Phytoremediation of landfill leachate waste contaminants through floating bed technique using water hyacinth and water lettuce

Abstract

In the present study, the effectiveness of water hyacinth and water lettuce was tested for the phytoremediation of landfill leachate for the period of 15?days. Fifteen plastic containers were used in experimental setup where aquatic plants were fitted as a floating bed with the help of thermo-pole sheet. It was observed that both plants significantly (p?<?0.05/p?<?0.01/p?<?0.001) reduce the physicochemical parameters pH, TDS, BOD, COD and heavy metals like Zn, Pb, Fe, Cu and Ni from landfill leachate. Maximum reduction in these parameters was obtained at 50% and 75% landfill leachate treatment and their removal rate gradually increased from day 3 to day 15 of the experiment. The maximum removal rate for heavy metals such as for Zn (80–90%), Fe (83–87%) and Pb (76–84%) was attained by Eichhornia crassipes and Pistia stratiotes. Value of bioconcentration and translocation factor was less than 1 which indicates the low transport of heavy metals from roots to the above-ground parts of the plants. Both these plants accumulate heavy metals inside their body without showing much reduction in growth and showing tolerance to all the present metals. Therefore, results obtained from the study suggest that these aquatic plants are suitable candidate for the removal of pollution load from landfill leachate.     

Isolation and characterisation of poly(3-hydroxybutyrate-co-3-hydroxyvalerate) degrading actinomycetes and purification of PHBV depolymerase from newly isolatedStreptoverticillium kashmirense AF1

Streptoverticillium kashmirense AF1 with the ability to degrade a natural polymer, poly(3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) was isolated from municipal sewage sludge by soil burial technique. The PHBV film was degraded by the action of extracellular enzymes secreted by the microorganisms. Degradation of PHBV was evident by the formation of clear zones of hydrolysis on the polymer containing mineral salt agar plates. The extent of PHBV degradation increased up to 30 days of incubation. Maximum production of PHBV depolymerase was observed both at pH 8 and pH 7, 45 °C, 1% substrate concentration and in the presence of lactose as an additional carbon source. Two types of extracellular PHBV depolymerases were purified fromS. kashmirense AF1 by gel permeation chromatography using Sephadex G-75. The molecular weights of the two proteins were found to be 35 and 45 kDa approximately, as determined by SDS-PAGE. The results of the Sturm test also showed more CO₂ production as a result of PHBV degradation, in the test as compared to control. The present findings indicated the degradation capabilities ofS. kashmirense AF1.     

Low Abdominal NIRS Values and Elevated Plasma Intestinal Fatty Acid-Binding Protein in a Premature Piglet Model of Necrotizing Enterocolitis

To identify early markers of necrotizing enterocolitis (NEC), we hypothesized that continuous abdominal near-infrared spectroscopy (A-NIRS) measurement of splanchnic tissue oxygen saturation and intermittent plasma intestinal fatty-acid binding protein (pI-FABP) measured every 6 hours can detect NEC prior to onset of clinical symptoms. Premature piglets received parenteral nutrition for 48-hours after delivery, followed by enteral feeds every three hours until death or euthanasia at 96-hours. Continuous A-NIRS, systemic oxygen saturation (SpO₂), and heart rate were measured while monitoring for clinical signs of NEC. Blood samples obtained at 6-hour intervals were used to determine pI-FABP levels by ELISA. Piglets were classified as fulminant-NEC (f-NEC), non-fulminant-NEC (nf-NEC) and No-NEC according to severity of clinical and histologic features. Of 38 piglets, 37% (n=14) developed nf-NEC, 18% (n=7) developed f-NEC and 45% (n=17) had No-NEC. There were significant differences in baseline heart rate (p=0.008), SpO₂ (p<0.001) and A-NIRS (p<0.001) among the three groups. A-NIRS values of NEC piglets remained lower throughout the study with mean for f-NEC of 69±3.8%, 71.9±4.04% for nf-NEC, and 78.4±1.8% for No-NEC piglets (p<0.001). A-NIRS <75% predicted NEC with 97% sensitivity and 97% specificity. NEC piglets demonstrated greater variability from baseline in A-NIRS than healthy piglets (10.1% vs. 6.3%; p=0.04). Mean pI-FABP levels were higher in animals that developed NEC compared to No-NEC piglets (0.66 vs. 0.09 ng/mL;p<0.001). In f-NEC piglets, pI-FABP increased precipitously after feeds (0.04 to 1.87 ng/mL;p<0.001). pI-FABP levels increased in parallel with disease progression and a value >0.25ng/mL identified animals with NEC (68% sensitivity and 90% specificity). NIRS is a real-time, non-invasive tool that can serve as a diagnostic modality for NEC. In premature piglets, low A-NIRS in the early neonatal period and increased variability during initial feeds are highly predictive of NEC, which is then confirmed by rising plasma I-FABP levels. These modalities may help identify neonates with NEC prior to clinical manifestations of disease.     

Influence of culture conditions on lipase production byBacillus sp. FH5

Lipases are a class of enzymes, which catalyse the hydrolysis of long chain triglycerides. Microbial lipases are currently receiving much attention with the rapid development of enzyme technology. Lipases have industrial potential in the chemical, pharmaceutical, medical, cosmetic, leather and paper manufacturing industries, biosurfactant synthesis, and agrochemicals. ABacillus strain isolated from soil was tested for the production of extracellular lipase, by batch culturing in shake flask. The growth conditions were optimised for the maximum production of enzyme. Various parameters for the production of lipase, such as temperature, incubation period, pH, carbon source, nitrogen source and lipids were studied. Maximum lipase production was found in 48-h-old culture filtrate at 37 °C, pH 8.0. Among all the carbon sources, salicin gave the maximum activity and among all the nitrogen sources yeast extract gave maximum production/activity. Tween (20 and 80) does not stimulate the growth much but assisted in enzyme production.     

Methanogenic potential of Arctic and Antarctic subglacial environments with contrasting organic carbon sources

Subglacial environments are largely anoxic, contain organic carbon (OC) overridden by glacier ice during periods of advance, and harbour active microbial communities. This creates favourable conditions for OC degradation via methanogenesis. It has been hypothesized that OC beneath ice sheets is converted to methane (CH₄) and may be released to the atmosphere during retreat. However, there are limited data available to support this contention. Here, we present new data on the abundance, diversity and activity of methanogenic archaea and the amount and character of OC in subglacial sediments from Arctic and Antarctic glacial systems based on different substrate types. We employed long‐term laboratory incubations to quantify the CH₄ production potential in different subglacial settings. Significant numbers of methanogens (up to 7 × 10⁴ cells g^?1) were detected in the samples and clones of Methanomicrobiales and Methanosarcinales were identified in clone libraries. Long lag periods (up to >200 days) were observed before significant CH₄ concentrations were measured. We report order of magnitude differences in rates of CH₄ production (10¹–10⁵ fmol g^?1 d^?1) in different subglacial sediments, reflecting contrasts in the origin of the sediment and the OC character. Hence, we predict that contrasting rates of CH₄ production are likely to occur beneath glaciers and ice sheets that overran different types of substrate. We subsequently estimated the potential for CH₄ production beneath the Laurentide/Inuitian/Cordilleran and Fennoscandian Ice Sheets during a typical 85 ka Quaternary glacial/interglacial cycle. CH₄ production from lacustrine‐derived OC is likely to be an order of magnitude higher (~6.3–27 Pg C) than that from overridden soils (~0.55–0.68 Pg C), possibly due to a difference in lability between lacustrine and soil OC. While representing a fraction of the entire OC pool (~418–610 Pg C), this finding highlights the importance of considering the character of different OC pools when calculating subglacial CH₄ production.     

Prokaryotic diversity in sediments beneath two polar glaciers with contrasting organic carbon substrates

Microbial ecosystems beneath glaciers and ice sheets are thought to play an active role in regional and global carbon cycling. Subglacial sediments are assumed to be largely anoxic, and thus various pathways of organic carbon metabolism may occur here. We examine the abundance and diversity of prokaryotes in sediment beneath two glaciers (Lower Wright Glacier in Antarctica and Russell Glacier in Greenland) with different glaciation histories and thus with different organic carbon substrates. The total microbial abundance in the Lower Wright Glacier sediment, originating from young lacustrine sediment, was an order of magnitude higher (~8 × 10⁶ cells per gram of wet sediment) than in Russell Glacier sediment (~9 × 10⁵ cells g⁻¹) that is of Holocene-aged soil origin. 4% of the microbes from the Russell Glacier sediment and 0.04–0.35% from Lower Wright Glacier were culturable at 10°C. The Lower Wright Glacier subglacial community was dominated by Proteobacteria, followed by Firmicutes. The Russell Glacier library was much less diverse and also dominated by Proteobacteria. Low numbers and diversity of both Euryarchaeota and Crenarchaeota were found in both sediments. The identified clones were related to bacteria with both aerobic and anaerobic metabolisms, indicating the presence of both oxic and anoxic conditions in the sediments.     

Importance of Proteins Controlling Initiation of DNA Replication in the Growth of the High-Pressure-Loving Bacterium Photobacterium profundum SS9

The molecular mechanism(s) by which deep-sea bacteria grow optimally under high hydrostatic pressure at low temperatures is poorly understood. To gain further insight into the mechanism(s), a previous study screened transposon mutant libraries of the deep-sea bacterium Photobacterium profundum SS9 and identified mutants which exhibited alterations in growth at high pressure relative to that of the parent strain. Two of these mutants, FL23 (PBPRA3229::mini-Tn10) and FL28 (PBPRA1039::mini-Tn10), were found to have high-pressure sensitivity and enhanced-growth phenotypes, respectively. The PBPRA3229 and PBPRA1039 genes encode proteins which are highly similar to Escherichia coli DiaA, a positive regulator, and SeqA, a negative regulator, respectively, of the initiation of DNA replication. In this study, we investigated the hypothesis that PBPRA3229 and PBPRA1039 encode DiaA and SeqA homologs, respectively. Consistent with this, we determined that the plasmid-carried PBPRA3229 and PBPRA1039 genes restored synchrony to the initiation of DNA replication in E. coli mutants lacking DiaA and SeqA, respectively. Additionally, PBPRA3229 restored the cold sensitivity phenotype of an E. coli dnaA(Cs) diaA double mutant whereas PBPRA1039 suppressed the cold sensitivity phenotype of an E. coli dnaA(Cs) single mutant. Taken together, these findings show that the genes disrupted in FL23 and FL28 encode DiaA and SeqA homologs, respectively. Consequently, our findings add support to a model whereby high pressure affects the initiation of DNA replication in P. profundum SS9 and either the presence of a positive regulator (DiaA) or the removal of a negative regulator (SeqA) promotes growth under these conditions.Despite the fact that more than 70% of the earth''s surface is covered by oceans, which have an average temperature of 3°C and exert an average hydrostatic pressure of 38 MPa (atmospheric pressure is ∼0.1 MPa), little is understood about the molecular basis of cold- and high-pressure-adapted deep-ocean life. The discovery and isolation of the pyschrotolerant facultative piezophile (high-pressure-loving organism) Photobacterium profundum SS9 (8) have made it possible to more readily address the mechanisms of piezophilic growth at cold temperatures (for a recent review, see reference 3). P. profundum SS9 is a gammaproteobacterium originally isolated from an amphipod homogenate obtained from the Sulu Sea in the Philippines at a depth of 2.5 km and a temperature of 9°C (8). Although it grows optimally at 28 MPa and 15°C, P. profundum SS9 can also grow over a wide range of pressures (0.1 to 90 MPa) and temperatures (2 to 20°C). The ability to grow at atmospheric pressure has made P. profundum SS9 more amenable to genetic manipulation than obligate piezophiles. The P. profundum SS9 genome has been sequenced and annotated (26) and consists of two chromosomes and an 80-kb plasmid. It was determined that the 80-kb plasmid is nonessential for the piezophilic growth of P. profundum SS9 (26).To gain insights into the genetic basis of high-pressure-adapted growth, transposon mutant libraries of P. profundum SS9R (a rifampin [rifampicin]-resistant derivative of SS9) were screened in liquid culture for mutants with defects in the ability to grow at high pressure (45 MPa, 15°C) (19). One of the putative high-pressure-sensitive mutants (FL23) isolated from these screens had a mini-Tn10 insertion in the gene PBPRA3229, which encodes a protein with 75% identity (85% similarity) to Escherichia coli DiaA (DnaA initiator-associating factor) (14). Although FL23 shows growth defects at 0.1 MPa (15°C) relative to the parent strain, the ratio of growth at 45 MPa to growth at 0.1 MPa and 15°C is substantially reduced compared to that of the parent strain, confirming that disruption of PBPRA3229 results in a high-pressure sensitivity growth phenotype (19).In E. coli, DiaA is necessary to ensure the timely initiation of DNA replication (14). DiaA forms a tetramer and binds to multiple molecules of DnaA, promoting (i) the binding of DnaA to the origin of replication in E. coli (known as oriC), (ii) ATP-DnaA-specific conformational changes in the oriC complex, and (iii) the unwinding of oriC DNA (17). Consequently, E. coli DiaA acts as a positive regulator of the initiation of DNA replication. In the absence of DiaA, initiation of DNA replication is delayed and in E. coli cells with two oriC copies, it only occurs from one of these, resulting in cells with three copies of their chromosome (14). In contrast, this is an extremely rare occurrence in wild-type E. coli cells. Although disruption of diaA in E. coli results in an asynchronous DNA replication phenotype, it does not appear to affect growth or morphology at atmospheric pressure at 37°C in a genetic background with a wild-type dnaA gene. However, disruption of the diaA gene suppresses the cold sensitivity phenotype of an E. coli dnaA(Cs) mutant at 30°C.Even though PBPRA3229 is highly similar to E. coli DiaA, it also shows 45% identity (65% similarity) to a phosphoheptose isomerase in E. coli known as GmhA (4). GmhA is involved in lipopolysaccharide (LPS) biosynthesis and catalyzes the isomerization of d-sedoheptulose 7-phosphate into d-glycero-d-manno-heptose 7-phosphate, which is the first step in the biosynthesis of ADP-glycero-manno-heptose, a subunit of the LPS inner core. The LPS forms the outermost leaflet of the outer membrane of gram-negative bacterial cells, and in E. coli K-12 strains, the LPS is composed of inner and outer sugar cores and lipid A (25). E. coli K-12 mutants lacking GmhA produce truncated LPS species relative to that of the parent strain due to the absence of the inner core, which can be easily visualized by gel electrophoresis followed by silver staining (4). Due to the high degree of sequence similarity between PBPRA3229 and GmhA, it is also possible that FL23 has an alteration in its LPS relative to that of the parent strain.In contrast to DiaA, SeqA is a negative regulator of the initiation of DNA replication in E. coli (20). E. coli SeqA binds to hemimethylated oriC and prevents the binding of ATP-DnaA. Disruption of seqA in E. coli also results in an asynchronous-replication phenotype. However, the effect of DiaA on the timing of DNA replication initiation appears to be SeqA independent (14). Interestingly, a putative P. profundum SS9R seqA transposon insertion mutant (PBPRA1039::Tn10) was identified as having high-pressure-enhanced growth at 45 MPa and 15°C relative to its growth at atmospheric pressure (19). Therefore, this preliminary finding suggests that the removal of a negative regulator of the initiation of DNA replication could promote the growth of P. profundum SS9R at high pressure.In this study, we investigated the hypothesis that proteins that regulate the initiation of DNA replication play a key role in the piezophilic growth of P. profundum SS9. We determined that PBPRA3229 and PBPRA1039 encode functional DiaA and SeqA homologs, respectively, and we propose a model whereby the initiation of DNA replication is sensitive to high pressure and either the production of a positive regulator (DiaA) or the removal of a negative regulator (SeqA) can promote growth under these conditions.     

Isolation and screening of fungi associated with eggs and females of root-knot nematodes and their biocontrol potential against Meloidogyne incognita in Bangladesh

A total of 297 fungal isolates belonging to 20 genera and 33 species were isolated and identified from eggs and females of Meloidogyne spp. in Bangladesh. The predominant genera were Fusarium, Aspergillus and Penicillium; and the significant ones were Purpureocillium, Trichoderma and Pochonia. The 24 well tissue culture plate screening technique was applied for pathogenicity tests against Meloidogyne incognita in vitro. The average percentages of egg parasitism, egg hatch inhibition and juvenile mortality varied significantly and were ranged from 8.2 to 64.9% (p = 0.05), 24.8 to 72.4% (p = 0.05), and 2.3 to 33.1% (p = 0.05), respectively. Two isolates of Purpureocillium lilacinum (PLSAU 1 and PLSAU 2) and one isolate of Pochonia chlamydosporia (PCSAU 1) reduced more than 60% average root galls of tomato, eggplant and cucumber in greenhouse experiments. This is the first investigation of fungi associated with nematodes in the country and their biological control potential against M. incognita.     

Pattern of Drug Resistance and Risk Factors Associated with Development of Drug Resistant Mycobacterium tuberculosis in Pakistan

Background

Drug resistant tuberculosis (DR-TB) is a major public health problem in developing countries such as Pakistan.

Objective

The current study was conducted to assess the frequency of drug resistant tuberculosis including multi drug resistance (MDR- TB) as well as risk factors for development of DR-TB, in Punjab, Pakistan.

Methodology

Drug susceptibility testing (DST) was performed, using proportion method, for 2367 culture positive Mycobacterium tuberculosis (MTB) cases that were enrolled from January 2012 to December 2013 in the province of Punjab, Pakistan, against first-line anti-tuberculosis drugs. The data was analyzed using statistical software; SPSS version 18.

Results

Out of 2367 isolates, 273 (11.5%) were resistant to at least one anti-TB drug, while 221 (9.3%) showed MDR- TB. Risk factors for development of MDR-TB were early age (ranges between 10–25 years) and previously treated TB patients.

Conclusion

DR-TB is a considerable problem in Pakistan. Major risk factors are previous history of TB treatment and younger age group. It emphasizes the need for effective TB control Program in the country.