Environmental Science and Pollution Research - The study represents the seasonal characteristics (carbonaceous aerosols and elements) and the contribution of prominent sources of PM2.5 and PM10 in... 相似文献
The aim of present study was to remediate chromium (Cr)-contaminated soil by Crotalaria juncea in the presence of Pseudomonas fluorescens. Inoculation of P. fluorescens in pot soil grown with C. juncea significantly increased (~2-fold) the water-soluble (Ws) and exchangeable (Ex) Cr contents in contaminated soil under greenhouse condition. It also enhanced the chlorophyll content by 92 % and plant biomass by 99 % as compared to the uninoculated C. juncea plant. The analysis showed that root and shoot uptake of Cr in C. juncea inoculated by P. fluorescens was 3.08- and 2.82-fold, respectively. This research showed that the association of C. juncea and P. fluorescens could be a promising technology for increasing the soil Cr bioavailability and plant growth for successful phytoextraction of Cr from the contaminated soil. 相似文献
The level of toxic metals Cr, Cd, Pb and Cu was determined in seeds, water and sediments collected from nine closed waterbodies of Darbhanga, north Bihar, used for cultivation of the edible aquatic macrophyte Euryaleferox Salisb. during harvesting season of the crop for two successive years (1996 and 1997). Seeds bioconcentrated appreciable amount of these toxic metals in the order Pb > Cr > Cu > Cd. The increased load of metal pollution due to domestic and municipal discharges threatened the habitats of the plant. The toxic metal contents in seeds were found positively correlated with the ambient concentration of metals in water and sediments. The importance of these findings has been discussed for national water resource economy of the country and human health perspectives. 相似文献
The effect of plant-eating by the slug, Mariaella dussimieri Gray, and by certain lepidopteran insects and their larvae was studied under field conditions, on the growth of two sympatric annual weeds, Galinsoga ciliata (Raf.) Blake and G. parviflora Cav., in pure and mixed stands. Under the influence of herbivory, both weeds generally produced a greater number of leaves, but the leaf area per plant was drastically reduced. Plant survival and seed output decreased in both weeds due to herbivory, but the effect was more severe in G. parviflora, especially in the mixed stands. Herbivory also reduced the dry matter yield and delayed flowering in G. parviflora. Relatively poor growth of G. parviflora in the mixed stand exposed to herbivory could be attributed to its preferential feeding by the slug and insects which reduced the competitive ability of this weed against G. ciliata. 相似文献
Environmental Science and Pollution Research - Carbendazim and thiram are fungicides used in combination to prevent mold destruction of crops. Studies have demonstrated genotoxicity by these... 相似文献
This essay comments and expands upon an emerging area of research, energy communication, that shares with environmental communication the fraught commitment to simultaneously study communication as an ordinary yet potentially transformative practice, and a strategic endeavour to catalyse change. We begin by defining and situating energy communication within ongoing work on the discursive dimensions of energy extraction, production, distribution, and consumption. We then offer three generative directions for future research related to energy transitions as communicative processes: analysing campaigns’ strategic efforts, critically theorizing energy’s transnational power dynamics, and theorizing the energy democracy movement. 相似文献
Water and soil pollution by toxic heavy metals (HMs) is increasing globally because of increase in population, industrialization and urbanization. It is a burning problem for the public, scientists, academicians and politicians how to tackle the toxic contaminants which jeopardize the environment. One possible solution for pollution abatement is a bioremediation-effective and innovative technology that uses biological systems for treatment of contaminants. Many bacteria synthesize indole-3-acetic acid (IAA) which is a product of l-tryptophan metabolism and belongs to the auxin class of plant growth-promoting hormone. The present study aimed at assessing the resistance pattern of wastewater bacteria against multiple HMs and plant growth promotion activity associated with IAA. A Gram-negative bacterial strain Pseudomonas aeruginosa KUJM was isolated from Kalyani Sewage Treatment Plant. This strain showed the potential to tolerate multiple contaminations such as As(III) (50 mM), As(V) (800 mM), Cd (8 mM), Co (18 mM), Cu (7 mM), Cr (2.5 mM), Ni (3 mM) and Zn (14 mM). The capability of IAA production at different tryptophan concentration (1, 2, 5 and 10 mg mL−1) was determined, and seed germination-enhancing potential was also estimated on lentil (Lens culinaris). Such type of HM-resistant, IAA-producing and seed germination-enhancing P. aeruginosa KUJM offer great promise as inoculants to promote plant growth in the presence of toxic HMs, as well as plant inoculant systems useful for phytoremediation of polluted soils. Hence, P. aeruginosa KUJM finds significant applications in HM-contaminated poor agricultural field as well as in bioremediation of HM-contaminated wastewater system.
The implications of metal contamination of agricultural soils due to long term irrigation with treated industrial wastewater and their subsequent accumulation in the vegetables/crops growing on such soils has been assessed in an area of industrial complex, Jajmau, Kanpur (India). Physico-chemical properties of the soil were also studied. The soil and vegetables/crops were sampled from an area of 2100 acre agricultural land and analyzed for physico-chemical properties and metal accumulation in different parts of the plants. The comparison of the data of physico-chemical properties of control and contaminated soil showed that salinity, electrical conductivity, available phosphorous, sodium and potassium content (both water soluble and exchangeable) were found high in contaminated soil. The analysis of plant available metal content in the soil showed the highest level of Fe, which ranged from 529.02 to 2615 μg g−1 dw and lowest level of Ni (3.12 to 10.51 μg g−1 dw). The analysis of the results revealed that accumulation of toxic metal Cr in leafy vegetables was found more than fruit bearing vegetables/crops. Thus, it is recommended that the leafy vegetables are unsuitable to grow in such contaminated sites. It is important to note that toxic metal, Ni was not detected in all the plants. The edible part of the vegetables (under ground) such as, garlic (19.27 μg g−1 dw), potato (11.81 μg g−1 dw) and turmeric (20.86 μg g−1 dw) has accumulated lowest level of toxic metal, Cr than leafy and fruit bearing vegetables. In some fruit part of vegetables such as, bitter gourd, egg plant, jack tree, maize and okra, the accumulation of Cr was not detected and may be grown in this area. 相似文献
Multifaceted issues or paradigm of sustainable development should be appropriately addressed in the discipline of environmental
management. Pollution of the biosphere with toxic metals has accelerated dramatically since the beginning of the Industrial
Revolution. In present review, comparative assessment of traditional chemical technologies and phytoremediation has been reviewed
particularly in the context of cost-effectiveness. The potential of phytoremediation and green chemicals in heavy metals management
has been described critically. Further, the review explores our work on phytoremediation as green technology during the last
6 years and hand in hand addresses the various ecological issues, benefits and constraints pertaining to heavy metal pollution
of aquatic ecosystems and its phytoremediation as first case study. Second case study demonstrates the possible health implications
associated with use of metal contaminated wastewater for irrigation in peri-urban areas of developing world. Our researches
revealed wetland plants/macrophytes as ideal bio-system for heavy metals removal in terms of both ecology and economy, when
compared with chemical treatments. However, there are several constraints or limitations in the use of aquatic plants for
phytoremediation in microcosm as well as mesocosm conditions. On the basis of our past researches, an eco-sustainable model
has been proposed in order to resolve the certain constraints imposed in two case studies. In relation to future prospect,
phytoremediation technology for enhanced heavy metal accumulation is still in embryonic stage and needs more attention in
gene manipulation area. Moreover, harvesting and recycling tools needs more extensive research. A multidisciplinary research
effort that integrates the work of natural sciences, environmental engineers and policy makers is essential for greater success
of green technologies as a potent tool of heavy metals management. 相似文献