed by halogenated and aryl OPEs. In air, annual mean concentrations were TBOEP > TCPP > TPHP > T2iPPP > TEHP > TCEP. In soils, alkylated OPEs were dominant at six sites and chlorinated OPEs at two sites. A comparison of OPE profiles between air and soil suggests that soils may be partly a source of OPEs to air. Mean concentrations in air were not directly proportional to temperature, and there were differences between alkylated compared to halogenated and aryl OPEs. In air, total and alkylated OPEs levels were fairly uniform, whereas more variability was found for the halogenated and aryl compounds. The relative contribution to total OPEs decreases for alkylated OPEs and increases for halogenated OPEs in samples going from background to suburban to urban and industrial sites. Levels of individual OPEs were all positively correlated between air and soils. In air, correlations between individual compounds were weak to moderate and were only statistically significant for TBOEP and TPHP. In soils, correlations were generally stronger and statistically significant only for TPHP and T2iPPP.