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Gajanan K. Khadse Morami Kalita Sarika N. Pimpalkar Pawan K. Labhsetwar 《Environmental monitoring and assessment》2011,178(1-4):401-414
To ascertain the quality of drinking water being supplied, water quality monitoring and surveillance was conducted in Gangtok city at various treatment stages, service reservoirs, distribution network, public standposts, and households. No significant change in raw water quality was observed on day-to-day basis. Residual chlorine was found in the range of nil to 0.2 mg/l in the sump water/finished water. Throughout the year (i.e., during summer, winter, and monsoon seasons), the total coliform and fecal coliform counts were ranged from nil to 7 CFU/100 ml and nil to 3 CFU/100 ml, respectively, in sump water of Selep and VIP complex water treatment plant; however, at consumer end, those were observed as nil to 210 CFU/100 ml and nil to 90 CFU/100 ml, respectively. These variations in bacterial counts among the different service reservoirs and consumer ends may be attributed to the general management practices for maintenance of service reservoirs and the possibility of enroute contamination. Evaluation of the raw water quality indicates that the water is suitable for drinking after conventional treatment followed by disinfection. The finished water quality meets the level of standards described as per Bureau of Indian Standard specifications (BIS:10500 1991) for potability in terms of its physicochemical characteristics. 相似文献
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Research to alter crops for their better performance involving modern technology is underway in numerous plants, and achievements
in transgenic plants are impacting crop improvements in unparalleled ways. Striking progress has been made using genetic engineering
technology over the past two decades in manipulating genes from diverse and exotic sources, and inserting them into crop plants
for inducing desirable characteristics. RNA interference (RNAi) has recently been identified as a natural mechanism for regulation
of gene expression in all higher organisms from plants to humans and promises greater accuracy and precision to plant improvement.
The expression of any gene can be down-regulated in a highly explicit manner exclusive of affecting the expression of any
other gene by using RNAi technologies. Additional research in this field has been focused on a number of other areas including
microRNAs, hairpin RNA, and promoter methylation. Manipulating new RNAi pathways, which generate small RNA molecules to amend
gene expression in crops, can produce new quality traits and having better potentiality of protection against abiotic and
biotic stresses. Nutritional improvement, change in morphology, or enhanced secondary metabolite synthesis are some of the
other advantages of RNAi technology. In addition to its roles in regulating gene expression, RNAi is also used as a natural
defense mechanism against molecular parasites such as jumping genes and viral genetic elements that affect genome stability.
Even though much advancement has been made on the field of RNAi over the preceding few years, the full prospective of RNAi
for crop improvement remains to be fully realized. The intricacy of RNAi pathway, the molecular machineries, and how it relates
to plant development are still to be explained. 相似文献
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The distribution pattern and fractionation of arsenic (As) in three soil profiles from tea (Camellia sinensis L.) gardens located in Karbi-Anglong (KA), Cachar (CA) and Karimganj (KG) districts in the state of Assam, India, were investigated depth-wise (0-10, 10-30, 30-60 and 60-100 cm). DTPA-extractable As was primarily restricted to surface horizons. Arsenic speciation study showed the presence of higher As(V) concentrations in the upper horizon and its gradual decrease with the increase in soil depths, following a decrease of Eh. As fractionation by sequential extraction in all the soil profiles showed that arsenic concentrations in the three most labile fractions (i.e., water-soluble, exchangeable and carbonate-bound fractions) were generally low. Most arsenic in soils was nominally associated with the organic and Fe-Mn oxide fractions, being extractable in oxidizing or reducing conditions. DTPA-extractable As (assumed to represent plant-available As) was found to be strongly correlated to the labile pool of As (i.e. the sum of the first three fractions). The statistical comparison of means (two-sample t-test) showed the presence of significant differences between the concentrations of As(III) and As(V) for different soil locations, depths and fractions. The risk assessment code (RAC) was found to be below the pollution level for all soils. The measurement of arsenic uptake by different parts of tea plants corroborated the hypothesis that roots act as a buffer and hold back contamination from the aerial parts. 相似文献
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Hairong Zhang Jingchun Tang Lin Wang Juncheng Liu Ranjit Gajanan Gurav Kejing Sun 《环境科学学报(英文版)》2016,28(9):7-13
The present work aimed to develop a novel strategy to bioremediate the petroleum hydrocarbon contaminants in the environment. Salt tolerant bacterium was isolated from Dagang oilfield, China and identified as Corynebacterium variabile HRJ4 based on 16S rRNA gene sequence analysis. The bacterium had a high salt tolerant capability and biochar was developed as carrier for the bacterium. The bacteria with biochar were most effective in degradation of n-alkanes (C16, C18, C19, C26, C28) and polycyclic aromatic hydrocarbons (NAP, PYR) mixture. The result demonstrated that immobilization of C. variabile HRJ4 with biochar showed higher degradation of total petroleum hydrocarbons (THPs) up to 78.9% after 7-day of incubation as compared to the free leaving bacteria. The approach of this study will be helpful in clean-up of petroleum-contamination in the environments through bioremediation process using eco-friendly and cost effective materials like biochar. 相似文献
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