Sherrillosborne4753

The necessity of incorporating a resilience-informed approach into urban planning and its decision-making is felt now more than any time previously, particularly in low and middle income countries. In order to achieve a successful transition to sustainable, resilient and cost-effective cities, there is a growing attention given to more effective integration of nature-based solutions, such as Sustainable Drainage Systems (SuDS), with other urban components. The experience of SuDS integration with urban planning, in developed cities, has proven to be an effective strategy with a wide range of advantages and lower costs. The effective design and implementation of SuDS requires a multi-objective approach by which all four pillars of SuDS design (i.e., water quality, water quantity, amenity and biodiversity) are considered in connection to other urban, social, and economic aspects and constraints. ReACp53 nmr This study develops a resilience-driven multi-objective optimisation model aiming to provide a Pareto-front of optimisidential areas in the study area and the lower cost of this option.The comparative performance of an inverse fluidized bed reactor (IFBR) having high density polyethylene beads as carrier materials for biofilm formation and a continuous stirred tank reactor (CSTR), both maintaining autotrophic denitrification using biogenic sulphur (ADBIOS) in the absence and presence of nickel (Ni2+), was studied. The reactors were compared in terms of NO3--N and NO2--N removal and SO42--S production throughout the study. A simulated wastewater with an inlet NO3--N concentration of 225 mg/L and a decreasing concentration of biogenic sulphur (bio-S) from 1.5 to 0.375 g/L was used. Both reactors were operated at a hydraulic retention time (HRT) of 48 h for 140 days and at an HRT of 42 h for the following 68 days. A more efficient ADBIOS was observed in the CSTR than IFBR throughout the study due to a better mixing of the feed wastewater in the bulk liquid and a higher availability of bio-S to the suspended cells. The NO3--N removal efficiency in the IFBR decreased by approximately 41% when the feed bio-S was reduced to 0.375 g/L, while it remained unaffected in the CSTR. Conversely, the presence of Ni2+ did not significantly affect NO3--N removal in both reactors even at a feed Ni2+ concentration of 120 mg/L. The highest NO3--N removal rates achieved were 86 and 108 mg NO3--N/(L·day) in the IFBR and CSTR, respectively, in the presence of 120 mg/L of feed Ni2+ at an HRT of 42 h. Batch studies conducted with acclimatized biomass showed that the continuous-flow operation mode in both reactors played a major role in helping the autotrophic denitrifiers to tolerate Ni2+ toxicity.An urban agglomeration is a highly connected city group, which is nested in complex trading networks. Ignoring the intercity connections and regional inequality may lead to the unsustainability of the urban agglomeration. The misuse and overuse of cultivated land resources are threatening environmental sustainability and causing global climate change. Facing the inequality and environment pressures in the urban agglomeration, the cultivated land resource reallocation within the complex urban agglomeration trading network should be systematically explored. This study analyzes the virtual cultivated land flows of the Jing-Jin-Ji (JJJ) region embodied in China's interregional trade network using a multiregional input-output model. Results show that the average virtual cultivated land intensity of the JJJ region is 1.59 ha/million yuan, which is below the national average. The JJJ region has 10.74 million ha of embodied cultivated land in consumption, accounting for 7.82% of the country's total amount. JJJ region is an import-oriented region and it receives virtual cultivated land from surrounding underdeveloped regions, such as Heilongjiang and Inner Mongolia. Beijing and Tianjin are typical net importers of virtual cultivated land, while Zhangjiakou, Xingtai, Hengshui, Baoding, and Cangzhou are net exporters in the interior of the JJJ region. This study could provide a systematical perspective and data supporting system for formulating the sustainable cultivated land use policies and collaborated development policies in the JJJ region to mitigate regional inequality. Policy suggestions concerning the eco-compensation mechanism, collaborative innovation mode, and uniform management platform in JJJ are given.Catechol-O-methyltransferase (COMT) is a major drug metabolizing enzyme in humans. COMT expression is directedly associated with various mental diseases and cancers due to its essential role in catalyzing metabolic inactivation of endogenous catecholamines and catechol estrogens. However, a practical method to precisely measure COMT activities in biological samples is lacking. In the current study, we established a liquid chromatography-fluorescence detection (LC-FD) method based on fluorometric detection of the methylated product of 3-BTD, a fluorescent probe for COMT, to sensitively quantify COMT activities in human erythrocytes and cell homogenates. Assay validation of the established LC-FD based method was conducted for selectivity and sensitivity, range of linearity, precision and accuracy, recovery, biological matrices effect and stability. The limit of quantification for 3-BTMD (the methylated product of 3-BTD by COMT) of this method was 0.0083 nM, which is nearly 10-fold lower than that for previously published methods. The method was precise with intra- and inter-day relative standard deviation (RSD) lower than 5%. In addition, this method showed an excellent anti-interference ability with no effects of the endogenous substances on the fluorometric detection of 3-BTMD. The practical use of this method was established by its successful application for the measurement of COMT activities in individual human erythrocytes (n = 13), and in cell homogenates generated from four different human cell lines. Our results suggest that this method will be of great value in accurately determining the native activity of COMT in biological samples, which is beneficial for a complete understand of the role of COMT both in physiological and pathological conditions.