Removal of Copper and Cadmium Ions from Diluted Aqueous Solutions by Low Cost and Waste Material Adsorbents

The sorption of copper and cadmium ions using activated carbon,kaolin, bentonite, diatomite and waste materials such as compost,cellulose pulp waste and anaerobic sludge as sorbents is reported. Equilibrium isotherms were obtained for the adsorption of these metals in single and binary solutions. Bentonite presented the highest adsorption capacities for both copper and cadmium. A competitive uptake was observed when both metals are present; copper being preferentially adsorbed by all materials with theexception of anaerobic sludge. Equilibrium data were fitted toLangmuir and Freundlich models, with satisfactory results for most of the adsorbent-metal systems studied.Of all the adsorbents studied, bentonite and compost presentedthe highest removal efficiencies, reaching 99% for copper whencadmium is also present, for initial solution concentrations ofup to 100 mg L^-1. Anaerobic sludge has a greater preferencefor cadmium, even in the presence of copper, with removal efficiencies of 98% for similar concentrations to those mentioned above.     

Experimental study of antibiotic-induced immunosuppression in mice—I. Humoral and cell-mediated immune responsiveness related to in vivo antibiotic treatment

By using CBA/J mice as responders, the immunodepressive effect of seven antibacterial chemotherapeutic agents was tested, i.e. penicillin (pen), streptomycin (str), erythromycin (erm), kanamycin (kan), tetracycline (tet), colistin (col) and chloramphenicol (chl). Lymphocytotoxicity power, as well as the ability of each drug to influence secondary humoral (against sheep red blood cells or diphtheria anatoxin) or cell-mediated (against PPD and Coxsackie A₉ virus) immunity were searched.

Erm, col and chl markedly depressed humoral and cell-mediated immune responsiveness in vitro after in vivo treatment with non-cytotoxical amounts. The Th lymphocyte supplementation of B reactive spleen cell population recovered the immune capacity in col and chl in vivo-treated groups, but not in erm-treated group.     

Experimental study of antibiotic-induced immunosuppression in mice—II. Th, Ts and NC cell involvement

In penicillin(pen), streptomycin(str), kanamycin(kan) and tetracycline(tet)-treated CBA/J adult mice, no difference was noticed as concerned spleen T “helper” (Th) cell activity, as studied by means of response to PHA of X-irradiated/whole T fraction cell mixtures in vitro. On the contrary, in erythromycin(erm), colistin(col) and chloramphenicol(chl)-treated groups, Th cell activity was significantly decreased. On the other hand, spleen T “suppressor” (Ts) cell activity (assayed by response to PHA of mixtures containing pre-incubated with Concanavalin A and whole T cells, respectively) was augmented in samples arising from chl-treated group. These results are also supported by experiments testing Th or Ts soluble factors, induced in spleen T cells belonging to each antibiotic-treated group and purified by affinity chromatography (Concanavalin A-Sepharose 4B columns). Thus, it was confirmed both Th cell deficiency in erm, col or chl-groups, and Ts cell augmentation in chl-group.

As regards spleen “natural cytotoxic” (NC) cell activity, as tested in a xenogeneic “target” cell substrate, a diminished cytotoxic capacity manifested chl-group-derived NC cells, possibly by richness in own “non-specific suppressor” (NSS) cells. NC cell samples in vitro supplemented with NSS cells arising from suckling mouse spleens and a lower cytotoxic activity, in a larger extent in chl-group-derived NC cells, as compared to other groups. The pre-incubation of control-group-NC cells with several antibiotic preparations in vitro was followed by decrease of the cytotoxic values in erm, col and chl-samples, suggesting a drug-induced NC receptor “masking”, that prevented “target” cell recognition in mice—II. In the case of NSS addition in vitro, as strong inhibition of the cytotoximity occurred in chl-treated NC cells derived from the control group, that proves a possible chloramphenicol-induced immunodepression by potentiation of NSS inhibitory effect on NC cells.

Based upon data from the present work, as well as from the previous work, the authors suggest a classification of several mechanisms by which the antibacterial antibiotics can act as immunosuppressive.     

Sediment flux during flood events along the Trotuș River channel: hydrogeomorphological approach

Journal of Soils and Sediments - The degree of the river channel change, and particularly the amount of transported sediment, defines the geomorphic effectiveness of a flood event. This study aims...