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Vpliv vnosa odpadne vode iz čistilnih naprav na strukturo in delovanje mikrobne združbe v obalnem morskem ekosistemu
ID Kodrin, Benja (Author), ID Stopar, David (Mentor) More about this mentor... This link opens in a new window, ID Tinta, Tinkara (Comentor)

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Abstract
Zaradi vse večje naseljenosti obalnih okolij je morski ekosistem izpostavljen različnim antropogenim motnjam, med katere uvrščamo tudi onesnaževanje z odpadnimi vodami. Vpliv vnosa hranil in mikroorganizmov z očiščeno odpadno vodo iz čistilnih naprav na obalno morsko združbo bakterij je slabo poznan, zato smo se v nalogi osredotočili na odziv metabolizma morskih bakterij na vnos očiščene odpadne vode iz komunalne čistilne naprave v modelnem eksperimentalnem sistemu. Ugotovili smo, da je vnos hranil iz odpadne vode, s katerim smo znižali molarno C:N razmerje raztopljene organske snovi v eksperimentalni steklenici, povečal bakterijsko rast, celično dihanje in produkcijo bakterijske biomase. Najvišjo bakterijsko abundanco smo izmerili v steklenicah, obogatenih z nefiltrirano odpadno vodo, k čemur so pripomogle tudi bakterije iz odpadne vode. Izračuni so pokazali, da so večji del asimiliranega ogljika iz odpadne vode bakterije usmerile v proces celičnega dihanja, kar se ujema z nizkimi vrednostmi bakterijske učinkovitosti rasti. Ker se z odpadno vodo v morja vnašajo tudi patogeni organizmi, med katerimi so potencialno lahko tudi bakterije rodu Vibrio, smo v drugem delu naloge nastavili eksperiment z različnimi čistimi kulturami Vibrio spp. Seve, izolirane iz različnih lokacij, smo izpostavili gojiščem z različno vsebnostjo hranil. Rast, celično dihanje in produkcija biomase posameznega izolata je bila najvišja v tistem tretmaju, ki je bil po hranilih najbolj podoben mestu izolacije bakterijskega seva, kar kaže, da so bili ti sevi dobro prilagojeni na okoljske razmere, iz katerih so bili izolirani.

Language:Slovenian
Keywords:obalni ekosistem, odpadne vode, čistilna naprava Piran, hranilne snovi, morske bakterije, rod Vibrio, bakterijska rast, celično dihanje, produkcija bakterijske biomase
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:BF - Biotechnical Faculty
Place of publishing:Ljubljana
Publisher:[B. Kodrin]
Year:2022
PID:20.500.12556/RUL-141352 This link opens in a new window
UDC:579.68:579.26:628.394
COBISS.SI-ID:123549443 This link opens in a new window
Publication date in RUL:29.09.2022
Views:674
Downloads:88
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Secondary language

Language:English
Title:Influence of wastewater input on the structure and functioning of the microbial community in the coastal marine ecosystem
Abstract:
The marine ecosystem can be affected by various anthropogenic activities, including wastewater pollution, due to population growth in coastal areas. The impact of nutrients and microorganisms from wastewater treatment plants on the bacterial community in coastal waters is poorly understood. Therefore, we focused our study on the response of marine bacterial metabolism to the addition of wastewater in microcosm experiments. We found that nutrient uptake from wastewater reduced the C:N molar ratio of dissolved organic matter in the experimental bottle and enhanced bacterial growth, respiration, and production. The highest bacterial density was measured in bottles with unfiltered wastewater, which also contained bacteria from wastewater treatment plants. Calculations showed that bacteria consumed most of the assimilated carbon in the respiration process, which is consistent with the low values of bacterial growth efficiency. Pathogenic organisms may also enter the sea with the wastewater, which can potentially include bacteria of the genus Vibrio. In the second part of the thesis, we focused on pure Vibrio cultures. We exposed Vibrio isolates to growth media with different nutrient concentrations. Growth, respiration, and production of each isolate were highest at the nutrient conditions most similar to the isolation site, suggesting good bacterial adaptation to the environmental conditions from which strains were isolated.

Keywords:coastal ecosystem, wastewater, wastewater treatment plant, nutrients, marine bacteria, genus Vibrio, bacterial growth, bacterial respiration, bacterial biomass production

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