Effects of water acidification on immune responses of the gercacinid, Cardiosoma armatum (Herklots, 1851)

The biological response to chemical pollutants reflects the acid–base status of an aquatic ecosystem. The gercacinid, Cardiosoma armatum (75±0.1 g) was exposed to acidified waters to evaluate the effects on its immune parameters. The crabs were exposed to pH 4.0, 5.0, 6.0 and 7.8 (control) for 28 days. The hematological parameters of control crabs and crabs exposed to varied doses of acidified water indicated a marked reduction. Significant (p<0.05) higher alkaline phosphatase and albumen were obtained in pH 4.0, 5.0 and 6.0 compared to control; other values were mostly similar to control. The highest superoxide dismutase (SOD) (252.61±0.06 min/mg pro) was recorded in control group, while highest CAT activity (2.08±0.16 min/mg protein) was recorded in crabs exposed to pH 4 treatment. Furthermore, the control group's SOD activity was significantly higher than the exposed groups. With a lower pH, the quantities of malondialdehyde increased substantially and were significantly different from the control group. While these findings demonstrate that changes in pH have limited impact on energy use, decreasing immune system conditions show that C. armatum is susceptible to pH variations and may be influenced in aquaculture, where a pH drop is more prominent.

Restoration of Estuary Water Quality in the Petitenget Beach Area with the Use of Hydromacrophyte Plants in Badung Regency Bali

Tourism activities around the coast are growing rapidly, especially in the Petitenget Coastal area. Waste management by tourism actors around the area causes the contamination of the Petitenget Beach estuary. To overcome this, it is necessary to restore estuary water, one way is by utilizing the potency of the fragrant root plant as a phytoremediation agent. The purpose of this community empowerment program is to examine how effective the vetiver plant is as a phytoremediation agent for Petitenget Beach estuary water. This research was started by collecting water samples from the petitenget estuary and then conducting water quality research and testing water samples on Wangi Root plants using an artificial wetland system which was carried out for one month. From the research that has been done, it is known that the vetiver plant is quite effective in reducing the levels of chemical pollutants such as pH, BOD and COD, but this plant cannot reduce the microbiological levels contained in the water.

Xenobiotics and products of their transformation in wastewater (literature review)

Many different chemical pollutants get into the hydrosphere with wastewater. An essential source of xenobiotic transfer into the aquatic environment is wastewater treatments plants. The widespread use of drugs, personal care products, cosmetic products, household chemicals, disinfectants and insecticides is directly reflected in their presence in the aquatic environment. It is the reason for the appearance of these chemical components and products of their transformation in surface waters, groundwater, and drinking water. Besides, various industries lead to the formation of a large amount of wastewater contaminated with textile dyes, oil products, silicones, phenols and their derivatives, phthalate ethers, bisphenol A and other substances capable of causing harm to water bodies, harming aquatic biota or even inflicting damage to ecosystems. Substances that have entered wastewater can be transformed into many other compounds during water purification and afterwards under environmental factors. The transformation products can be more toxic than the parent compounds, and some can convert back to the parent compounds under various factors. The search of sources describing researches dedicated to pollutants and their transformation in aqueous systems was carried out in the English-speaking text databases: PubMed, Scopus, Science Direct, Web of Science, Research Gate, Springer Link and scientific electronic library - eLIBRARY.ru.

Black jurema bark powder as new alternative material for treatment of water containing two toxic dyes / Emprego do pó da casca de jurema preta como uma nova alternativa para o tratamento de água contendo dois corantes tóxicos

Black jurema bark powder (BJBP) (Mimosa hostilis Benth) was studied for the removal of textile dyes Methylene Blue (MB) and Indigo Blue (IB) in water. The chemical and physical analysis of BJBP showed a heterogeneous surface with chemical groups capable to interact with MB and IB. The experiments were optimized for use of 1g of BJBP and stirring time of 3 minutes for IB, and 0.5g of BJBP and stirring time of 2 minutes for MB. The maximum adsorptive capacities for IB (115.21 mg/g) and MB (3.50 mg/g), obtained through the Langmuir Mathematical Model, were favorable for the use of BJBP as an adsorbent in water containing both dyes. The results obtained in this work suggest BJBP as a new alternative for the removal of IB and MB in aqueous medium. Besides, this work stimulates new studies to evaluate the BJBP adsorption capacity for other chemical pollutants.