IOSR-JESTFT   Volume-19 ~ Issue-6 ~ June 2025

Abstract: This paper identifies on one hand the availability and adequacy of a Port Reception Facility (PRF) as required by relevant International Maritime Organization (IMO) regulations and further evaluates the extent to which those regulations have been implemented in the Nigerian Maritime Sector, on the other. One of the purposes of this paper is to see beyond focusing on the aspects of just defining, reviewing, and discussing the benefits or achievements of PRF......

Keywords: Port Reception Facility; International Maritime Organization; International Convention for the Prevention of Pollution from Ships (MARPOL) 73/78; Nigerian Maritime Sector

[1] Ball, I. 1999. ‘Port Reception Facilities For Chemical, Port Waste Reception Facilities In The UK Ports’. 260,
Doi.10/10/16/025-326 X (87) 904 78-4 Accessed On 12/12/23.
[2] Canadian Broadcasting Corporation (CBC) News 2024. ‘Trinidad And Tobago Oil Spill From Mystery Ship Causes ‘National Emergency’ The Associated Press Posted On 13the February 2024.
[3] Egole Anozie 2023. ‘Marine, Blue Economy Agencies’ Ceos Sign Performance Bonds’. Punch News Paper Published On 25/11/2023 Available At Https://Punchng.Com>Marine-Blue..... Accessed On 22/1/24.
[4] European Union (EU) 2016. ‘Guidelines For The Interpretation Of Directive 2000/59/EC On Port Reception Facilities For Ship Generated Waste And Cargo Residues With Reference 2016/C 115/05’. Published In Official Journal Of European Union.
[5] European Union (EU) Monitor 2019. ‘Directive 2019/883 0n Port Reception Facilities For Delivering Delivery Of Waste From Ships’. Available At Https://Www.Eumonitor.Eu Accessed On 24/1/24

Abstract: Background: This study aims to understand the importance of the flora of the Félix Houphouét-Boigny University Reserve, located in Angbavia, in the Djékanou department (Côte d'Ivoire), for local populations.
Materials and Methods: Itinerant inventory and surface survey methods were adopted for this study during the collection of floristic data. Subsequently, ethnobotanical surveys were conducted among local populations to understand the importance of species in their daily lives........

Key Word: Protected areas, flora, plant resources, nutrition, pharmacopoeia, populations

[1]. Adjakpa J, Yedomonhan H, Ahoton LE, Weesie Pdm, Akpo LE. Structure Et Diversité Floristique Des Îlots De Forêts Riveraines Communautaires De La Basse Vallée De La Sô Au Sud-Est Du Bénin. Journal Of Applied Biosciences. 2013, 65: 4902-4911.
[2]. Jiagho ER. Flore Et Végétation Ligneuse À La Périphérie Du Parc National De Waza (Cameroun) Dynamiques Et Implications Pour Une Meilleure Gestion. Thèse De Doctorat l’Université De Yaoundé I/ Université Du Mans. 2018, 354 P.
[3]. Kassi NJ. Successions Secondaires Postculturales En Forêt Dense Semi-Décidue De Sanaimbo (Côte d’Ivoire): Nature, Structure Etorganisation Fonctionnelle De La Végétation. Thèse De Doctorat, Université De Picardie Jules Verne d’Amiens (France). 2006, 212 P.
[4]. N’Guessan AE, Kassi NJ, Yao NO, Amani HKB, Gouli GZR, Piponiot C, Zo-Bi IC, Hérault B. Drivers Of Biomass Recovery In A Secondary Forested Landscape Of West Africa. Forest Ecology And Management. 2019, 433: 325-331.
[5]. Guillaumet J-L, Adjanohoun E. La Végétation De La Côte d’Ivoire. In: Avenard J.M., E. Eldin G. Girard J. Sircoulon P. Touchebeuf J.L. Guillaumet E. Adjanohoun & A. Perraud. Le Milieu Naturel De La Côte d’Ivoire. Mém. De L’orstom. 1971, 50: 157-263.

Abstract: La pomme de terre douce (Ipomea) batatas) est une plante vivace de la famille des convolvulacées aux qualités nutritionnelles importantes, cultivée en grande partie au Niger pour ses tubercules. La présente étude vise à définir des farines à partir des tubercules de neuf variétés de patate douce, la détermination des caractéristiques physico-chimiques, microbiologiques, fonctionnelles et organoleptiques de ces farines. Pour se faire trois recettes ont été préparées à base de huit (9) types de variétés de patate douce afin d'apprécier ces caractéristiques. Il s'agit de tests de panification des pains (avec une formulation de 50% farine de patate douce + 50% farine de blé et 60% farine de......

[1]. Ndéye , TT, et Doumouya , S. (2010). Institut de technologie alimentaire, guide de valorisation de patate douce en Maurritani . 24P ;
[2]. Ndangui , CB (2015). Production et caractérisation de farine de patate douce ( Ipomoea batatas . Lam ) : optimisation de la technologie de panification. Thèses et Doctorat. Faculté des Sciences et Techniques. Université Marien Ngouabi. Consulté le 12 avril 2024. 151p. Disponible sur : 33NDANGUI-CB-DDOC_T_2015_0059_NDANGUI.pdf .;
[3]. Balla, A., 1990. Etude des propriétés interfaciales du gluten et des protéines du sorgho en vue de la panification. Thèse de Doctorat, Faculté Universitaire des Sciences de Gembloux. 196p ;
[4]. FAO. (2021). Bases de données statistiques de la FAO Bases de données . Consulté le 27/07/202. Disponible sur https://www.fao.org/faostat/en/#home .
[5]. Younoussa, IA (2023). Caractérisation phénotypique des lignées avancées de la patate douce [ Ipomea batatas (L.) Lam ]. Rapport de fin de cycle. IPDR de kollo /Région de Tillabéri . 33

Abstract: Fuschin basic dye was adsorbed on an adsorbent prepared from leaves of the Datura stramonium. A batch adsorption study was carried out with variable adsorbate concentration, adsorbent amount, particle size of the adsorbent, pH, and time of contact. From 50 mL of 50 ppm aqueous solution of fuchsin basic, 96.51% of the dye could be removed by 0.25 g of adsorbent (leaf powder of Datura stramonium) at 298 K, after 60 minutes of stirring. The........

Key Word: Dye, Isotherm, Kinetic, Adsorption, Basic Fuschin, Datura stramonium

[1]. Renita, A. A., Kumar, P. S., & Jabasingh, S. A. (2019). Redemption of acid fuchsin dye from wastewater using de-oiled biomass: Kinetics and isotherm analysis. Bioresource Technology Reports, 7, 100300.
https://doi.org/10.1016/j.biteb.2019.100300
[2]. El-Azazy, M., El-Shafie, A. S., Ashraf, A., & Issa, A. A. (2019). Eco-Structured biosorptive removal of basic fuchsin using pistachio nutshells: A definitive screening design—based approach. Applied Sciences, 9(22), 4855.
https://doi.org/10.3390/app9224855
[3]. Foroutan, R., Peighambardoust, S. J., Boffito, D. C., & Ramavandi, B. (2022). Sono-Photocatalytic Activity of Cloisite 30B/ZnO/Ag2O Nanocomposite for the Simultaneous Degradation of Crystal Violet and Methylene Blue Dyes in Aqueous Media. Nanomaterials, 12(18), 3103. https://doi.org/10.3390/nano12183103
[4]. Bansal, M., Pal, B., & Das, R. K. (2024). Improved adsorption of Fuschin Blue with Sn2+ impregnated Zn-Bi mixed metal hydroxide. Next Sustainability, 4, 100060. https://doi.org/10.1016/j.nxsust.2024.100060
[5]. Hu, M., Wang, X., Wang, C., Chu, H., Song, X., Dong, G., Zhang, J., & Xing, J. (2025). Synthesis and structure characterization of boron complexes containing C2-symmetric tertiary amine ligands: Assessment catalytic degradation of dyes and antioxidant properties. Journal of Molecular Structure, 1334, 141842. https://doi.org/10.1016/j.molstruc.2025.141842.