/ Several lines of evidence were followed to assess the risk of salinization after tree clearing in the upper Burdekin River basin in north Queensland. Conceptual, biophysical process-based approaches (pedological interpretation, event tree analysis, one-dimensional water balance modeling, and Boolean spatial analysis) were compared to empirical methods and field evidence. The convergence of all lines of conceptual reasoning to the conclusion that there exists a risk of salinization in north Queensland, consistent with field evidence of naturally occurring waterlogging and salinity, strengthens the argument against tree clearing. 相似文献
The use of soluble PO43− as a heavy metal chemical stabilization agent was evaluated for a dust generated from melting or vitrification of municipal solid waste combustion residues. Vitrification dusts contain high concentrations of volatile elements such as Cl, Na, K, S, Pb, and Zn. These elements are present in the dusts largely as simple salts (e.g. PbCl2, ZnSO4) which are highly leachable. At an experimental dose of 0.4 moles of soluble PO43− per kg of residue, the pH-dependent leaching (pH 5,7,9) showed that the treatment was able to reduce equilibrium concentrations by factors of 3 to 100 for many metals; particularly Cd, Cu, Pb and Zn. Bulk and surface spectroscopies showed that the insoluble reaction products are tertiary metal phosphate [e.g. Zn3(PO4)2] and apatite [e.g. Pb5(PO4)3Cl] family minerals. Geochemical thermodynamic equilibrium modeling showed that apatite family and tertiary metal phosphate phases act as controlling solids for the equilibrium concentrations of Ca2+, Zn2+, Pb2+, Cu2+, and Cd2+ in the leachates during pH-dependent leaching. Both end members and ideal solid solutions were seen to be controlling solids. Soluble phosphate effectively converted soluble metal salts into insoluble metal phosphate phases despite the relatively low doses and dry mixing conditions that were used. Soluble phosphate is an effective stabilization agent for divalent heavy metals in melting dusts where leachable metals are present in high concentrations. 相似文献
Microorganisms are responsible for the mineralisation of organic nitrogen in soils. NH+4 can be further oxidised to NO3− during nitrification and NO3− can be reduced to gaseous nitrogen compounds during denitrification. During both processes, nitrous oxide (N2O), which is known as greenhouse gas, can be lost from the ecosystem.
The aim of this study was to quantify N2O emissions and the internal microbial N cycle including net N mineralisation and net nitrification in a montane forest ecosystem in the North Tyrolean Limestone Alps during an 18-month measurement period and to estimate the importance of these fluxes in comparison with other components of the N cycle. Gas samples were taken every 2 weeks using the closed chamber method. Additionally, CO2 emission rates were measured to estimate soil respiration activity. Net mineralisation and net nitrification rates were determined by the buried bag method every month. Ion exchange resin bags were used to determine the N availability in the root zone.
Mean N2O emission rate was 0.9 kg N ha−a−, which corresponds to 5 % of the N deposited in the forest ecosystem. The main influencing factors were air and soil temperature and NO−3 accumulated on the ion exchange resin bags. In the course of net ammonification, 14 kg NH+4−N ha− were produced per year. About the same amount of NO−3−N was formed during nitrification, indicating a rather complete nitrification going on at the site. NOt-3 concentrations found on the ion exchange resin bags were about 3 times as high as NOt-3 produced during net nitrification, indicating substantial NOt-3 immobilisation. The results of this study indicate significant nitrification activities taking place at the Mühleggerköpfl.
If tacit ethical ideals shape policy and practice, even when practitioners are not fully aware of underlying philosophical assumptions, then philosophical frameworks that support diagnostic, evaluative, and adaptive capacity in the sphere of action are critical to sustainability. Thompson’s agrarian-influenced sustainability framework substantially advances beyond the prevailing triple bottom line approach, as experimental evaluation of biofuels sustainability illustrates. By suggesting that governance of complex social-natural systems lies at the core of contemporary sustainability challenges, Thompson illuminates the critical importance of social capacity for deliberation and choice—a powerful and somewhat unexpected theme requiring more development by philosophers and practitioners alike going forward. 相似文献
Batch tests and diffusion tests were performed to analyze the efficiency of a protective barrier in a landfill consisting of compacted soil with 10% bentonite compared to the results obtained for only compacted soil and for compacted soil covered with a 1-mm-thick HDPE geomembrane; the soil and leachate were collected from the Rio das Ostras Landfill in Rio de Janeiro, Brazil. The diffusion tests were performed for periods of 3, 10 and 60 days. After the test period, the soil pore water was analyzed and the profiles for chloride, potassium and ammonium were determined along a 6-cm soil depth. The results of the batch tests performed to define sorption parameters were used to adjust the profiles obtained in the diffusion cell experiment by applying an ion transfer model between the interstitial solution and the soil particles. The MPHMTP model (Multi Phase Heat and Mass Transfer Program), which is based upon the solution of the transport equations of the ionic contaminants, was used to solve the inverse problem of simultaneously determining the effective diffusion coefficients. The results of the experimental tests and of the model simulation confirmed that the compacted soil with 10% bentonite was moderately efficient in the retention of chloride, potassium and ammonium ions compared to the configurations of compacted soil with a geomembrane and compacted soil alone, representing a solution that is technically feasible and requires potentially lower costs for implementation in landfills. 相似文献
