Proximate Composition, Essential Heavy Metal Concentrations and Nutrient Density of the Mycelium and Fruiting Bodies of Organically Cultivated Pleurotus ostreatus

Proximate composition, essential heavy metal concentration of fruiting bodies (POFB) and mycelium (POMY) of Pleurotus ostreatus were conducted using standard methods. Moisture content was higher (9.79%) in POFB than in POMY (8.76%) on dry weight basis. Ash was higher in POFB(6.25%) than in POMY(3.25%).POFB presented higher crude protein value (24.66%) than POMY (21.17%). Crude fat values were low in both samples(POFB:0.28%; POMY:0.46) respectively. Fiber was higher in the mycelium (14.72%) than in the fruiting bodies (12.90%). The carbohydrate content of the mycelium was 51.93% while the value of carbohydrate in the fruiting bodies was 46.10%. POFB indicated energy value of 285.60Kcal/100g and the value in POMY was 296.57Kcal/100g. Iron, copper, manganese and chromium presented higher values in POFB than in POMY but zinc indicated higher level in POMY than in POFB. The %DV highlighted in the study showed that the fruiting bodies and mycelium of organically cultivated P. ostreatus are rich in protein, fiber, carbohydrate, copper and iron. The nutrient density (ND) results revealed that POFB and POMY samples are nutritionally dense in fiber, copper and iron based on the World Health Food Rating System. The results showed that POFB and POMY obtained by organic cultivation possess high nutritional profile, suggesting that people may use them in food and medicinal formulations.

Protective Effect of Monoisoamyl-2, 3-Dimercaptosuccinic Acid against Manganese-induced Neurotoxicity in Rats

Background: Apart from being an essential heavy metal, Manganese (Mn) serves as an important component of the antioxidant enzyme system in humans. Overexposure to manganese leads to the development of manganism, which is characterized by motor dysfunction along with neurodegeneration. The management of manganism often utilizes chelation therapy. In this regard, Monoisoamyl-2, 3-Dimercaptosuccinic Acid (MiADMSA) has been reported as a novel arsenic chelator, due to the presence of vicinal sulfhydril group. MiADMSA has been reported to reduce the level in divalent ions (like copper) therefore, it may be hypothesized that MiADMSA would be helpful in Mn-induced neurotoxicity. Objective: This study is envisaged to explore the protective effect of MiADMSA on Mn-induced neurotoxicity. Method: Mn exposure was carried out by intraperitoneal administration of Mn (as manganese chloride, 10 mg/kg; i.p.). The animals were treated with MiADMSA (50 mg/kg; p.o.) either alone or in combination with Mn. The effect of different treatments on neurobehavioral functions was observed by assessing spontaneous locomotor activity, motor rotarod test, and depression-like behavior in the forced swim test. After behavioral evaluations, all the animals were sacrificed and the brain and liver were isolated for metal estimations. Results: Mn exposure leads to loss of motor coordination as observed in spontaneous locomotor activity and rotarod test. However, treatment with MiADMSA significantly improved motor impairments as compared to Mn exposed animals. Accumulation of Mn in the liver and brain has been recorded with Mn exposure; however, MiADMSA treatment significantly reduced the Mn content from the liver and brain. Conclusion: The outcome of the study suggests that treatment with MiADMSA reversed Mn-induced neurotoxicity by reducing Mn load. Therefore, the use of MiADMSA may be suggested in manganese toxicity, after careful investigation.

Some Heavy Metals Correlated Negatively with Total Antioxidant Capacity, Glutathione Peroxidase, Fructose, and Testosterone in Seminal Plasma of Oligospermic and Azoospermic Males

Aim: The study aimed to investigate the relationship between some heavy metals and total antioxidant capacities, glutathione levels, fructose, and testosterone in seminal plasma of infertile azoospermic and oligospermic males in Akwa Ibom State of Nigeria. Study Design: A cross-sectional design with a total of 124 males included in the study of which 32 were azoospermic, 38, oligospermic, and 54, normospermic. Place and Duration of Study: Semen samples were collected from the urology or fertility clinic of UUTH, St. Luke’s Hospital, Anua, and Ibom specialist hospital of Akwa Ibom State. However, laboratory assays were performed at the Department of Medical Laboratory Science, Rivers State University, Port Harcourt between May, 2018 and January, 2021. Methodology: Semen specimens were collected after 3-5 days abstinence according to WHO criteria while seminal plasma were obtained from semen by spinning at 4500 rpm for 10 minutes and stored at -700C prior to laboratory analysis. Atomic absorption spectrometer (AAS) was used to determine the levels of heavy metals while ELISA methods were used to determine testosterone and GSH concentrations. TAC and fructose assays were carried out using spectrophotometric methods. Results: Results showed that non-essential heavy metals such as lead, mercury, and arsenic correlated negatively with testosterone, fructose, and antioxidant activities of the seminal plasma in azoospermic subjects. In addition, lead and mercury correlated positively in the azoospermic subjects. Meanwhile, selenium, an essential heavy metal, correlated positively with testosterone and antioxidant activities in oligospermic subjects with 11-19 x106cells/ml. Conclusion: The levels of non-essential heavy metals in azoospermic subjects precipitated poor anti-oxidant and testosterone activities inducing oxidative stress while in oligospermic subjects, selenium and antioxidant parameters and testosterone were in good association indicating improved antioxidant activities and testicular function.

Global Impact of Non-essential Heavy Metal Contaminants in Industrial Cannabis Bioeconomy

The intrinsic signatures of Cannabis species to bioaccumulate non-essential harmful heavy metals (HMs) are substantially determined by their high tolerance, weedy propensities, phenotypic plasticity attributes, and pedoclimatic stress adaptation in an ecological niche. The detection trends of HMs contaminants in cannabis products have reshaped the 2027 forecast and beyond for global cannabis trade valued at $57 billion. Consumer base awareness for the cohort of HMs contaminants viz., lead (Pb), mercury (Hg), arsenic (As), chromium (Cr), cadmium (Cd), and radioactive elements, and the associative dissuading effects significantly impact cannabis bioeconomy. On the premise that fiber hemp (Cannabis sativa L.) could be repurposed to diverse non-consumable products, concerns over HMs contamination would not significantly decrease fiber trade, a trend that could impact globally by 2025. The economic trend will depend on acceptable consumer risk, regulatory instruments, and grower's due diligence to implement agronomic best practices to mitigate HMs contamination in marketable cannabis-related products. In this unstructured meta-analysis study based on published literature, the application of Cannabis species in HMs phytoremediation, new insights into transportation, distribution, homeostasis of HMs, the impact of HMs on medical cannabis, and cannabis bioeconomic are discussed. Furthermore, a blueprint of agronomic strategies to alleviate HMs uptake by plant is proposed. Considering that one-third of the global arable lands are contaminated with HMs, revamping global production of domesticated cannabis requires a rethinking of agronomic best practices and post-harvest technologies to remove HMs contaminants.

Visualizing The Big Three: Geospatial Interpolation Of Heavy Metal Sediment Contamination In Lake Erie

A wealth of resources for economic prosperity have driven development along the shorelines of the Great Lakes for over 150 years. The rapid growth of industrial, agricultural, and residential land use has degraded many natural components of lake ecosystems, including sediments and water quality. In this dissertation, spatiotemporal patterns of non-essential heavy metal sediment contamination in Lake Erie will be examined from historic and contemporary sediment surveys. Three inter-related studies explore innovative methods for improving the validity and overall usefulness of sediment contamination maps that could be used by a variety of stakeholders in pollution control efforts throughout the Lake Erie basin. First, sediment survey designs are analyzed for their utility in creating valid interpolated surfaces from which spatiotemporal comparisons of mercury sediment contamination can be compared over time. The next study explores how ancillary sediment variables and contamination categorization methods can support interpolated maps of cadmium sediment contamination from low-density sediment surveys. The final study introduces a novel method of three-dimensional geovisualization to enhance the geographic representation of lead sediment contamination patterns throughout the Lake Erie basin. Innovative research methodologies designed for this dissertation may be applied to sediment contamination studies in other Great Lakes. The visualization techniques employed in mapping sediment contamination patterns provide strong scientific evidence for spatiotemporal change in non-essential heavy metal pollution throughout Lake Erie. Combined, the research findings and maps produced throughout this dissertation can contribute to the growing body of knowledge used in environmental decision making for pollution control in the Great Lakes basin

Visualizing The Big Three: Geospatial Interpolation Of Heavy Metal Sediment Contamination In Lake Erie

A wealth of resources for economic prosperity have driven development along the shorelines of the Great Lakes for over 150 years. The rapid growth of industrial, agricultural, and residential land use has degraded many natural components of lake ecosystems, including sediments and water quality. In this dissertation, spatiotemporal patterns of non-essential heavy metal sediment contamination in Lake Erie will be examined from historic and contemporary sediment surveys. Three inter-related studies explore innovative methods for improving the validity and overall usefulness of sediment contamination maps that could be used by a variety of stakeholders in pollution control efforts throughout the Lake Erie basin. First, sediment survey designs are analyzed for their utility in creating valid interpolated surfaces from which spatiotemporal comparisons of mercury sediment contamination can be compared over time. The next study explores how ancillary sediment variables and contamination categorization methods can support interpolated maps of cadmium sediment contamination from low-density sediment surveys. The final study introduces a novel method of three-dimensional geovisualization to enhance the geographic representation of lead sediment contamination patterns throughout the Lake Erie basin. Innovative research methodologies designed for this dissertation may be applied to sediment contamination studies in other Great Lakes. The visualization techniques employed in mapping sediment contamination patterns provide strong scientific evidence for spatiotemporal change in non-essential heavy metal pollution throughout Lake Erie. Combined, the research findings and maps produced throughout this dissertation can contribute to the growing body of knowledge used in environmental decision making for pollution control in the Great Lakes basin

Mercury Toxicity and Detection Using Chromo-Fluorogenic Chemosensors

Mercury (Hg), this non-essential heavy metal released from both industrial and natural sources entered into living bodies, and cause grievous detrimental effects to the human health and ecosystem. The monitoring of Hg2+ excessive accumulation can be beneficial to fight against the risk associated with mercury toxicity to living systems. Therefore, there is an emergent need of novel and facile analytical approaches for the monitoring of mercury levels in various environmental, industrial, and biological samples. The chromo-fluorogenic chemosensors possess the attractive analytical parameters of low-cost, enhanced detection ability with high sensitivity, simplicity, rapid on-site monitoring ability, etc. This review was narrated to summarize the mercuric ion selective chromo-fluorogenic chemosensors reported in the year 2020. The design of sensors, mechanisms, fluorophores used, analytical performance, etc. are summarized and discussed.