Zinc removal from highly acidic and sulfate-rich wastewater in horizontal sub-surface constructed wetland

This study demonstrated the successful utilization of a lab-scale baffled horizontal constructed wetland substituted with mixed organic media for zinc removal from high acidity (∼610 mg L−1 as CaCO3) sulfate-rich (∼1,300 mg L−1) wastewater. The wetland was planted with Typha latifolia. The mean zinc concentration in the influent was gradually increased from 0.56 ± 0.02 mg L−1 to 5.3 ± 0.42 mg L−1. The mean zinc concentration in the outflow was 0.22 ± 0.19 mg L−1, accounting 95% zinc removal throughout the study. However, total zinc uptake by plants was 533 mg kg−1, accounting for only 1.2% of total zinc removal and therefore, major zinc retention occurred within wetland media (83%). The overall activity and specific sulfidogenic activity decreased at the end of the study to 1.43 mg COD removed mg TVS−1 d−1 and 0.60 mg sulfate reduced mg TVS−1 d−1, respectively. Additionally, 16S rRNA sequencing revealed major dominant phyla present: Firmicutes (36%), Proteobacteria (16%), Actinobacteria (8.8%), Planctomycetes (7.8%), Chloroflexi (3.5%), Acidobacteria (1.9%) and Fibrobacteres (1.5%).

Effect of bis-glycinate bound zinc or zinc sulfate on zinc metabolism in growing lambs

To assess the efficacy of bis-glycinate bound Zn, 36 crossbred wethers (34 ± 2 kg) were sorted by body weight into three groups and stagger started on a Zn-deficient diet (18 mg Zn/kg dry matter [DM]; 22.5% neutral detergent fiber [NDF]) for 45 d prior to a 15-d metabolism period (10 d adaptation and 5 d collection). On day 46, lambs were randomly assigned to dietary treatments (four lambs treatment−1group−1): no supplemental Zn (CON) or 15 mg supplemental Zn/kg DM (ZINC) as Zn sulfate (ZS) or bis-glycinate (GLY; Plexomin Zn, Phytobiotics). Blood was collected from all lambs on days 1, 44, 56, and 61. Liver, jejunum, and longissimus dorsi samples were collected after euthanasia on day 61. Gene expression was determined via quantitative real-time polymerase chain reaction. Data were analyzed using ProcMixed of SAS (experimental unit = lamb; fixed effects = treatment, group, and breed) and contrast statements assessed the effects of supplemental Zn concentration (ZINC vs. CON) and source (GLY vs. ZS). After 15 d of Zn supplementation, plasma Zn concentrations were greater for ZINC vs. CON and GLY vs. ZS (P ≤ 0.01); tissue Zn concentrations were unaffected (P ≥ 0.27). Liver Cu concentrations were lesser for ZINC vs. CON (P = 0.03). Longissimus dorsi Mn concentrations were greater for ZINC vs. CON (P = 0.05) and tended to be lesser for GLY vs. ZS (P = 0.09). Digestibility of DM, organic matter (OM), and NDF was lesser for ZINC vs. CON (P ≤ 0.05); acid detergent fiber digestibility tended to be greater for GLY vs. ZS (P = 0.06). Nitrogen retention (g/d) tended to be greater for GLY vs. ZS (P = 0.10), and N apparent absorption was lesser for ZINC vs. CON (P = 0.02). Zinc intake, fecal output, retention, and apparent absorption were greater for ZINC vs. CON (P ≤ 0.01). Apparent absorption of Zn was −5.1%, 12.8%, and 15.0% for CON, ZS, and GLY, respectively. Nitrogen and Zn retention and apparent absorption were not correlated for CON (P ≥ 0.14) but were positively correlated for ZINC (retention: P = 0.02, r = 0.52; apparent absorption: P < 0.01, r = 0.73). Intestinal expression of Zn transporter ZIP4 was lesser for ZINC vs. CON (P = 0.02). Liver expression of metallothionein-1 (MT1) tended to be greater for GLY vs. ZS (P = 0.07). Although Zn apparent absorption did not differ between sources (P = 0.71), differences in post-absorptive metabolism may be responsible for greater plasma Zn concentrations and liver MT1 expression for GLY-supplemented lambs, suggesting improved bioavailability of GLY relative to ZS.

Evaluation de l’impact de l’utilisation du diammonium phosphate sur la disponibilité du zinc dans un sol rizicole au Mali

L’utilisation des fertilisants chimiques dans l’agriculture s’est fortement accentuée ce dernier temps au Mali. En effet l’apport régulier du diammonium phosphate (DAP) peut influencer la mobilité du zinc, car les phosphates fixent cet élément. L’étude a pour but d’évaluer l’impact de l’utilisation de ce fertilisant phosphaté sur la disponibilité du zinc. Ainsi pour la caractérisation, l’échantillon est analysé par plusieurs méthodes physico-chimiques : la diffraction des rayons X et la microscopie électronique à balayage. Des essais d’absorption ont été réalisés avec cinq pots numérotés (P0, P1, P2, P3, P4) contenant chacun 1 kg d’échantillon auxquels a été ajouté respectivement 0 ; 2 ; 4 ; 8 et 10 g du fertilisant. D’autres essais ont été conduits avec 3 g d’échantillons prélevés dans le pot P4, auxquels ont été appliqué respectivement 150 ppm, 300 ppm, 450 ppm et 600 ppm de zinc. Il ressort de ce travail que la quantité de Zn retenu est proportionnelle à celle du DAP et que la limite (rétention en 21 jours) = 499,9993 ppm > limite (rétention en 15 jours) = 499,9991 ppm > limite (rétention en 7 jours) = 499,9990 ppm > limite (rétention en 1 jour) = 499,9980 ppm. Cette étude a montré que le diammonium phosphate retient le zinc et influence donc sa biodisponibilité.Mots clés : Sol rizicole, Pana au Mali, rétention du zinc, impact de l’utilisation, Diammonium phosphate. English Title: Estimate the impact of phosphate diammonium usage on the availability of zinc in a rice producing soil in Mali The use of chemical fertilizers in agriculture has highly increased this last time in Mali. In fact the regular contribution of DAP can influence the mobility of zinc, because the phosphate fix this element. The object of this study is to estimate the impact of this phosphate fertilizer on the availability of zinc. So for the characterization, the sample is analysed through several physico-chemical methods: the X rays diffraction and the sweeping electronic microscopy. Some absorbing tests have been carried out with five numbered pots (P0, P1, P2, P3, P4) containing each 1 kg of sample to which has been added respectively 0; 2; 4; 8 and 10 g of the fertilizer. Other tests have conducted with 3 g samples removed from the pot P4, to which has been applied respectively 150 ppm, 300 ppm, 450 ppm and 600 ppm of zinc. As a result of the work the quantity of zinc retained is proportional to the one of DAP and the limit (retention in 21 days) = 499.9993 ppm > limit (retention in 15 days) = 499.9991 ppm > limit (retention in 7 days) = 499.9990 ppm > limit (retention in 1 day) = 499.9980 ppm. This study has shown that the phosphate diammonium retains the zinc and influences in this case its bioavailability.Keywords: Rice producing soil, Pana in Mali, zinc retention, the impact of the usage, phosphate diammonium.