Swainbecker7598

Globally, while experts debated whether planted forests (PF) restore biodiversity or create biological deserts, their potential role in mitigating climate change is mostly overlooked. In this study, we investigated the long-term impact of PF on the species composition, plant diversity, biomass stock, and carbon (C) storage potential in the Brahmaputra flood plain of North-East India. The phytosociological study was conducted using a modified Gentry plot method and species-specific allometric models were used to estimate biomass stock in the 39-year old PF and equivalent age of natural forest (NF). We identified 57 trees, 22 shrubs, and 23 herb species in the PF, and 54 trees, 17 shrubs, and 8 herb species in the NF. Species richness and biodiversity indices showed greater values in PF whereas species dominance and evenness were higher in NF. After 39-year of plantation, total biomass C was estimated at 165 Mg C ha-1 in PF and 197 Mg C ha-1 in equivalent age of NF. Bombax ceiba, Dalbergia sissoo, Samanea saman, Tetrameles nodiflora, and Gmelina arborea were the dominant tree species that contribute 56% of the total biomass C in the PF. The ecosystem carbon pool (plant biomass + deadwood + litter + SOC) was 17% higher in NF and showed the greater potential of carbon dioxide sequestration (959 Mg CO2 ha-1) compared to the PF (818 Mg CO2 ha-1). Our study suggested PF in flood plain degraded lands can act as a major C sink and stored a substantial amount of carbon dioxide after 39-year of the plantation. It is concluded that PF can be a preferable ecosystem management tool to fulfill the objectives of biodiversity conservation and provisioning climate services like C sequestration.Most consumption activities are related, at least to some degree, to households. A nalyzing households' metabolism - the direct and indirect materials and energy flows and its byproducts - and identifying key shaping factors of that metabolism can serve as the foundation for examining various measures for environmental management. Recent research reviews emphasized several important issues, limitations of existing metabolism studies, that need to be considered and overcome as part of the further development of households' metabolism analysis including methods, focus, scale, analysis, and potential environmental management implementation. This article aims contributing to the growing household metabolism scientific literature by illustrating directions to advance some of the identified issues and limitations. It focuses on the Israeli household sector as a case study. Following the identified limitations, the analysis includes the flow of materials, water, land and selected byproducts including greenhouse gases and air pollutants. It integrates the analysis of specific households metabolism components (food, electricity and transportation related materials) with the national scale. It explores the contribution of specific factors (e.g., income, household size) and various lifestyles (e.g., young or old low-income couples, large wealthy mature households) with demographic factors of the overall population (e.g., the share of households consisting of a young couple or elderly people in the overall national household metabolism). Such integration can contribute to advancing measures relevant to specific socio-economic factors and lifestyles and can contribute to changing the metabolism and advancing the use of this important research approach as a mean for advancing sustainability.The relationship between pollution emissions and economic development matters greatly to sustainable growth goals. China has experienced rapid growth in pollution emissions, energy consumption, and the effects of climate change. To achieve pollution reduction and energy savings targets, China's green loan policy implements a financing-pollution emissions reduction strategy for Chinese firms. Employing a difference-in-difference estimation method, we use Jiangsu Province manufacturing firm data for the period 2005 to 2013 to evaluate the effect of financing-pollution emission reduction policy tools on firm performance. Our analysis yields the following results. First, the financing-emission reduction policy has a "punishment" effect on highly polluting firm performance, including total factor productivity, profitability, and sales growth. Second, we find that these negative effects are weakened in dynamic processes. Further, pollution emissions are significantly reduced. Third, financial constraints act as the mechanism through which firm performance is punished, via the financial-emission reduction policy. Short-term and long-term bank financing decrease, while working capital and trade credit are increased to finance investment. Finally, with regard to ownership structure, state-owned firm performance is more likely to be penalized than other forms of ownership.While the use of biochar as a soil amendment is gaining popularity for environmental and agricultural purposes, spatial heterogeneity of biochar (segregation) in biochar-amended media and its underlying causes have been overlooked. In this study, for the first time particle segregation in biochar-amended media and its impact on the media's saturated hydraulic conductivity (Ksat) were investigated. Two uniformly graded media were amended with different sizes of a wood-based biochar under dry and wet conditions. While the intended biochar volume fraction (bf) was 17.5%, in dry-packed columns biochar was often segregated and the measured bf ranged from 7.5 ± 0.8 SE% (SE = standard error) to 23.6 ± 1.8 SE% across all spatial locations. If, however, 20% water (volume of water/bulk volume of packed media) was added to the mixtures during mixing, homogeneous packings were achieved. In dry-packing, segregation was governed by the difference in the physical properties of the media and the biochar particle size, density, and shape. In wet-packing, segregation was prevented due to the inter-particle adhesion forces associated with water. Although X-ray computed tomography images showed that the presence of segregation altered particle distributions and pore morphologies, the Ksat for wet-packed and dry-packed columns were statistically identical. The results of this study suggest that laboratory methods for packing biochar-amended media should include moisturizing the mixture to inhibit particle segregation. Mixing under wet conditions is recommended for any type of soil and biochar and for any scale of application, in both the laboratory and field.Constructed wetlands (CWs), known as an alternative clean technology, have been widely used for sewage treatment. However, greenhouse gas (N2O, CH4 and CO2) emissions are the accompanying problem in CWs. To mitigate the net global warming potential (GWP) with the constant removal efficiency for contaminants is attracting wide attention recently. In this study, four CWs were established to explore the effects of substrate types (gravel, walnut shell, manganese ore and activated alumina) on contaminant removal and greenhouse gas emissions. CWs using manganese ore substrate with function of electronic exchange showed high removal efficiencies on COD (90.1%), TN (65.1%), TP (97.1%) and low greenhouse gas flux. The emission fluxes of N2O, CH4 and CO2 were 0.07-0.20, 2.00-252.30 and 337.54-782.57 mg m-2 h-1, respectively. Especially, the lowest average CH4 emission flux in the manganese ore CW was only 2.00 mg m-2 h-1 while those of N2O in walnut shell CW was only 0.07 mg m-2 h-1, which will make a significant contribution on the mitigation of GWP of CWs. High-throughput sequencing results indicated that microbial community diversity and richness changed significantly among different substrates. The high pmoA and low mcrA, caused by the introduction of manganese ore as substrate, also explained why there was little CH4 emission in CWs. find more Our study provided new insights into GWP mitigation and contaminant removal enhancement in CWs using optimal substrate.The impact of ferric iron stimulation on the evolution of microbial structure in marine sediment microbial fuel cells (SMFCs), operated for the bioremediation of a complex mixture of low and high molecular weight PAHs (naphthalene, fluorene, pyrene and benzo(a)pyrene), was assessed. Microbial evolution profiles showed high relative abundances of exoelectrogenic iron-reducing bacteria throughout the biodegradation, namely Geoalkalibacter, under ferric iron stimulation and anode reducing conditions, irrespective of sulfate reducing bacteria (SRB) inhibition. Highest PAHs removal was measured in the absence of anode reduction, under Fe stimulation and SRB inhibition, reaching 40.85% for benzo(a)pyrene, the most persistent PAH used in this study. Results suggest that amendment of contaminated sediment with ferric iron could constitute a better bioremediation strategy than using SMFCs. This becomes significant when considering the well-established and dominant indigenous SRB population in marine sediments that usually limits the performance of the anode as a terminal electron acceptor in marine SMFCs.According to the United Nations Sustainable Development Goals (SDGs), understanding the extent of wetlands, their change trends and the proximate causes is important for the conservation of wetlands and endangered waterfowls. Here we studied the world's ninth largest river basin, the Amur River Basin (ARB), with a land area of 2.08 million km2. Our objectives were to address the information deficiencies of spatially explicit wetland distributions and their changes and to quantify the proximate causes of these changes in various periods in the ARB. A hybrid approach combining object-based and hierarchical decision-trees classification (HOHC) was applied to Landsat series images to obtain multitemporal land cover datasets from 1980 to 2016. Further quantitative analysis revealed that the ARB held 184,561 km2 of wetlands in 2016, accounting for 9% of the whole basin area. Among these, 59% of the wetlands were identified on the Russian side, while 40% were on the Chinese side, and 1% were on the Mongolian side. The ARB lost 22% of its wetland (52,246 km2) from 1980 to 2016, with a consistent net loss from 1980 to 2010 but an area gain from 2010 to 2016. Human activities dominated the consistent wetland losses on the Chinese side of the ARB, of which cropland expansion was the primary proximate cause of wetland loss (69%). Conversely, the wetlands on the Russian side had consistent losses from 1980 to 2010 followed by a gain from 2010 to 2016, which could be attributed to climate change. These quantified data will inform decision-making on wetland conservation and benefit scientific studies depending on spatially explicit wetland information.The recent CARD study has shown that sequential use of androgen receptor (AR)-targeted therapies is associated with worse outcomes when compared with cabazitaxel chemotherapy. Here we argue that this accounts for the majority of patients previously treated with an AR-targeted agent.

Radical nephrectomy (RN) is the gold standard treatment for large and locally advanced renal tumors. Although robot-assisted radical nephrectomy (RRN) is being increasingly adopted, it remains unclear whether it offers benefits over standard laparoscopic radical nephrectomy (LRN) or open radical nephrectomy (ORN).

To compare the outcomes of robotic surgery to those of laparoscopic and open surgery in patients undergoing RN for renal cell carcinoma (RCC).

A systematic search was performed across MEDLINE, EMBASE, and Web of Science for retrospective and prospective studies comparing RRN to LRN or ORN. A meta-analysis evaluated perioperative safety, effectiveness, survival, and cost-effectiveness outcomes. The weighted mean difference (WMD) and odds ratio (OR) were used to compare continuous and dichotomous variables, respectively. Quality was assessed using the Newcastle-Ottawa scale. Sensitivity analyses were performed to assess the robustness of the estimates.

Twelve studies involving 64 221 patients were identified and included in the analysis.