Narine, Suresh

Innovative strategies to manage copious waste streams by upcycling feedstocks to valorized products which are then used in environmental remediation applications is an attractive circular economy model. This thesis explores this approach using waste wood generated from the milling of Chlorocardium rodiei (greenheart), a tropical hardwood species abundant in Guyana. We evaluate the thermochemical conversion of this feedstock, using phosphoric acid as the activant, to super activated carbons with surface areas of more than 2200 m2/g. Owing to the presence of surface heteroatoms, these adsorbents are amenable to further surface modifications including base-treatment, O-functionalization and N-functionalization. Using a facile oxidation procedure and shrimp waste-based dopants, we increase oxygen and nitrogen content by 8-fold and 5-fold respectively. These increases are realized without catastrophic loss of surface area and porosity as generally occurs with many reported functionalization approaches. Functionalized materials demonstrated efficient removal of both metal ions and the chlorinated herbicides 2,4-dichlorophenoxy acetic acid and paraquat. Pristine and base-washed ACs removed more than 90% of iron, aluminum and manganese from natural pit-lake waters. O-functionalized adsorbents also showed excellent removal efficiencies for aluminum and lead but only removed moderate amounts of manganese. Nitrogen-enriched composites fabricated with the addition of commercial chitosan removed 67% 2,4-D and 89% paraquat from model solutions at environmentally relevant concentrations of 4 ppm and 40 ppm respectively. Their versatility is further demonstrated in their ability to remove both herbicides from binary mixtures albeit to different extents. Shrimp chitin-based composites were most effective at removing 2,4-D from model solutions with a maximum adsorption capacity of 101 mg/g. Both surface area and surface nitrogen had strong influences on the adsorption capacity of adsorbents. Mechanistically, physisorption interactions predominate the synergistic or antagonistic interaction between N-functionalized composites and herbicide species. These green adsorbent materials, fabricated from sustainable biopolymers, are promising candidates for diverse environmental remediation applications.

Author Keywords: adsorption, Environmental remediation, N-functionalization, O-functionalization, tropical hardwood waste, waste valorization

This thesis introduces a weather-driven bio-economic optimization model for agricultural planning and decision-making. The model integrates weather simulations—including precipitation, temperature, relative humidity, and reference evapotranspiration (ETo)—to estimate crop yields using the AquaCrop simulator. These yield estimates are then incorporated into a multi-objective optimization (MOO) model that aims to maximize gross profit and economic water productivity (ET), while minimizing land use. The MOO model's results provide insights into key agricultural planning questions, such as what, where, when, and how much to plant.The findings demonstrate the model's potential to enhance agricultural decision-making by offering optimized crop combinations that improve both economic returns and land use efficiency. This research contributes to the development of a dynamic agricultural planning model by integrating weather forecasting, crop simulation, and multi-objective optimization.

Author Keywords: AquaCrop, Artificial neural network, Markov chains, Multi-objective optimization, Reference evapotranspiration, Stochastic differential equation

Heated leaf extracts of Euphorbia neriifolia (sweet aloes) are used traditionally in Guyana for asthma therapy, but the phytoconstituents have not been studied and phytohormones are generally unexplored in Euphorbia species. Phytoconstituents in asthma-effective traditional heated extracts were analyzed and compared with unheated leaves and latex extracts as screens to identify candidate compounds for asthma treatment. Analysis employed untargeted and targeted mass spectrometry-based metabolomics. The untargeted approach revealed thousands of features in samples with higher abundance in heated extracts and confirmation of 33 metabolite identities (confidence levels 2 and 3) which are known to have antioxidant and anti-inflammatory properties. Highly accumulated and unique features were detected in latex, and those characteristic compounds may reflect the expanded therapeutic uses of E. neriifolia globally. A targeted metabolomic analysis identified and quantified several cytokinins, including aromatic kinetin, and acidic phytohormones. Traditional heating improved the content of several cytokinins with known therapeutic potential, indicating they may be candidates for asthma management.

Author Keywords: asthma, cytokinins, Euphorbia neriifolia, metabolomics, sweet aloes, traditional remedies

The activities of phytohormones during the reproductive phase have been partially clarified in seed physiology while the biological role of plant hormones in oil accumulation during seed development has been investigated in part only. In this research, fatty acid (FA) contents and hormone profiles, including abscisic acid (ABA) and cytokinins (CKs) of seed samples in four different stages and comparing six soybean varieties have been investigated in order to examine the hypothesis that the endogenous plant hormones play important roles in FA production in soybean seeds. The FA contents increased significantly during this period while the hormone concentrations gradually declined towards the seed physical maturation. However, the interactions between FA contents and hormone profiles were complex and went beyond linear correlations. Hormone metabolism in the earlier stages of seed maturation period demonstrated numerous robust relationships with FA accumulations, as derived from several simple and multiple regression models in the determination of different FA contents. Evaluation of the effects of exogenous ABA and trans-Zeatin (tZ) on FA biosynthesis has revealed that ABA appears to be involved in the accumulations of unsaturated FAs while tZ participated in the synthesis of saturated and unsaturated FAs. Notably, the alterations of FA synthesis differ according to what exogenous hormone concentrations could be used.

Author Keywords: Abscisic acid, Cytokinin, Fatty acid, Seed development, Soybean

Based on an endogenous hormone study, three cytokinin type phytohormones; benzyladenine (BA), trans-zeatin (tZ) and methylthiol trans-zeatin (MeSZ), as well as abscisic acid (ABA) were exogenously added at three concentrations (10-7, 10-6 and 10-5 M) to cultures of Chlorella vulgaris in an attempt to alter growth rate, total lipid and fatty acid yields and fatty acid profile. Growth stimulation was highest at 10-6 M for BA, MeSZ and ABA and 10-5 M for tZ. All treatments caused changes in total lipid and fatty acid content, with BA causing an increase to lipid content. The most significant change in the fatty acid profile was observed with the addition of MeSZ at 10-7 and 10-6 M causing increases of 204% and 457% in linolenic acid respectively above the control. These results are novel and potentially highly impactful, as MeSZ has never been added exogenously to algae and may be used to stimulate overproduction of linolenic acid for pharmaceutical or industrial purposes.

Author Keywords: Abscisic Acid, Chlorella vulgaris, Cytokinin, Fatty acid, Linolenic Acid, Methylthiol trans-Zeatin

The cyanidation technique is currently a viable technique for gold recovery that can replace the present amalgamation technique in Guyana. To implement this technique effectively, laboratory scale experiments and at scale runs were conducted to determine the best particle size of the ore, cyanide concentration, and leaching time. In addition, the profitability of cyanidation was compared to the amalgamation technique so as to describe the economic value of cyanidation. Results indicated that up to 94% of gold can be recovered from the ore using an ore particle size of 150 (105 µm), meshes, a cyanide concentration of 0.05% and leaching for 24 h. An economic comparison of this technique with the amalgamation technique indicated that although initial costs are high for the cyanidation technique, profits as high as 83% can be achieved after initializing this method whereas profits would be capped at approximately 25% for the amalgamation technique.

Keywords: gold recovery, cyanidation, mercury amalgamation, activated car

Author Keywords: activated carbon, cyanidation, gold recovery, mercury amalgamation

The epoxides of oligomeric self-metathesized soybean oil (MSBO) and cross-metathesized palm oil (PMTAG) and canola oil (CMTAG) containing terminal double bonds were used to produce nonisocyanate polyurethanes (NIPUs) as well as anhydride, amine and thiol-cured epoxies.

The synthesized NIPUs displayed metal adhesive properties for CMTAG and MSBO with MSBO being favoured probably due to its plasticizing nature as opposed to CMTAG. The relationship was reversed for the anhydride curing reaction where it was found that CMTAG, due to its lower degree of plasticizing content from the reduced dangling chains, produced higher tensile strengths than MSBO. Both MSBO and CMTAG led to fully cured amine and thiol products that were sticky gels, which prevented physical analyzses of their expected solidified products. PMTAG, due to its low number of reactive groups, was not suitable for the synthesis of these polymers.

Author Keywords: Amine-cured epoxy, Anhydride-cured epoxy, Metathesis, Nonisocyanate Polyurethanes, Thiol-cured epoxy