Brinkholt5637
Thermal treatment of mercury (Hg)-contaminated soil was studied to investigate the desorption behavior of Hg at different temperatures. The soil samples were collected from two locations with different land uses around the mine and industrial site. The effect of soil properties such as inorganic carbonate minerals and organic matter content on Hg desorption was investigated to understand the thermal desorption process. The effect of soil composition on Hg desorption showed that behavior at 100 °C was similar, but a different behavior could be found at 300 °C. The thermal desorption efficiency at 300 °C is affected by the thermal properties of soils and the Hg desorption capacity of the soils. The Hg from both soil types was removed above 300 °C, and Hg was effectively removed from mine soil due to the partial decomposition of carbonate in the soil composition, while industrial soil showed that desorption would be restrained by Hg organic matter complexes due to organic matter content. Despite a relatively higher concentration of Hg in the mine soil, Hg removal efficiency was greater than that in the industrial soil. Sequential extraction results showed that only the Hg fractions (residual fractions, step 6) in mine soil changed, while the industrial soil was affected by changes in Hg fractions (step 3 to step 6) at 300 °C. Changes in soil pH during thermal desorption are also influenced by heating time and temperature. Therefore, the mechanisms of Hg desorption during thermal treatment were observed by soil properties. The volatilization of Hg in the soil is induced by organic carbon, while soil Hg release is controlled by organic matter complexes.Sugarcane monoculture (SM) often leads to soil problems, like soil acidification, degradation, and soil-borne diseases, which ultimately pose a negative impact on agricultural productivity and sustainability. Understanding the change in microbial communities' composition, activities, and functional microbial taxa associated with the plant and soil under SM is unclear. learn more Using multidisciplinary approaches such as Illumina sequencing, measurements of soil properties, and enzyme activities, we analyzed soil samples from three sugarcane fields with different monoculture histories (1-, 2-, and 4-year cultivation times, respectively). We observed that SM induced soil acidity and had adverse effects on soil fertility, i.e., soil organic matter (OM), total nitrogen (TN), total carbon (TC), and available potassium (AK), as well as enzyme activities indicative for carbon, phosphorus, and nitrogen cycles. Non-metric multidimensional scaling (NMDS) analysis showed that SM time greatly affected soil attribute patterns. We oeficial bacterial genera decreased significantly due to SM, while beneficial fungal genera showed a reverse trend. Therefore, mitigating soil acidity, improving soil fertility, and soil enzymatic activities, including improved microbial structure with beneficial service to plants and soil, can be an effective measure to develop a sustainable sugarcane cropping system.Industrial heritage redevelopment (IHR) is the redevelopment and utilization of original industrial buildings. The sustainable development of IHR projects is a major challenge that the construction industry must address to establish reasonable sustainable solutions for urban development. However, the relationship between the sustainable development of IHR and its potential driving forces has not yet been elucidated. In this paper, first, 25 sustainability drivers are identified through a comprehensive literature review. Second, key environmental, economic, social, and cultural sustainability attributes are determined through structured questionnaires and interviews. Through a confirmatory factor analysis, the core degree of the sustainability driving factors is quantified. On this basis, the important role of sustainability in urban renewal is discussed. The research shows that the core driving forces of the IHR projects are the (1) development status of the construction industry, (2) repair and maintenance costs, (3) soundness of laws and regulations, (4) suitability level of the development model, and (5) utilization of construction land. Besides, IHR projects have great potential, and improving the sustainability of their development is of great significance to urban renewal.Fly ash (FA) is available in an unstable state and can be ameliorated by vermicomposting. The different ratios of FA viz (FA10, FA15, FA20, FA25, FA50, FA75) were mixed with another organic waste, i.e., cattle dung. Supportive effects of FA were seen on the reproductive parameters of the earthworms up to FA25. Some beneficial changes have been reported in pH, EC, TOC, TKN, TAP, TNa, TK, and potentially toxic heavy metals (Zn, Cu, Cd, Co, Ni, Cr, Pb). The genotoxicity test was performed to assess the toxic effects of the fly ash which has not been done till now. Low genotoxicity potential and high onion root growth were observed in the post-vermicompost samples which were not even reported yet by any other study. These results clearly indicated that the vermicomposting process offers the best option to manage the FA by converting it into an ecofriendly, nutrient-rich, and properly detoxified manure with the help of earthworms which also indicate its economically best-fit applications for the large scale agricultural practices.
To promote the efficiency and quality of registration for medical products, the Asia-Pacific Economic Cooperation (APEC) Regulatory Harmonization Steering Committee (RHSC) has implemented a 2020 roadmap to promote the concept of GRM since 2011. Key outcomes of this roadmap are discussed in this article to provide recommendations for improved regulatory practices and accelerated regulatory convergence.
Adoption of relevant guidelines and delivery of training programs from the APEC Training Centers of Excellence for Regulatory Science (CoEs) have played a key role to promote capacity building, cooperation and convergence in good review practices (GRevPs) and good submission practices (GSubPs) for medical products among APEC economies. A key performance indicator (KPI) survey among the drug regulatory authorities (RAs) of APEC economies was conducted to understand the progress of this roadmap.
The CoE programs have provided a unique opportunity to promote dialogues between regulatory authorities and industry and efficiently disseminated the concept of GRM among APEC economies.
