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--- en:pub:bibtex:kuells [2024/04/14 08:07] – ckuells
+++ en:pub:bibtex:kuells [2024/05/14 15:41] (current) – ckuells
@@ Line 1: / Line 1: @@
-@article{OLA2024101405,
-title = {Remediating Oil Contamination in the Niger Delta Region of Nigeria: Technical Options and Monitoring Strategies},
-journal = {The Extractive Industries and Society},
-volume = {17},
-pages = {101405},
-year = {2024},
-issn = {2214-790X},
-doi = {https://doi.org/10.1016/j.exis.2024.101405},
-url = {https://www.sciencedirect.com/science/article/pii/S2214790X24000030},
-author = {Ibukun Ola and Carsten Drebenstedt and Robert M. Burgess and Martin Mensah and Nils Hoth and Christoph Külls},
-keywords = {Nigeria, Niger Delta, Ogoni, Oil remediation, Organoclay capping, Permeable reactive barriers, bioremediation},
-abstract = {The Niger Delta, a region of immense ecological significance and rich biodiversity, has long faced the severe consequences of petroleum contamination resulting from intense oil exploration and various environmental stressors. In response to the pressing need for effective remediation and monitoring of contaminated matrices in the Niger Delta, this study delves into a comprehensive analysis. Through a systematic assessment considering certain criteria, advanced remediation technologies tailored to the specific environmental challenges in the region are identified. Organoclay-based reactive core materials (RCM), permeable reactive barriers (PRBs), and bioremediation have emerged as highly suitable solutions for remediating sediment, groundwater, and soil, respectively. These technologies span the spectrum from non-intrusive to less intrusive methods and have demonstrated exceptional efficacy in mitigating hydrocarbon contamination under the delta's prevailing complex conditions. In addressing the critical need for monitoring the progress of remediation and post-remediation stages, a fully integrated approach is proposed. This strategy combines three essential components for tracking environmental quality improvements and understanding the recovery processes: traditional total chemical concentration (Ctotal) estimates, passive sampler-derived freely dissolved chemical concentration (Cfree) measurements, and ecological monitoring, specifically the recolonization test. Together, these components provide a more accurate description of risk and a comprehensive understanding of the recovery process. This study is concentrated on the systematic selection, supported by credible case study information, of tailored technical solutions for addressing the unique challenges of the Niger Delta. The novel outcomes lie in the identification of technology solutions carefully adapted for the region, representing a significant advancement in the field of environmental remediation in the Niger Delta. Science-based remediation and monitoring are key, and this study offers a decision support tool for selecting optimal methods in the ongoing cleanup of the Niger Delta and similar areas. This supports a healthier, more resilient environment for both the region's inhabitants and ecosystems.}
-}
-@article{mahindawansha2020investigating,
+@incollection{Adar.46,
-title={Investigating unproductive water losses from irrigated agricultural crops in the humid tropics through analyses of stable isotopes of water},
+author = {Adar, E. and K\"ulls, C.},
-author={Mahindawansha, Amani and K\"ulls, Christoph and Kraft, Philipp and Breuer, Lutz},
+title = {MCMsf - Mixing-cell model for a steady flow MIG: Mixing-cell input generator. A short manual for installation and operation of MCMsf using the MIG mixing-cell input generator},
-journal={Hydrology and Earth System Sciences},
+URL = {http://www-naweb.iaea.org/napc/ih/documents/TECDOCS/TECDOC{\%}20Flow{\%}20and{\%}20transport{\%}20in{\%}20groundwater{\%}202002{\%}20UIAGS.PDF},
-volume={24},
+series = {IAEA-TECDOC},
-number={7},
+number = {1448},
-pages={3627--3642},
+year = {2002},
-year={2020},
+publisher = {IAEA},
-publisher={Copernicus GmbH}
+address = {Vienna},
+booktitle = {{Use of Isotopes for Analyses of Flow and Transport Dynamics in Groundwater Systems}},
+pages = {1--29},
+keywords = {groundwater,mixing,modeling}
 }
-@article{christofi2020hydrochemical,
+@article{androvitsanea2018hydrologische,
-title={Hydrochemical evolution of groundwater in gabbro of the Troodos Fractured Aquifer. A comprehensive approach},
+title={Hydrologische Bedingungen im Heraion von Samos vom 12. bis 8. Jh. v. Chr. und ihre Bedeutung f\"ur die wasserbauliche Infrastruktur},
-author={Christofi, Christos and Bruggeman, Adriana and Kuells, Christoph and Constantinou, Costas},
+author={Androvitsanea, Anna and Fawzy, Mohammad and Fuchs, Johanna and Kuells, Christoph Jan and Fahlbusch, Henning and Heiden, Joachim},
-journal={Applied Geochemistry},
+journal={Environmental Water Engineering},
-volume={114},
+volume={1},
-pages={104524},
-year={2020},
-publisher={Pergamon}
-}
-@article{jin2020fdm,
-title={FDM based OA-ICOS for high accuracy 13C quantification in gaseous CO2},
-author={Jin, Zehao and K\"ulls, Christoph},
-journal={E\&ES},
-volume={446},
-number={3},
-pages={032061},
-year={2020}
-}
-@inproceedings{doulgeris2020prediction,
-title={Prediction of seawater intrusion to coastal aquifers based on non-dimensional diagrams},
-author={Doulgeris, Charalampos and Tziritis, Evangelos and Pisinaras, Vassilios and Panagopoulos, Andreas and K\"ulls, Christoph},
-booktitle={EGU General Assembly Conference Abstracts},
-pages={4073},
-year={2020}
-}
-@inproceedings{tziritis2020medsal,
-title={MEDSAL Project-Salinization of critical groundwater reserves in coastal Mediterranean areas: Identification, risk assessment and sustainable management with the use of integrated modelling and smart ICT tools},
-author={Tziritis, Evangelos and Aschonitis, Vassilis and Balacco, Gabriella and Daras, Petros and Doulgeris, Charalampos and Fidelibus, Maria Dolores and Gaubi, Elyes and Gueddari, Moncef and G\"uler, C\"uneyt and Hamzaoui, Fadoua and others},
-booktitle={EGU General Assembly Conference Abstracts},
-pages={2326},
-year={2020}
-}
-@inproceedings{kruger2020groundwater,
-title={Groundwater recharge estimates with soil isotope profiles-is there a bias on coarse-grained hillslopes?},
-author={Kr\"uger, Nina and K\"ulls, Christoph and Bruggeman, Adriana and Eliades, Marinos and Christophi, Christos and Rigas, Michali and Eracleous, Theodosia},
-booktitle={EGU General Assembly Conference Abstracts},
-pages={9840},
-year={2020}
-}
-@article{jobin2019application,
-title={Application of a laser-based spectrometer for continuous in situ measurements of stable isotopes of soil CO 2 in calcareous and acidic soils},
-author={Jobin, Joseph and K\"ulls, Christoph and Arend, Matthias and Schaub, Marcus and Hagedorn, Frank and Gessler, Arthur and Weiler, Markus},
-journal={Soil},
-volume={5},
 number={1},
-pages={49--62},
+pages={1--21},
-year={2019},
+year={2018}
-publisher={Copernicus GmbH}
 }
@@ Line 88: / Line 33: @@
 year={2018},
 publisher={RonPub}
-}
-@article{androvitsanea2018hydrologische,
-title={Hydrologische Bedingungen im Heraion von Samos vom 12. bis 8. Jh. v. Chr. und ihre Bedeutung f\"ur die wasserbauliche Infrastruktur},
-author={Androvitsanea, Anna and Fawzy, Mohammad and Fuchs, Johanna and Kuells, Christoph Jan and Fahlbusch, Henning and Heiden, Joachim},
-journal={Environmental Water Engineering},
-volume={1},
-number={1},
-pages={1--21},
-year={2018}
-}
-@article{hamutoko2014fingerprinting,
-title={A fingerprinting method for the identification of uranium sources in alluvial aquifers: An example from the Khan and Swakop Rivers, Namibia},
-author={Hamutoko, JT and Mapani, BS and Ellmies, R and Bittner, A and Kuells, C},
-journal={Physics and Chemistry of the Earth, Parts A/B/C},
-volume={72},
-pages={34--42},
-year={2014},
-publisher={Pergamon}
 }
@@ Line 124: / Line 49: @@
 pages="1533--1545",
 optnote="exported from refbase (http://uhydro.de/base/show.php?record=1230), last updated on Fri, 10 Apr 2015 12:35:54 +0200"
+}
+@article{Benito.51,
+author = {Benito, G. and Rohde, R. and Seely, M. and K\"ulls, C. and Dahan, O. and Enzel, Y.},
+title = {Management of Alluvial Aquifers in Two Southern African Ephemeral Rivers: Implications for IWRM},
+URL = {http://www.springerlink.com/index/A444075625259522.pdf},
+ISSN = {0920-4741 (Print) 1573-1650 (Online)},
+DOI = {10.1007/s11269-009-9463-9},
+volume = {24},
+number = {4},
+year = {2010},
+journal = {Water Resources Management},
+pages = {641--667}
+}
+@article{christofi2020hydrochemical,
+title={Hydrochemical evolution of groundwater in gabbro of the Troodos Fractured Aquifer. A comprehensive approach},
+author={Christofi, Christos and Bruggeman, Adriana and Kuells, Christoph and Constantinou, Costas},
+journal={Applied Geochemistry},
+volume={114},
+pages={104524},
+year={2020},
+publisher={Pergamon}
+}
+@article{Dahan.59,
+author = {Dahan, O. and Shani, Y. and Enzel, Y. and Yechieli, Y. and Yakirevich, A.},
+title = {Direct measurements of floodwater infiltration into shallow alluvial aquifers},
+volume = {344},
+year = {2007},
+journal = {Journal of Hydrology},
+pages = {157--170}
+}
+@article{Dahan.11,
+author = {Dahan, O. and Tatarsky, B. and Enzel, Y. and K\"ulls, C. and Seely, M. and Benito, G.},
+title = {Dynamics of flood water infiltration and ground water recharge in hyperarid desert},
+URL = {http://www3.interscience.wiley.com/journal/119390554/abstract},
+DOI = {10.1111/j.1745-6584.2007.00414.x},
+volume = {46},
+number = {3},
+year = {2008},
+journal = {Ground Water},
+pages = {450--461}
 }
@@ Line 137: / Line 106: @@
 pages="116--125",
 optnote="exported from refbase (http://uhydro.de/base/show.php?record=1232), last updated on Fri, 10 Apr 2015 12:36:49 +0200"
+}
+@incollection{Demuth.15,
+author = {Demuth, S. and K\"ulls, C.},
+editor = {Rosberg, D. and al.},
+title = {Probability analysis and regional aspects of droughts in southern Germany},
+series = {Red Book Series},
+volume = {240},
+year = {1997},
+publisher = {IAHS Red Book Series},
+address = {Wallingford U.K.},
+booktitle = {Sustainability of Water Resources under Increasing Uncertainty},
+pages = {97--114}
+}
+@inproceedings{doulgeris2020prediction,
+title={Prediction of seawater intrusion to coastal aquifers based on non-dimensional diagrams},
+author={Doulgeris, Charalampos and Tziritis, Evangelos and Pisinaras, Vassilios and Panagopoulos, Andreas and K\"ulls, Christoph},
+booktitle={EGU General Assembly Conference Abstracts},
+pages={4073},
+year={2020}
+}
+@article{Eliades2022,
+title = {Quantifying Evapotranspiration and Drainage Losses in a Semi-Arid Nectarine (Prunus persica var. nucipersica) Field with a Dynamic Crop Coefficient (Kc) Derived from Leaf Area Index Measurements},
+ISSN = {2073-4441},
+DOI = {10.3390/w14050734},
+volume = {14},
+number = {5},
+year = {2022},
+journal = {Water},
+author = {Eliades, M. and Bruggeman, A. and Djuma, H. and Christofi, C. and Kuells, C.},
+abstract = {Quantifying evapotranspiration and drainage losses is essential for improving irrigation efficiency. The FAO-56 is the most popular method for computing crop evapotranspiration. There is, however, a need for locally derived crop coefficients (Kc) with a high temporal resolution to reduce errors in the water balance. The aim of this paper is to introduce a dynamic Kc approach, based on Leaf Area Index (LAI) observations, for improving water balance computations. Soil moisture and meteorological data were collected in a terraced nectarine (Prunus persica var. nucipersica) orchard in Cyprus, from 22 March 2019 to 18 November 2021. The Kc was derived as a function of the canopy cover fraction (c), from biweekly in situ LAI measurements. The use of a dynamic Kc resulted in Kc estimates with a bias of 17 mm and a mean absolute error of 0.8 mm. Evapotranspiration (ET) ranged from 41% of the rainfall (P) and irrigation (I) in the wet year (2019) to 57% of P + I in the dry year (2021). Drainage losses from irrigation (DR_I) were 44% of the total irrigation. The irrigation efficiency in the nectarine field could be improved by reducing irrigation amounts and increasing the irrigation frequency. Future studies should focus on improving the dynamic Kc approach by linking LAI field observations with remote sensing observations and by adding ground cover observations.}
 }
@@ Line 146: / Line 148: @@
 year="2011",
 optnote="exported from refbase (http://uhydro.de/base/show.php?record=1233), last updated on Fri, 10 Apr 2015 12:35:09 +0200"
+}
+@book{Gaiser.52,
+author = {Gaiser, T. and Krol, M. and Frischkorn, H. and Araujo, J. C.},
+title = {Global Change and Regional Impacts},
+edition = {1},
+year = {2003},
+publisher = {Springer},
+address = {Berlin, Heidelberg, New York},
+keywords = {Brazil,IWRM}
 }
@@ Line 194: / Line 206: @@
 doi="10.5194/hessd-8-9089-2011"
 }
+@article{hamutoko2014fingerprinting,
+title={A fingerprinting method for the identification of uranium sources in alluvial aquifers: An example from the Khan and Swakop Rivers, Namibia},
+author={Hamutoko, JT and Mapani, BS and Ellmies, R and Bittner, A and Kuells, C},
+journal={Physics and Chemistry of the Earth, Parts A/B/C},
+volume={72},
+pages={34--42},
+year={2014},
+publisher={Pergamon}
+}
+@article{Heidbuechl.50,
+author = {Heidbuechl, I. and K\"ulls, C.},
+title = {Groundwater controls on flash flood shape and incidence},
+URL = {http://www.cosis.net/abstracts/EGU2008/11123/EGU2008-A-11123-2.pdf?PHPSESSID=d1b7d1803114b6424729e5e35ffc4f7f},
+year = {2008},
+journal = {Geophysical Research Abstracts}
+}
+@article{jin2020fdm,
+title={FDM based OA-ICOS for high accuracy 13C quantification in gaseous CO2},
+author={Jin, Zehao and K\"ulls, Christoph},
+journal={E\&ES},
+volume={446},
+number={3},
+pages={032061},
+year={2020}
+}
+@article{jobin2019application,
+title={Application of a laser-based spectrometer for continuous in situ measurements of stable isotopes of soil CO 2 in calcareous and acidic soils},
+author={Jobin, Joseph and K\"ulls, Christoph and Arend, Matthias and Schaub, Marcus and Hagedorn, Frank and Gessler, Arthur and Weiler, Markus},
+journal={Soil},
+volume={5},
+number={1},
+pages={49--62},
+year={2019},
+publisher={Copernicus GmbH}
+}
+@article{KISI2024102017,
+title = {Enhancing river flow predictions: Comparative analysis of machine learning approaches in modeling stage-discharge relationship},
+journal = {Results in Engineering},
+volume = {22},
+pages = {102017},
+year = {2024},
+issn = {2590-1230},
+doi = {https://doi.org/10.1016/j.rineng.2024.102017},
+url = {https://www.sciencedirect.com/science/article/pii/S2590123024002706},
+author = {Ozgur Kisi and Hazi {Mohammad Azamathulla} and Fatih Cevat and Christoph Külls and Mehdi Kuhdaragh and Mehdi Fuladipanah},
+keywords = {Stage, Discharge, Artificial neural networks, Neuro-fuzzy, Rating curve, Estimation},
+abstract = {Streamflow, a pivotal variable in water resources management, holds profound significance in shaping the decision-making processes of hydrologic projects. This paper tries to delve into the exploration of the stage-discharge relationship using three machine learning methods (MLMs) namely multi-layer neural networks (MLNN), radial basis neural networks (RBNN), and neuro-fuzzy systems (ANFIS) to predict and simulate mean daily stage-discharge data derived from two monitoring stations, Bulakbasi and Karaozü, Kizilirmak River, Turkey. Root mean square error (RMSE), Mean absolute percentage error (MAPE), coefficient of determination (R2), and the Developed Discrepancy Ratio (DDR) metrics were utilized to MLMs' performance assessment. The performance evaluation indices (RMSE, MAEP, R2, DDR) for the preeminent MLNN model applied to Bulakhbashi and Karasu stations were determined as (0.29, 1.57, 0.9998, 17.62) and (1.71, 6.56, 0.9980, 6.65), respectively. The MLNN model contributed to a notable enhancement in the RMSE performance index for the aforementioned stations, exhibiting improvements of 87% and 56%, respectively. These results affirm the MLNN's proficiency in accurately capturing the stage-discharge at both monitoring stations.}
+}
 @Article{Klaus_etal2013,
@@ Line 225: / Line 292: @@
 pages="4333--4380",
 optnote="exported from refbase (http://uhydro.de/base/show.php?record=1205), last updated on Fri, 10 Apr 2015 12:39:17 +0200"
+}
+@inproceedings{kruger2020groundwater,
+title={Groundwater recharge estimates with soil isotope profiles-is there a bias on coarse-grained hillslopes?},
+author={Kr\"uger, Nina and K\"ulls, Christoph and Bruggeman, Adriana and Eliades, Marinos and Christophi, Christos and Rigas, Michali and Eracleous, Theodosia},
+booktitle={EGU General Assembly Conference Abstracts},
+pages={9840},
+year={2020}
+}
+@article{KRUGER2024131352,
+title = {Groundwater recharge estimation in Mediterranean mountain environments by isotope profiles – Partitioning of macropore and matrix flow},
+journal = {Journal of Hydrology},
+pages = {131352},
+year = {2024},
+issn = {0022-1694},
+doi = {https://doi.org/10.1016/j.jhydrol.2024.131352},
+url = {https://www.sciencedirect.com/science/article/pii/S0022169424007479},
+author = {Nina Krüger and Christoph Külls and Adriana Bruggeman and Christos Christofi},
+keywords = {Groundwater recharge, Isotope hydrology, Mediterranean, Tracer studies},
+abstract = {Developing and continuously improving effective and feasible methods to estimate groundwater recharge is essential to ensure sustainable resource assessment. Mountain environments represent key areas for the regional water balance. In this study, the isotope profile method was used to investigate water fluxes through the vadose zone and subsequent groundwater recharge in a Mediterranean mountain environment. Six high-resolution soil water isotope profiles were taken at two different locations in the Troodos Massif (Cyprus) in the eastern Mediterranean, focusing on estimating recharge in the soil of hillslopes. Analysis of the isotope profiles yielded recharge rates ranging from 30–70 mm/year, leading to a re-evaluation of previous studies on groundwater recharge. The comparison of results obtained by the peak-shift method and mathematical modeling was used to partition matrix and macropore flow, reaching up to 39 %. Potential methodological limits of the environmental isotope profile method in skeleton-rich soils were found.}
 }
@@ Line 255: / Line 343: @@
 pages="15430",
 optnote="exported from refbase (http://uhydro.de/base/show.php?record=1235), last updated on Fri, 10 Apr 2015 12:38:28 +0200"
-}
-@Article{Mueller_etal2014,
-author="Mueller, M.H.
-and Alaoui, A.
-and K\"ulls, C.
-and Leistert, H.
-and Meusburger, K.
-and Stumpp, C.
-and Weiler, M.
-and Alewell, C.",
-title="Tracking water pathways in steep hillslopes by $\delta$ 18 O depth profiles of soil water",
-journal="Journal of Hydrology",
-year="2014",
-publisher="Elsevier",
-volume="519",
-pages="340--352",
-optnote="exported from refbase (http://uhydro.de/base/show.php?record=1234), last updated on Fri, 10 Apr 2015 12:35:09 +0200"
-}
-@incollection{Adar.46,
-author = {Adar, E. and K\"ulls, C.},
-title = {MCMsf - Mixing-cell model for a steady flow MIG: Mixing-cell input generator. A short manual for installation and operation of MCMsf using the MIG mixing-cell input generator},
-URL = {http://www-naweb.iaea.org/napc/ih/documents/TECDOCS/TECDOC{\%}20Flow{\%}20and{\%}20transport{\%}20in{\%}20groundwater{\%}202002{\%}20UIAGS.PDF},
-series = {IAEA-TECDOC},
-number = {1448},
-year = {2002},
-publisher = {IAEA},
-address = {Vienna},
-booktitle = {{Use of Isotopes for Analyses of Flow and Transport Dynamics in Groundwater Systems}},
-pages = {1--29},
-keywords = {groundwater,mixing,modeling}
-}
-@article{Benito.51,
-author = {Benito, G. and Rohde, R. and Seely, M. and K\"ulls, C. and Dahan, O. and Enzel, Y.},
-title = {Management of Alluvial Aquifers in Two Southern African Ephemeral Rivers: Implications for IWRM},
-URL = {http://www.springerlink.com/index/A444075625259522.pdf},
-ISSN = {0920-4741 (Print) 1573-1650 (Online)},
-DOI = {10.1007/s11269-009-9463-9},
-volume = {24},
-number = {4},
-year = {2010},
-journal = {Water Resources Management},
-pages = {641--667}
-}
-@article{Dahan.59,
-author = {Dahan, O. and Shani, Y. and Enzel, Y. and Yechieli, Y. and Yakirevich, A.},
-title = {Direct measurements of floodwater infiltration into shallow alluvial aquifers},
-volume = {344},
-year = {2007},
-journal = {Journal of Hydrology},
-pages = {157--170}
-}
-@article{Dahan.11,
-author = {Dahan, O. and Tatarsky, B. and Enzel, Y. and K\"ulls, C. and Seely, M. and Benito, G.},
-title = {Dynamics of flood water infiltration and ground water recharge in hyperarid desert},
-URL = {http://www3.interscience.wiley.com/journal/119390554/abstract},
-DOI = {10.1111/j.1745-6584.2007.00414.x},
-volume = {46},
-number = {3},
-year = {2008},
-journal = {Ground Water},
-pages = {450--461}
-}
-@incollection{Demuth.15,
-author = {Demuth, S. and K\"ulls, C.},
-editor = {Rosberg, D. and al.},
-title = {Probability analysis and regional aspects of droughts in southern Germany},
-series = {Red Book Series},
-volume = {240},
-year = {1997},
-publisher = {IAHS Red Book Series},
-address = {Wallingford U.K.},
-booktitle = {Sustainability of Water Resources under Increasing Uncertainty},
-pages = {97--114}
-}
-@book{Gaiser.52,
-author = {Gaiser, T. and Krol, M. and Frischkorn, H. and Araujo, J. C.},
-title = {Global Change and Regional Impacts},
-edition = {1},
-year = {2003},
-publisher = {Springer},
-address = {Berlin, Heidelberg, New York},
-keywords = {Brazil,IWRM}
-}
-@article{Heidbuechl.50,
-author = {Heidbuechl, I. and K\"ulls, C.},
-title = {Groundwater controls on flash flood shape and incidence},
-URL = {http://www.cosis.net/abstracts/EGU2008/11123/EGU2008-A-11123-2.pdf?PHPSESSID=d1b7d1803114b6424729e5e35ffc4f7f},
-year = {2008},
-journal = {Geophysical Research Abstracts}
 }
@@ Line 507: / Line 499: @@
 year = {2009},
 publisher = {John Wiley \& Sons}
+}
+@article{mahindawansha2020investigating,
+title={Investigating unproductive water losses from irrigated agricultural crops in the humid tropics through analyses of stable isotopes of water},
+author={Mahindawansha, Amani and K\"ulls, Christoph and Kraft, Philipp and Breuer, Lutz},
+journal={Hydrology and Earth System Sciences},
+volume={24},
+number={7},
+pages={3627--3642},
+year={2020},
+publisher={Copernicus GmbH}
 }
@@ Line 517: / Line 520: @@
 journal = {J. Hydrol.},
 pages = {262--275}
+}
+@Article{Mueller_etal2014,
+author="Mueller, M.H.
+and Alaoui, A.
+and K\"ulls, C.
+and Leistert, H.
+and Meusburger, K.
+and Stumpp, C.
+and Weiler, M.
+and Alewell, C.",
+title="Tracking water pathways in steep hillslopes by $\delta$ 18 O depth profiles of soil water",
+journal="Journal of Hydrology",
+year="2014",
+publisher="Elsevier",
+volume="519",
+pages="340--352",
+optnote="exported from refbase (http://uhydro.de/base/show.php?record=1234), last updated on Fri, 10 Apr 2015 12:35:09 +0200"
+}
+@article{OLA2024101405,
+title = {Remediating Oil Contamination in the Niger Delta Region of Nigeria: Technical Options and Monitoring Strategies},
+journal = {The Extractive Industries and Society},
+volume = {17},
+pages = {101405},
+year = {2024},
+issn = {2214-790X},
+doi = {https://doi.org/10.1016/j.exis.2024.101405},
+url = {https://www.sciencedirect.com/science/article/pii/S2214790X24000030},
+author = {Ibukun Ola and Carsten Drebenstedt and Robert M. Burgess and Martin Mensah and Nils Hoth and Christoph Külls},
+keywords = {Nigeria, Niger Delta, Ogoni, Oil remediation, Organoclay capping, Permeable reactive barriers, bioremediation},
+abstract = {The Niger Delta, a region of immense ecological significance and rich biodiversity, has long faced the severe consequences of petroleum contamination resulting from intense oil exploration and various environmental stressors. In response to the pressing need for effective remediation and monitoring of contaminated matrices in the Niger Delta, this study delves into a comprehensive analysis. Through a systematic assessment considering certain criteria, advanced remediation technologies tailored to the specific environmental challenges in the region are identified. Organoclay-based reactive core materials (RCM), permeable reactive barriers (PRBs), and bioremediation have emerged as highly suitable solutions for remediating sediment, groundwater, and soil, respectively. These technologies span the spectrum from non-intrusive to less intrusive methods and have demonstrated exceptional efficacy in mitigating hydrocarbon contamination under the delta's prevailing complex conditions. In addressing the critical need for monitoring the progress of remediation and post-remediation stages, a fully integrated approach is proposed. This strategy combines three essential components for tracking environmental quality improvements and understanding the recovery processes: traditional total chemical concentration (Ctotal) estimates, passive sampler-derived freely dissolved chemical concentration (Cfree) measurements, and ecological monitoring, specifically the recolonization test. Together, these components provide a more accurate description of risk and a comprehensive understanding of the recovery process. This study is concentrated on the systematic selection, supported by credible case study information, of tailored technical solutions for addressing the unique challenges of the Niger Delta. The novel outcomes lie in the identification of technology solutions carefully adapted for the region, representing a significant advancement in the field of environmental remediation in the Niger Delta. Science-based remediation and monitoring are key, and this study offers a decision support tool for selecting optimal methods in the ongoing cleanup of the Niger Delta and similar areas. This supports a healthier, more resilient environment for both the region's inhabitants and ecosystems.}
 }
@@ Line 530: / Line 565: @@
 booktitle = XXXIIICongressAIH,
 pages = {T5-39}
+}
+@inproceedings{tziritis2020medsal,
+title={MEDSAL Project-Salinization of critical groundwater reserves in coastal Mediterranean areas: Identification, risk assessment and sustainable management with the use of integrated modelling and smart ICT tools},
+author={Tziritis, Evangelos and Aschonitis, Vassilis and Balacco, Gabriella and Daras, Petros and Doulgeris, Charalampos and Fidelibus, Maria Dolores and Gaubi, Elyes and Gueddari, Moncef and G\"uler, C\"uneyt and Hamzaoui, Fadoua and others},
+booktitle={EGU General Assembly Conference Abstracts},
+pages={2326},
+year={2020}
 }
@@ Line 586: / Line 629: @@
 pages = {2405--2414}
 }