142 research outputs found
Still edible wasted food from households: A regional Italian case study
A 2-year monitoring campaign was carried out within the Marche Region (Italy) to quantify the potential still edible wasted food (seFW) within the sorted (seFWsorted) and unsorted (seFWunsorted) waste streams. Results were elaborated to estimate the distribution of seFW among the five provinces and the amount per capita. Results in terms of total quantities per inhabitants (seFWindex per capita) depict an important variability between districts but almost constant in years (26–38 kg/inhabitants in 2018 and 26–36 kg/inhabitants in 2019). Scores in Marche were then used to study the national situation, adopting the same percentage factors. Analysis was performed on 2019 data. Gradual colour shade was used to identify the Regions with greater seFW production potential. Worst scores are achieved by Lazio, Lombardia and Sicilia (red), followed by others classified as orange and yellow. More than 1.5 Mt potential seFW was estimated at national level, 29% of which is due to the unsorted fraction. Results at national level were used to assess the potential environmental impact related to seFW in terms of climate change. Carbon footprint indicator was quantified per capita (69 kg equivalent carbon dioxide (CO2e)/inhabitant/year in the case of Marche) and overall (3.5 MtCO2e). In addition, an evaluation of the potential economic implications related to the greenhouse gases emitted was made using the Social Cost of Carbon. Results showed that cost of the tCO2e global damage related to seFW in Italy ranges from 35 to 700 M$
Analysis of total organic carbon in soil-biochar systems
Amending agricultural soils with biochar can contribute to negative carbon strategies when the resistance to oxidation of soil carbon is improved (avoided CO2 emission) and plant growth is promoted (increased CO2 fixation). The environmental stability and sequestering capacity of biochar is dependent on the chemical form of carbon and its physical location in the carbonaceous matrix. The addition of biochar in soil increases noticeably the stable carbon pool, while the effect on labile carbon, including polyaromatic structures, is less marked.1 The fertilizing action can be lost if biochar is removed from the cultivated area due to physical processes (vertical transport, lateral export, slacking). Assessing the fate of carbon in the soil requires the use of suitable analytical methods that should be validated for the presence of biochar.
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Fe, Ni and Zn speciation, in airborne particulate matter
The study of elemental speciation in atmospheric particulate matter is important for the assessment of the source of the particle as well for the evaluation of its toxicity. XANES data at Fe, Ni, and Zn K-edges are recorded on a sample of urban dust (from the Rimini area of Emilia Romagna region, Italy) deposited on a filter and on the NIST standard reference material 1648. Using linear combination fitting we give an indication of the chemical species of the three metals present in the samples
Biochar from gasification in cultivated soils and riparian buffer zones: Chemical characterization
During rain events, pollutants in agricultural soils can be transported from fields to surface and/or groundwater resulting in contamination of streams and rivers. Researchers and farmers must work together to find solutions to ensure the preservation of crop production without jeopardizing water quality or the health of the ecosystem. Establishment of riparian zones may reduce the effects of diffuse discharges of pollutants into waterways. The addition of biochar to soils, particularly in a riparian zones, can reduce the mobility of contaminants and improve removal efficiency due its sorptive capacity.
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GC-MS analysis of alkylpyrazines in the pyrolysis oils of silica-polyethylenimine CO2 sorbents
Solid sorbents based on silica and polyethyleneimine (PEI) are intensively investigated in the field of carbon capture and storage (CCS). Pyrolysis was proposed as a thermal process to recover the pure silica from exhausted sorbents and convert PEI into potentially useful products, such as alkylated pyrazines. A GC-MS method based on internal standardisation with 2-methoxypyrazine was developed and evaluated to determine the concentration of six pyrazines in the pyrolysis oils of exhausted silica-PEI sorbent pyrolysed at 400, 500, 600 and 650°C. The most abundant pyrazines were 2-ethyl and 2,3-dimethyl, occurring at concentrations of 5-28 mg g−1, followed by pyrazine, 2-methyl, 2-ethyl-3-methyl and 2-propylpyrazine. The GC-MS results were compared to those from a HPLC-DAD method using the Welch's test. The 37 % discrepancy of concentrations was attributed to spectral interference in LC-DAD. GC was slightly less precise than HPLC, calibration errors were lower and enabled the identification of highly alkylated pyrazines. Both methods provided comparable values of total pyrazine yields (around 4-7 % by weight)
Analysis of Artisanal Small-scale Gold Mining Sector in West Sumbawa Regency, Indonesia
Background. The high value of gold reserves in West Sumbawa Regency (WSR) and West
Nusa Tenggara Province, Indonesia has resulted in an increase in small-scale gold mining
activity in this area. Artisanal and small-scale gold mining (ASGM) is an attractive alternative
livelihood for rural workers because it has good potential to improve the wealth of a
community. Miners need very little training to mine gold and the transition from traditional
farming or fishing is easy to make. However, the key environmental consequence of ASGM in
West Sumbawa is the extensive use of mercury and its impact on human health.
Objectives. The ASGM activity in WSR is quite recent when compared to other ASGM
activity in Indonesia. The current study was conducted to better understand the lifestyle,
extent of mercury exposure,and the health of people living in WSR, West Nusa Tenggara
Province, Indonesia.
Methods. The present study was designed as a purposive field sampling study conducted in
WSR, West Nusa Tenggara Province, Indonesia. The subjects were miners and families from
three different sites within the WSR: individuals directly exposed to mercury, indirectly
exposed individuals and non-exposed individuals. Hair mercury analysis was done with all
subjects. Health questionnaires, physical examinations and socio-economic surveys were
conducted with exposed subjects.
Results. The ASGM sector in the WSR consists of a high number of migrant workers who
have a great economic impact on the local area, high mercury use, a great deal of illegal
mercury trading, and a high mercury concentration (>13 mg/kg) in their hair. The results
suggest that ASGM activities affect the health of exposed and indirectly exposed individuals.
Conclusions. The current scale of ASGM activity in the WSR is predicted to rise. ASGM
activities in the WSR is an important challenge that needs to be addressed
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