Persistent organic pollutants in sediments and fish from Lake Victoria, Uganda

This thesis describes the occurrence and sources of selected persistent organic pollutants (POPs) such as polychlorinated dibenzo-p-dioxins (PCDDs), polychlorinated dibenzofurans (PCDFs), polychlorinated biphenyls (PCBs), polybrominated diphenyl ethers (PBDEs) and hexachlorocyclohexanes (HCHs) in the northern watershed of Lake Victoria. Sediments and fish were collected from three highly polluted embayments (i.e. Murchison Bay, Napoleon Gulf and Thurston Bay) of the lake. The analysis for PCDD/Fs, PCBs and PBDEs was done using a high resolution mass spectrometer coupled to a gas chromatograph (GC), and a GC equipped with an electron capture detector was used for HCHs. Total (Σ) PCDD/Fs, PCBs and PBDEs in sediments ranged from 3.19 to 478, 313 to 4325 and 60.8 to 179 pg g-1 dry weight (dw), respectively. The highest concentrations of pollutants were found at sites close to industrial areas and wastewater discharge points. The maximum concentrations of PCDD/Fs, PCBs, PBDEs and HCHs in fish muscle homogenates were 49, 779, 495 and 45,900 pg g-1 wet weight (ww), respectively. The concentrations of the pollutants in Nile perch (Lates niloticus) were significantly greater than those in Nile tilapia (Oreochromis niloticus), possibly due to differences in trophic level and dietary feeding habits among fish species. World Health Organization-toxic equivalency quotient (WHO2005-TEQ) values in the sediments were up to 4.24 pg g-1 dw for PCDD/Fs and 0.55 pg TEQ g-1 dw for the 12 dioxin-like PCBs (dl-PCBs). 23.1% of the samples from the Napoleon Gulf were above the interim sediment quality guideline value of 0.85 pg WHO-TEQ g-1 dw set by the Canadian Council for Ministers of the Environment. The WHO2005-TEQs in fish were 0.001-0.16 pg g-1 for PCDD/Fs and 0.001-0.31 pg g-1 ww for dl- PCBs. The TEQ values were within a permissible level of 3.5 pg g−1 ww recommended by the European Commission. Based on the Commission set TEQs and minimum risk level criteria formulated by the Agency for Toxic Substances and Disease Registry, the consumption of fish from Lake Victoria gives no indication of health risks associated to PCDD/Fs and PCBs. Principal component analysis (PCA) indicated that anthropogenic activities such as agricultural straw open burning, medical waste incinerators and municipal solid waste combustors were the major sources of PCDD/Fs in the watershed of Lake Victoria. The ratios of α-/γ-HCH varied from 0.89 to 1.68 suggesting that the highest HCH residues mainly came from earlier usage and fresh γ-HCH (lindane). In the present study, the concentration of POPs in fish were not significantly related to those in sediments, and the biota sediment accumulation factor (BSAF) concept was found to be a poor predictor of the bioavailability and bioaccumulation of environmental pollutants.

Geochemistry and water quality of Lake Qarun, Egypt

Water geochemistry is a very important tool for studying the water quality in a given area. Geology and climate are the major natural factors controlling the chemistry of most natural waters. Anthropogenic impacts are the secondary sources of contamination in natural waters. This study presents the first integrative approach to the geochemistry and water quality of surface waters and Lake Qarun in the Fayoum catchment, Egypt. Moreover, geochemical modeling of Lake Qarun was firstly presented. The Nile River is the main source of water to the Fayoum watershed. To investigate the quality and geochemistry of this water, water samples from irrigation canals, drains and Lake Qarun were collected during the period 2010‒2013 from the whole Fayoum drainage basin to address the major processes and factors governing the evolution of water chemistry in the investigation area. About 34 physicochemical quality parameters, including major ions, oxygen isotopes, trace elements, nutrients and microbiological parameters were investigated in the water samples. Multivariable statistical analysis was used to interpret the interrelationship between the different studied parameters. Geochemical modeling of Lake Qarun was carried out using Hardie and Eugster’s evolutionary model and a model simulated by PHREEQC software. The crystallization sequence during evaporation of Lake Qarun brine was also studied using a Jänecke phase diagram involving the system Na‒K‒Mg‒ Cl‒SO4‒H2O. The results show that the chemistry of surface water in the Fayoum catchment evolves from Ca- Mg-HCO3 at the head waters to Ca‒Mg‒Cl‒SO4 and eventually to Na‒Cl downstream and at Lake Qarun. The main processes behind the high levels of Na, SO4 and Cl in downstream waters and in Lake Qarun are dissolution of evaporites from Fayoum soils followed by evapoconcentration. This was confirmed by binary plots between the different ions, Piper plot, Gibb’s plot and δ18O results. The modeled data proved that Lake Qarun brine evolves from drainage waters via an evaporation‒crystallization process. Through the precipitation of calcite and gypsum, the solution should reach the final composition "Na–Mg–SO4–Cl". As simulated by PHREEQC, further evaporation of lake brine can drive halite to precipitate in the final stages of evaporation. Significantly, the crystallization sequence during evaporation of the lake brine at the concentration ponds of the Egyptian Salts and Minerals Company (EMISAL) reflected the findings from both Hardie and Eugster’s evolutionary model and the PHREEQC simulated model. After crystallization of halite at the EMISAL ponds, the crystallization sequence during evaporation of the residual brine (bittern) was investigated using a Jänecke phase diagram at 35 °C. This diagram was more useful than PHREEQC for predicting the evaporation path especially in the case of this highly concentrated brine (bittern). The predicted crystallization path using a Jänecke phase diagram at 35 °C showed that halite, hexahydrite, kainite and kieserite should appear during bittern evaporation. Yet the actual crystallized mineral salts were only halite and hexahydrite. The absence of kainite was due to its metastability while the absence of kieserite was due to opposed relative humidity. The presence of a specific MgSO4.nH2O phase in ancient evaporite deposits can be used as a paleoclimatic indicator. Evaluation of surface water quality for agricultural purposes shows that some irrigation waters and all drainage waters have high salinities and therefore cannot be used for irrigation. Waters from irrigation canals used as a drinking water supply show higher concentrations of Al and suffer from high levels of total coliform (TC), fecal coliform (FC) and fecal streptococcus (FS). These waters cannot be used for drinking or agricultural purposes without treatment, because of their high health risk. Therefore it is crucial that environmental protection agencies and the media increase public awareness of this issue, especially in rural areas.

“Good night, dear Lake of Shining Waters”. Luonto L. M. Montgomeryn Anne of Green Gables –teoksessa

Kanadalaisen kirjailijan L. M. Montgomeryn tunnetun ja rakastetun Anna-sarjan ensimmäinen osa Anne of Green Gables -teos (1908) kertoo orvosta tytöstä, joka pääsee Prinssi Edwardin saaren Avonlean kylään asumaan naimattoman sisarusparin Marilla ja Matthew`n kasvattilapseksi. Luonto on keskeisellä sijalla teoksessa: Anna on luontoa rakastava ja luonnon keskellä viihtyvä tyttö ja myös teoksen kertoja kuvaa paljon luontoa. Tutkimukseni käsittelee luontoa Anne of Green Gables -teoksessa. Tutkin luontoteemaa teoksessa seuraavista näkökulmista: Analysoin, kuinka luonto kuvataan teoksessa ja millainen on teoksen luontokuva. Luontokuvaa käsittelen pastoraalin käsitteen kautta, ja kysyn teokselta, voidaanko se tulkita pastoraaliksi ja kuinka teos asettuu pastoraalin traditioon. Lisäksi erittelen, millainen on päähenkilön Annan luontosuhde. Millaisen arvon hän antaa luonnolle ja mitä merkityksiä hän liittää luontoon? Tutkimus asettuu ekokriittiseen viitekehykseen, ja pohdin myös sitä, minkälainen on teoksen representaatio luonnosta ekokriittisesti tarkastellen. Amerikkalaisen transsendentalistin Ralph Waldo Emersonin luontofilosofia kulkee myös taustajuonteena tutkielmassa ja erittelen, mitä yhtymäkohtia hänen luontofilosofiassaan on Anne of Green Gables -teokseen. Anne of Green Gables -teoksen luontokuvaa voidaan luonnehtia romantisoiduksi ja idealisoivaksi. Luonto kuvataan kauniiksi, ja sen kauneutta ylistää niin Anna kuin teoksen kaikkitietävä kertojakin. Teoksen luontokuva on pastoraalinen, sillä siinä esiintyy vahvasti pastoraaliin liittyvä diskurssi maaseudun ja kaupungin vastakkainasettelusta siten, että maaseutu assosioituu positiivisesti, kun taas kaupunki nähdään negatiivisessa valossa. Luonnonläheinen Avonlean kylä näyttäytyy teoksessa niin idealisoidussa valossa, että se muistuttaa jo jonkinlaista myyttistä paratiisia. Näin ollen teoksen pastoraalisuus saa pejoratiivisiakin piirteitä. Annan luontosuhdetta värittää voimakas kunnioitus ja arvostus luontoa kohtaan. Hänen luontoon liittämistä arvoista keskeiselle sijalle nousee luonnon kauneus. Luonnon kauneuden arvostaminen toimii kuitenkin porttina luonnon toiseuttamiseen, mistä syntyy pieni arvoristiriita. Toisaalta kuitenkin Anna samaistuu luontoon tavalla, joka hämärtää perinteistä subjekti–objekti-dikotomiaa. Anna näyttäytyy vihreän maailman arkkityyppinä, lapsena, joka sulautuu luontoon ja kokee sen kodikseen. Luonto edustaa Annalle vapautta ja herättää myös hänen mielikuvituksena ja taiteellisen inspiraation. Lisäksi luonto on Annalle paikka, jossa voi saavuttaa autenttisen yhteyden Jumalaan.