Zinc and Chromium Load in Road Dust, Suspended Particulate Matter and Foliar Dust Deposits of Anand City, Gujarat

Anand, the milk capital of India, is a developing city with increasing vehicles and developmental activities going on at a fast pace. This study attempts to investigate the zinc and chromium concentration in street dust, suspended particulate matter and in foliar dust deposits. Ten sampling locations were selected based on the traffic density on the roads and different anthropogenic activity. Sampling was carried out in the dry months of January to March 2011. The range of Zn and Cr was 16.82 - 108.29 ppm and 118 - 151.5 ppm in the street dust respectively. Zn concentration in Suspended particulate matter lies in the range of 12.41 to 86 ppm and Cr concentration between 75 to 130 ppm. The range of Cr in foliar deposited dust varied from 79.54 ppm to 31 ppm. Whereas, for Zn maximum concentration was in S10 which is 42.34 ppm and minimum was in site S9, 23.73 ppm. ANOVA single factor showed that at 0.05 level of significance site wise variation of zinc and chromium concentration in SPM, Street dust and foliar deposited dust was not significant signifying similar source of contamination. Which is further strengthened by the good positive correlation found between the Zn and Cr concentration of street dust, leaf deposited dust and SPM. The Contamination Factor in the sites where metal concentration was high was 1.24 in S10 and 1.06 in S5 for Zn. For chromium the value of CF was 1.77 in S10 and 1.67 in S5. These values indicate that street dust is moderately contaminated with respect to zinc and chromium.

Microbial degradation of various types of dissolved organic matter in aquatic ecosystems and its influencing factors

Interactions between chemodiverse dissolved organic matter(DOM)and biodiverse microbes are governed by a myriad of intrinsic and extrinsic factors which are not well understood.Here,we update and bridge the gap of this interdisciplinary theme comprehensively.At an ecosystem level,aquatic ecosystems dominated by algae-sourced DOM(e.g.,eutrophic lake or coastal upwelling areas)harbor more biolabile DOM,such as directly assimilable monomers and readily hydrolysable biopolymers.However,other ecosystems prevailed by DOM supply from soil and vascular plants(e.g.,river or wetland)have more biorefractory DOM,such as low molecular weight(LMW)residue of aliphatic C skeletons and geopolymers.A variety of heterotrophic bacteria,archaea,fungi,phagotrophic protists,and even photoautotrophic phytoplankton shows genomic and/or culturing experimental evidence of being able to process a diverse type of organics.The various biodegradable organics have different chemical structures and chemical bonds such as carbohydrates,amino acids,proteins,lignins,lipids,carboxylic acids,humic acids,hydrocarbons,and nanoplastics.Meanwhile,bio-production of metabolism intermediates and/or biorefractory organics(e.g.,carboxyl-rich alicyclic molecules,CRAM)is observed despite general decay of bulk dissolved organic carbon(DOC)during bioassay experiments.In particular,emerging evidence shows that archaea contribute significantly to biomass in the marine mesopelagic zone and subsurface environments and their abundance often increases with depth in sediments.Furthermore,not only intrinsic factors(e.g.,DOM composition and structure),but also extrinsic ones(e.g.,sunlight and dissolved oxygen)play important roles in interplays between DOM and microbes.