Sensitivity assessment of the deltaic coast of Medjerda based on fine-grained sediment dynamics, Gulf of Tunis, Western Mediterranean. / Amrouni, Oula; Sánchez, A.; Khélifi, Nabil; Benmoussa, Thouraya; Chiarella, Domenico; Mahe, Gil; Abdeljaouad, Sâadi; Mclaren, P.

In: Journal of Coastal Conservation, Vol. 23, No. 3, 06.2019, p. 571-587.

Research output: Contribution to journalArticlepeer-review

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Sensitivity assessment of the deltaic coast of Medjerda based on fine-grained sediment dynamics, Gulf of Tunis, Western Mediterranean. / Amrouni, Oula; Sánchez, A.; Khélifi, Nabil; Benmoussa, Thouraya; Chiarella, Domenico; Mahe, Gil; Abdeljaouad, Sâadi; Mclaren, P.

In: Journal of Coastal Conservation, Vol. 23, No. 3, 06.2019, p. 571-587.

Research output: Contribution to journalArticlepeer-review

Harvard

Amrouni, O, Sánchez, A, Khélifi, N, Benmoussa, T, Chiarella, D, Mahe, G, Abdeljaouad, S & Mclaren, P 2019, 'Sensitivity assessment of the deltaic coast of Medjerda based on fine-grained sediment dynamics, Gulf of Tunis, Western Mediterranean', Journal of Coastal Conservation, vol. 23, no. 3, pp. 571-587. https://doi.org/10.1007/s11852-019-00687-x

APA

Amrouni, O., Sánchez, A., Khélifi, N., Benmoussa, T., Chiarella, D., Mahe, G., Abdeljaouad, S., & Mclaren, P. (2019). Sensitivity assessment of the deltaic coast of Medjerda based on fine-grained sediment dynamics, Gulf of Tunis, Western Mediterranean. Journal of Coastal Conservation, 23(3), 571-587. https://doi.org/10.1007/s11852-019-00687-x

Vancouver

Author

Amrouni, Oula ; Sánchez, A. ; Khélifi, Nabil ; Benmoussa, Thouraya ; Chiarella, Domenico ; Mahe, Gil ; Abdeljaouad, Sâadi ; Mclaren, P. / Sensitivity assessment of the deltaic coast of Medjerda based on fine-grained sediment dynamics, Gulf of Tunis, Western Mediterranean. In: Journal of Coastal Conservation. 2019 ; Vol. 23, No. 3. pp. 571-587.

BibTeX

@article{cc38dcbf5e204cbba5de63b69f720ff9,
title = "Sensitivity assessment of the deltaic coast of Medjerda based on fine-grained sediment dynamics, Gulf of Tunis, Western Mediterranean",
abstract = "As coastal areas become increasingly vulnerable to climate change, the study of nearshore sediment textures along the littoral cell of the Medjerda delta in the Gulf of Tunis, can provide valuable information (i) on the origin (continental or marine) of the sediment, (ii) its transport direction, and (iii) constitutes an important tool in the assessment of coastal sensitivity. A total of 120 sediments samples underwent grain size analysis and statistic parameters have been calculated. These allowed the identification of five different Sedimentary Types (ST). Accordingly, using grain size indexes (i.e. Mz, SKI and Ku), Sediment Trend Analysis (STA) modeling tools were applied to define the seasonal sediment transport pathways throughout the nearshore of the Medjerda sedimentary cell. Results show that grain size distribution (GSD) and STA model pathways are determined by cross-shore geomorphology, location of the sediment-cell, seasonal incident wave and local terrestrial supply. The appearance in an atypical seabed location of the finer (Mo = 0.1 mm) and the coarser STs (Mo = 0.8 mm) can be indicative of human influence since the coarser particles are usually retained by dam structures. Moreover, the bimodality and the increased distribution of mud are also related to the seasonal incident wave winnowing of the historic deltaic plain submerged by the relative rise in sea level. The evolution of the sediment pattern towards a greater proportion of very fine grains indicates a deficit of sediment supply, particularly of the coarser grains, and demonstrates the coastal vulnerability of the Gulf of Tunis due to anthropic effects.",
keywords = "Grain size distribution, Sedimentary type, Sediment transport analysis, Sensitivity, Madjerda coast, Gulf of Tunis",
author = "Oula Amrouni and A. S{\'a}nchez and Nabil Kh{\'e}lifi and Thouraya Benmoussa and Domenico Chiarella and Gil Mahe and S{\^a}adi Abdeljaouad and P. Mclaren",
year = "2019",
month = jun,
doi = "10.1007/s11852-019-00687-x",
language = "English",
volume = "23",
pages = "571--587",
journal = "Journal of Coastal Conservation",
issn = "1400-0350",
publisher = "Springer",
number = "3",

}

RIS

TY - JOUR

T1 - Sensitivity assessment of the deltaic coast of Medjerda based on fine-grained sediment dynamics, Gulf of Tunis, Western Mediterranean

AU - Amrouni, Oula

AU - Sánchez, A.

AU - Khélifi, Nabil

AU - Benmoussa, Thouraya

AU - Chiarella, Domenico

AU - Mahe, Gil

AU - Abdeljaouad, Sâadi

AU - Mclaren, P.

PY - 2019/6

Y1 - 2019/6

N2 - As coastal areas become increasingly vulnerable to climate change, the study of nearshore sediment textures along the littoral cell of the Medjerda delta in the Gulf of Tunis, can provide valuable information (i) on the origin (continental or marine) of the sediment, (ii) its transport direction, and (iii) constitutes an important tool in the assessment of coastal sensitivity. A total of 120 sediments samples underwent grain size analysis and statistic parameters have been calculated. These allowed the identification of five different Sedimentary Types (ST). Accordingly, using grain size indexes (i.e. Mz, SKI and Ku), Sediment Trend Analysis (STA) modeling tools were applied to define the seasonal sediment transport pathways throughout the nearshore of the Medjerda sedimentary cell. Results show that grain size distribution (GSD) and STA model pathways are determined by cross-shore geomorphology, location of the sediment-cell, seasonal incident wave and local terrestrial supply. The appearance in an atypical seabed location of the finer (Mo = 0.1 mm) and the coarser STs (Mo = 0.8 mm) can be indicative of human influence since the coarser particles are usually retained by dam structures. Moreover, the bimodality and the increased distribution of mud are also related to the seasonal incident wave winnowing of the historic deltaic plain submerged by the relative rise in sea level. The evolution of the sediment pattern towards a greater proportion of very fine grains indicates a deficit of sediment supply, particularly of the coarser grains, and demonstrates the coastal vulnerability of the Gulf of Tunis due to anthropic effects.

AB - As coastal areas become increasingly vulnerable to climate change, the study of nearshore sediment textures along the littoral cell of the Medjerda delta in the Gulf of Tunis, can provide valuable information (i) on the origin (continental or marine) of the sediment, (ii) its transport direction, and (iii) constitutes an important tool in the assessment of coastal sensitivity. A total of 120 sediments samples underwent grain size analysis and statistic parameters have been calculated. These allowed the identification of five different Sedimentary Types (ST). Accordingly, using grain size indexes (i.e. Mz, SKI and Ku), Sediment Trend Analysis (STA) modeling tools were applied to define the seasonal sediment transport pathways throughout the nearshore of the Medjerda sedimentary cell. Results show that grain size distribution (GSD) and STA model pathways are determined by cross-shore geomorphology, location of the sediment-cell, seasonal incident wave and local terrestrial supply. The appearance in an atypical seabed location of the finer (Mo = 0.1 mm) and the coarser STs (Mo = 0.8 mm) can be indicative of human influence since the coarser particles are usually retained by dam structures. Moreover, the bimodality and the increased distribution of mud are also related to the seasonal incident wave winnowing of the historic deltaic plain submerged by the relative rise in sea level. The evolution of the sediment pattern towards a greater proportion of very fine grains indicates a deficit of sediment supply, particularly of the coarser grains, and demonstrates the coastal vulnerability of the Gulf of Tunis due to anthropic effects.

KW - Grain size distribution

KW - Sedimentary type

KW - Sediment transport analysis

KW - Sensitivity

KW - Madjerda coast

KW - Gulf of Tunis

U2 - 10.1007/s11852-019-00687-x

DO - 10.1007/s11852-019-00687-x

M3 - Article

VL - 23

SP - 571

EP - 587

JO - Journal of Coastal Conservation

JF - Journal of Coastal Conservation

SN - 1400-0350

IS - 3

ER -