不同电导率盐碱土壤固碳潜力

采集内蒙古河套灌区盐碱土壤(电导率EC为0.27mS/cm),利用NaCl调节土壤电导率为(0,10,20,40,80mS/cm),基于稳定碳同位素分析不同电导率土壤添加定量δ¹³C-CO₂后,土壤CO₂吸收量以及土壤难溶性无机碳含量(SIC)-δ¹³C值.结果表明,盐碱土壤能够吸收CO₂,随土壤电导率(EC)升高,土壤CO₂累积吸收量增加, S5(EC=80mS/cm) CO₂累积吸收量比S1(0.27mS/cm)高1.6640mg.土壤SIC含量(R²=0.7080,P<0.05)和土壤可溶性无机碳含量(DIC)(R²=0.6096,P<0.05)与土壤EC显著负相关关系.盐碱土壤吸收CO₂部分固存于土壤无机碳中,外源添加δ¹³C-CO₂,盐碱土壤SIC-δ¹³C值(-5.299‰ ~ -0.8341‰)显著增加.EC为20mS/cm土壤固相保存δ¹³C-CO₂总量最高1.276mg,固存δ¹³C-CO₂总量占土壤吸收¹³CO₂总量比例30.28%最高;EC为80mS/cm固碳量最低为0.2749mg,固存δ¹³C-CO₂总量占土壤吸收¹³CO₂总量比例5.579%.     

中国建筑领域CO2排放达峰路径研究

实施建筑领域CO₂排放控制是推动我国2030年前实现碳排放达峰的关键举措. 2020年我国建筑领域运行阶段CO₂排放量为21.7×108 t,约占全国能源活动碳排放量的20%,其中直接排放6.9×108 t,间接排放14.8×108 t. 随着城镇化发展水平和居民生活消费水平的不断提升,建筑领域CO₂排放仍呈刚性增长态势. 为明确建筑领域CO₂排放达峰路径,综合考虑建筑领域发展现状和用能情况,以建筑运行中供暖、炊事等活动所需一次能源(煤炭、石油和天然气)消耗直接排放以及热电联产供暖、空调、照明、电梯、电器等外购热力和电力间接排放为核算范围,在预测不同阶段建筑发展规模、建筑能源消费、用能结构的基础上,分析未来碳排放变化趋势和达峰时间,提出达峰路径和重要政策举措. 结果表明:①2010—2020年,我国建筑领域CO₂排放量从13.2×108 t增至21.7×108 t,其中直接排放已于2017年达峰,间接排放仍在持续增长. ②从建筑规模和节能降碳措施等角度分情景开展建筑领域碳排放达峰路径研究,预测建筑领域CO₂排放将在2029—2030年左右达峰,峰值排放量为28.1×108~29.2×108 t,达峰后有2~3年的平台期. ③低碳清洁取暖、可再生能源应用、建筑节能改造和合理控制建筑规模4项措施是建筑领域实现碳排放达峰的重要举措,4项措施的减排贡献率分别达到40.7%、27.1%、17.7%和14.5%. 研究显示,2030年前,发展建筑可再生能源、强化建筑节能、合力控制建筑规模是建筑领域降碳的核心举措,而推动低碳清洁取暖是实现我国建筑领域降碳最主要的控制途径.      

Effect of cadmium on cytogenetic toxicity in hairy roots of Wedelia trilobata L. and their alleviation by exogenous CaCl2

Effects of cadmium (Cd) alone and in combination with calcium on mitosis and chromosomal aberration in the hairy root tips of Wedelia trilobata were investigated. The results showed that Cd concentrations below 50 μmol/L had a lesser or even a promoting effect on the mitotic index (MI) and the rate of chromosomal aberration in hairy root tips, while those higher than 100 μmol/L significantly decreased the MI and gradually stimulated the rate of chromosomal aberrations with prolonged time and increasing concentrations of Cd. Concentrations of 50 μmol/L Cd mainly induced C-mitosis, while more than 100 μmol/L Cd mainly caused chromosome breakage and chromosome adhesion in hairy root tip cells. When cultured with 300 μmol/L Cd, micronuclei were only observed in the interphase, middle, and late phase of hairy root tip cells. Compared with untreated controls, exogenous calcium had an alleviating effect on Cd-induced cytotoxicity by effectively enhancing the MI and reducing the rate of chromosomal aberration in root tip cells. The results presented here provide evidence that W. trilobata hairy roots with rapid autonomous growth could be used as a sensitive tool for monitoring and evaluation of Cd pollution in the environment.     

Life Cycle Assessment of Coal-to-Liquid Process

Environment, Development and Sustainability - In this study, the life cycle assessment method was used to evaluate energy and material consumption and pollutant emission based on the 2013 ledger...     

Municipal solid waste,an overlooked route of transmission for the severe acute respiratory syndrome coronavirus 2: a review

Environmental Chemistry Letters - Municipal solid waste could potentially transmit human pathogens during the collection, transport, handling, and disposal of waste. Workers and residents living in...     

The chemistry of gaseous benzene degradation using non-thermal plasma

Environmental Science and Pollution Research - In this study, the abatement of benzene in a dielectric barrier discharge (DBD) reactor was studied. The efficiency was investigated in terms of...     

造纸废水灌溉对新疆杨体内钠离子含量的影响

测定分析了造纸废水灌溉对新疆杨体内钠离子含量的影响.研究结果表明,在造纸废水灌溉条件下,新疆杨体内不同生长部位的钠离子含量均随着灌溉年限的增加逐渐增大,新疆杨体内钠离子含量与土壤中钠离子含量呈显著正相关;新疆杨叶片中钠离子含量明显低于根系中钠离子含量,说明盐碱胁迫下新疆杨叶片耐钠性大于根系耐钠性,新疆杨根系是钠离子累积和外排的主要部位.     

底泥水体中适用于PCR的不同形态DNA的提取方法（Methods of Extraction Different Gene Types of Sediments and Water for PCR Amplification）

提出直接从环境河流底泥和表层水体中同时提取不同形态DNA(胞内、胞外、染色体和质粒DNA)的有效方法.利用该方法提取了海河典型区域底泥的胞外DNA和胞内DNA及水体中细菌染色体DNA和质粒DNA.结果表明,NaH2PO4提取的胞外DNA分子量大于1kb,提取率40%～72%,没有共提取胞内DNA.胞内DNA提取的分子量均大于23.1kb,细菌质粒DNA与染色体DNA同时分离.16SrDNA与sul2扩增验证提取方法可靠性.16SrDNA扩增结果显示所有胞外DNA呈阴性,胞内DNA呈阳性.质粒DNA和染色体DNA的16SrDNA扩增显示,染色体DNA结果显阳性,质粒DNA呈阴性,sul2的结果相反.