ABSTRACT
Various industrial operations in the dye, fertilizer, pesticide, battery, mining, and chemical industries have been associated with releasing heavy metals in wastewater, such as lead, zinc, copper, arsenic, cadmium, chromium, nickel, and mercury. These metals are dangerous to aquatic life as well as to humans, who may consume them directly or indirectly. Therefore, before being released into open water and land resources, it is necessary to minimize the concentration of toxic ions below the discharge limit. This study used Eichhornia crassipes (Mart.) Solms to remove zinc from wastewater from the electroplating industry in a constructed wetland. Experimental investigations were conducted for removing zinc ions from electroplating industry wastewater using various process parameters such as nutrient dosages, dilution ratios, potential of hydrogen ions, biomasses, and contact times. The outcome of this study revealed that the maximum zinc removal percentage in electroplating industrial wastewater was found for the optimum nutrient dosages of 60 g, dilution ratios of 10, potential hydrogen ion levels of 8, and biomass amounts of 100 g. The maximum zinc removal by Eichhornia crassipes (Mart.) Solms was found to be 88.3 ± 0.6 and 93.4 ± 0.4% at the optimum parameter values for the electroplating industry wastewater and the aqueous solution, respectively, against the optimum contact time of 22 days. This study suggests using this phytoremediation technology to remove all pollutants from industrial wastewater in general, not just wastewater from the electroplating industry.
Subject(s)
Eichhornia , Electroplating , Wastewater , Water Pollutants, Chemical , Zinc , Wastewater/chemistry , Waste Disposal, Fluid/methods , Adsorption , Metals, Heavy , Industrial Waste , Biodegradation, EnvironmentalABSTRACT
Eichhornia crassipes (Mart.) Solms, commonly known as water hyacinth, is one of the world's most invasive aquatic plants of the Pontederiaceae family occurring in tropical and subtropical regions of the world. Although, E. crassipes causes significant ecological and socioeconomic issues such as a high loss in water resources, it has multipurpose applications since it is famous for many industrial applications such as bioenergy, biofertilizer production, wastewater treatment (absorption of heavy metals), and animal feed. Furthermore, E. crassipes is rich in diverse bioactive secondary metabolites including sterols, alkaloids, phenolics, flavonoids, tannins, and saponins. These secondary metabolites are well known for a wide array of therapeutic properties. The findings of this review suggest that extracts and some isolated compounds from E. crassipes possess some pharmacological activities including anticancer, antioxidant, anti-inflammatory, antimicrobial, skin whitening, neuroprotective, and hepatoprotective activities, among other biological activities such as allelopathic, larvicidal, and insecticidal activities. The present review comprehensively summarizes the chemical composition of E. crassipes, reported to date, along with its traditional uses and pharmacological and biological activities.
ABSTRACT
As a part of the monitoring process of the main polluting tributary of Loktak, the paper analyzed the water characteristics of the main polluted stretch of Nambul river i.e. Imphal Urban region. The results showed low pH (6.23 ± 0.32), high electrical conductivity (1373 ± 50.33 µSm-1), high turbidity (25.40 ± 0.90 NTU), poor dissolved oxygen content (0.53 ± 0.24 mgL-1), high nitrate, and phosphate concentrations (9.27 ± 0.40 and 2.05 ± 0.10 mgL-1, respectively). The Water Quality Index values indicate that Nambul river is unfit for drinking. Moreover, the Sodium Percentage, Sodium Adsorption Ratio, and Kelly's Ratio revealed the unsuitable nature of the river for irrigation. Therefore, in order to clean the river water, lab scale microcosm experimentation was carried out to highlight the potential of the dominant macrophytes viz. Eichhornia crassipes (Mart) Solms and Pistia stratiotes (L.) as phytofilters. The results showed increased pH (7.6 ± 0.11 and 7.5 ± 0.1), higher dissolved oxygen content (5.87 ± 0.30 and 3.28 ± 0.30 mgL-1), less turbidity (0.60 ± 0.25 and 0.40 ± 0.15 NTU) and reduced nitrate and phosphate concentrations (0.37 ± 0.03 and 0.52 ± 0.01 mgL-1, and 0.534 ± 0.025 and 0.346 ± 0.01 mgL-1, respectively).Novelty statementThe present study showed the deteriorating water quality of Nambul river, the main polluting source of Loktak - a Ramsar site in the Montreux records.Water Quality Index calculated was above the unsuitable level for drinking at all the sampling locations in the Imphal Urban region.Sodium percentage, sodium adsorption ratio and Kelly's ratio were above the desired limit, making the river water unfit for irrigation.Further, the microcosm experimentation showed that the dominant macrophytes viz. Eichhornia crassipes (Mart) Solms and Pistia stratiotes (L.) can control the pollution level of Nambul.
Subject(s)
Rivers , Water Pollutants, Chemical , Biodegradation, Environmental , India , Myanmar , Water Pollutants, Chemical/analysisABSTRACT
Abstract Swine wastewaters (SW) present organic load and nutrient content, what have caused degradation of water quality in many watercourses. Thus, the aquatic macrophytes represent an alternative for the depollution of these wastewaters, due to the high recovery power. The aim of this study was to evaluate the performance of the Eichhornia crassipes (Mart.) Solms, Pistia stratiotes L. and Salvinia auriculata Aubl. in improving the physicochemical targets of SW, as well as to quantify the total ammoniacal nitrogen (NH4+) and total phosphorus (total P) in the plant tissue of the macrophytes and the dry matter biomass (DMB) in two seasons of the year (spring and winter). The experiment was designed in a randomized block design, with 4 treatments (T) with 4 replicates: T1 = Control (without plants); T2 = E. crassipes; T3 = P. stratiotes; and T4 = S. auriculata, submitted to a SW diluted in 50% water. The monitoring is done in tanks during a period of 30 days of each season. Electrical conductivity (EC), dissolved oxygen (DO), turbidity, NH4+ and dissolved phosphorus (P) were analyzed in the SW. In the plants, the contents of NH4+, total P and DMB were determined. It was verified that, in the spring, the plants showed higher production of DMB and a more significant reduction of EC, NH4+ and P, when compared to the plants managed in the SW in the winter. E. crassipes was more efficient at removing P (39%) and total NH4+ (80.2%), and EC reducing (92%) of SW and DMB production in the spring. The results demonstrated that the NH4+ uptake by E. crassipes contributed to a considerable removal of NH4+ and P from SW.
Resumo Os efluentes da suinocultura apresentam elevado teor de carga orgânica e de nutrientes, o que dificulta o seu tratamento. Dessa forma, as macrófitas aquáticas representam uma alternativa para a despoluição desses efluentes, devido ao alto poder de absorção que essas plantas possuem. Neste contexto, o objetivo deste estudo foi avaliar o desempenho das plantas Eichhornia crassipes (Mart.) Solms, Pistia stratiotes L. e Salvinia auriculata Aubl. na melhoria das características físico-químicas de um efluente de suinocultura, bem como quantificar o teor dos elementos nitrogênio amoniacal total (NH4+) e fósforo total (P total) no tecido vegetal das macrófitas e a biomassa de matéria seca (BMS) produzida em duas estações do ano (primavera e inverno). O experimento compreendeu delineamento em blocos casualizados, com 4 tratamentos (T) com 4 repetições, sendo eles: T1 = Testemunha (sem plantas); T2 = E. crassipes; T3 = P. stratiotes; e T4 = S. auriculata, submetidos a efluente de suinocultura diluídos em 50% de água. O cultivo ocorreu em tanques instalados ao ar livre durante 30 dias de cada estação. Foram analisados, nos efluentes, os parâmetros de condutividade elétrica (CE), oxigênio dissolvido (OD), pH, turbidez, NH4+ e fósforo disponível (P). Nas plantas, foram determinados os teores de NH4+, P total e BMS. Foi verificado que, na primavera, as plantas apresentaram maior produção de BMS e redução mais expressiva de CE, NH4+ e P, quando comparadas às plantas manejadas no efluente suíno no inverno. A E. crassipes foi mais eficiente na remoção de P (39%) e NH4+ total (80,2%), e na redução da CE (92%) do efluente suíno e na produção de biomassa seca, na primavera.
Subject(s)
Animals , Water Pollutants, Chemical/analysis , Eichhornia , Seasons , Swine , Biodegradation, Environmental , WastewaterABSTRACT
Abstract Swine wastewaters (SW) present organic load and nutrient content, what have caused degradation of water quality in many watercourses. Thus, the aquatic macrophytes represent an alternative for the depollution of these wastewaters, due to the high recovery power. The aim of this study was to evaluate the performance of the Eichhornia crassipes (Mart.) Solms, Pistia stratiotes L. and Salvinia auriculata Aubl. in improving the physicochemical targets of SW, as well as to quantify the total ammoniacal nitrogen (NH4+) and total phosphorus (total P) in the plant tissue of the macrophytes and the dry matter biomass (DMB) in two seasons of the year (spring and winter). The experiment was designed in a randomized block design, with 4 treatments (T) with 4 replicates: T1 = Control (without plants); T2 = E. crassipes; T3 = P. stratiotes; and T4 = S. auriculata, submitted to a SW diluted in 50% water. The monitoring is done in tanks during a period of 30 days of each season. Electrical conductivity (EC), dissolved oxygen (DO), turbidity, NH4+ and dissolved phosphorus (P) were analyzed in the SW. In the plants, the contents of NH4+, total P and DMB were determined. It was verified that, in the spring, the plants showed higher production of DMB and a more significant reduction of EC, NH4+ and P, when compared to the plants managed in the SW in the winter. E. crassipes was more efficient at removing P (39%) and total NH4+ (80.2%), and EC reducing (92%) of SW and DMB production in the spring. The results demonstrated that the NH4+ uptake by E. crassipes contributed to a considerable removal of NH4+ and P from SW.
Resumo Os efluentes da suinocultura apresentam elevado teor de carga orgânica e de nutrientes, o que dificulta o seu tratamento. Dessa forma, as macrófitas aquáticas representam uma alternativa para a despoluição desses efluentes, devido ao alto poder de absorção que essas plantas possuem. Neste contexto, o objetivo deste estudo foi avaliar o desempenho das plantas Eichhornia crassipes (Mart.) Solms, Pistia stratiotes L. e Salvinia auriculata Aubl. na melhoria das características físico-químicas de um efluente de suinocultura, bem como quantificar o teor dos elementos nitrogênio amoniacal total (NH4+) e fósforo total (P total) no tecido vegetal das macrófitas e a biomassa de matéria seca (BMS) produzida em duas estações do ano (primavera e inverno). O experimento compreendeu delineamento em blocos casualizados, com 4 tratamentos (T) com 4 repetições, sendo eles: T1 = Testemunha (sem plantas); T2 = E. crassipes; T3 = P. stratiotes; e T4 = S. auriculata, submetidos a efluente de suinocultura diluídos em 50% de água. O cultivo ocorreu em tanques instalados ao ar livre durante 30 dias de cada estação. Foram analisados, nos efluentes, os parâmetros de condutividade elétrica (CE), oxigênio dissolvido (OD), pH, turbidez, NH4+ e fósforo disponível (P). Nas plantas, foram determinados os teores de NH4+, P total e BMS. Foi verificado que, na primavera, as plantas apresentaram maior produção de BMS e redução mais expressiva de CE, NH4+ e P, quando comparadas às plantas manejadas no efluente suíno no inverno. A E. crassipes foi mais eficiente na remoção de P (39%) e NH4+ total (80,2%), e na redução da CE (92%) do efluente suíno e na produção de biomassa seca, na primavera.
