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Effects of tree size and organ age on variations in carbon,nitrogen,and phosphorus stoichiometry in Pinus koraiensis
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作者 Yanjun Wang Guangze Jin Zhili Liu 《Journal of Forestry Research》 SCIE EI CAS CSCD 2024年第3期155-165,共11页
Carbon(C),nitrogen(N),and phosphorus(P)are of fundamental importance for growth and nutrient dynamics within plant organs and deserve more attention at regional to global scales.However,our knowledge of how these nutr... Carbon(C),nitrogen(N),and phosphorus(P)are of fundamental importance for growth and nutrient dynamics within plant organs and deserve more attention at regional to global scales.However,our knowledge of how these nutrients vary with tree size,organ age,or root order at the individual level remains limited.We determined C,N,and P contents and their stoichiometric ratios(i.e.,nutrient traits)in needles,branches,and fine roots at different organ ages(0-3-year-old needles and branches)and root orders(1st-4th order roots)from 64 Pinus koraiensis of varying size(Diameter at breast height ranged from 0.3 to 100 cm)in northeast China.Soil factors were also measured.The results show that nutrient traits were regulated by tree size,organ age,or root order rather than soil factors.At a whole-plant level,nutrient traits decreased in needles and fine roots but increased in branches with tree size.At the organ level,age or root order had a negative effect on C,N,and P and a positive effect on stoichiometric ratios.Our results demonstrate that nutrient variations are closely related to organ-specific functions and ecophysiological processes at an individual level.It is suggested that the nutrient acquisition strategy by younger trees and organ fractions with higher nutrient content is for survival.Conversely,nutrient storage strategy in older trees and organ fractions are mainly for steady growth.Our results clarified the nutrient utilization strategies during tree and organ ontogeny and suggest that tree size and organ age or root order should be simultaneously considered to understand the complexities of nutrient variations. 展开更多
关键词 Tree size Organ age(or root order) carbon(c) nitrogen(n) Phosphorus(P) Pinus koraiensis
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Maize straw application as an interlayer improves organic carbon and total nitrogen concentrations in the soil profile: A four-year experiment in a saline soil 被引量:1
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作者 CHANG Fang-di WANG Xi-quan +7 位作者 SONG Jia-shen ZHANG Hong-yuan YU Ru WANG Jing LIU Jian WANG Shang JI Hong-jie LI Yu-yi 《Journal of Integrative Agriculture》 SCIE CAS CSCD 2023年第6期1870-1882,共13页
Soil salinization is a critical environmental issue restricting agricultural production.Deep return of straw to the soil as an interlayer (at 40 cm depth) has been a popular practice to alleviate salt stress.However,t... Soil salinization is a critical environmental issue restricting agricultural production.Deep return of straw to the soil as an interlayer (at 40 cm depth) has been a popular practice to alleviate salt stress.However,the legacy effects of straw added as an interlayer at different rates on soil organic carbon (SOC) and total nitrogen (TN) in saline soils still remain inconclusive.Therefore,a four-year (2015–2018) field experiment was conducted with four levels (i.e.,0,6,12and 18 Mg ha~(–1)) of straw returned as an interlayer.Compared with no straw interlayer (CK),straw addition increased SOC concentration by 14–32 and 11–57%in the 20–40 and 40–60 cm soil layers,respectively.The increases in soil TN concentration (8–22 and 6–34%in the 20–40 and 40–60 cm soil layers,respectively) were lower than that for SOC concentration,which led to increased soil C:N ratio in the 20–60 cm soil depth.Increases in SOC and TN concentrations in the 20–60 cm soil layer with straw addition led to a decrease in stratification ratios (0–20 cm:20–60 cm),which promoted uniform distributions of SOC and TN in the soil profile.Increases in SOC and TN concentrations were associated with soil salinity and moisture regulation and improved sunflower yield.Generally,compared with other treatments,the application of 12 Mg ha~(–1) straw had higher SOC,TN and C:N ratio,and lower soil stratification ratio in the2015–2017 period.The results highlighted that legacy effects of straw application as an interlayer were maintained for at least four years,and demonstrated that deep soil straw application had a great potential for improving subsoil fertility in salt-affected soils. 展开更多
关键词 straw addition InTERLAYER soil organic carbon soil nitrogen c:n ratio saline soil
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Characteristics of Soil Organic Carbon, Total Nitrogen, and C/N Ratio in Chinese Apple Orchards 被引量:7
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作者 Shunfeng Ge Haigang Xu +1 位作者 Mengmeng Ji Yuanmao Jiang 《Open Journal of Soil Science》 2013年第5期213-217,共5页
Soil organic carbon and nitrogen are used as indexes of soil quality assessment and sustainable land use management. At the same time, soil C/N ratio is a sensitive indicator of soil quality and for assessing the carb... Soil organic carbon and nitrogen are used as indexes of soil quality assessment and sustainable land use management. At the same time, soil C/N ratio is a sensitive indicator of soil quality and for assessing the carbon and nitrogen nutrition balance of soils. We studied the characteristics of soil organic carbon and total nitrogen by investigating a large number of apple orchards in major apple production areas in China. High apple orchard soil organic carbon content was observed in the provinces of Heilongjiang, Xinjiang, and Yunnan, whereas low content was found in the provinces of Shandong, Henan, Hebei, and Shaanxi, with the values ranging between 6.44 and 7.76 g·kg-1. Similar to soil organic carbon, soil total nitrogen content also exhibited obvious differences in the 12 major apple producing provinces. Shandong apple orchard soil had the highest total nitrogen content (1.26 g·kg-1), followed by Beijing (1.23 g·kg-1). No significant difference was noted between these two regions, but their total nitrogen content was significantly higher than the other nine provinces, excluding Yunnan. The soil total nitrogen content for Xinjiang, Heilongjiang, Hebei, Henan, and Gansu was between 0.87 and 1.03 g·kg-1, which was significantly lower than that in Shandong and Beijing, but significantly higher than that in Liaoning, Shanxi, and Shaanxi. Six provinces exhibited apple orchard soil C/N ratio higher than 10, including Heilongjiang (15.42), Xinjiang (13.38), Ningxia (14.45), Liaoning (12.24), Yunnan (11.03), and Gansu (10.63). The soil C/N ratio was below 10 in the remaining six provinces, in which the highest was found in Shaanxi (9.47), followed by Beijing (8.98), Henan (7.99), and Shanxi (7.62), and the lowest was found in Hebei (6.80) and Shandong (6.05). Therefore, the improvement of soil organic carbon should be given more attention to increase the steady growth of soil C/N ratio. 展开更多
关键词 cHInESE APPLE ORcHARD Soil ORGAnIc carbon Total nitrogen c/n ratio
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Effect of Different Fertilization Patterns on Carbon and Nitrogen Components of Tobacco Topsoil 被引量:5
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作者 吕强 熊瑛 +2 位作者 许灵杰 赵二卫 杨双剑 《Agricultural Science & Technology》 CAS 2014年第7期1156-1159,1182,共5页
In order to explore the fertilizing ways and dynamic changes of soil carbon and nitrogen in the main producing areas of tobacco in Guizhou,research was conducted to study the variations of dissolved organic carbon and... In order to explore the fertilizing ways and dynamic changes of soil carbon and nitrogen in the main producing areas of tobacco in Guizhou,research was conducted to study the variations of dissolved organic carbon and nitrogen,total organic carbon and nitrogen and their ratio of tobacco-topsoil in organic fertilization pattern and conventional cultivation pattern (No fertilizer as control) by pot experiment.The results were as follows:(1) The effects of different fertilization patterns on soil dissolved organic carbon and nitrogen and total organic carbon and nitrogen were significantly different.The content of DOC,DON,TOC and TON in tobaccotopsoil was decreased with the advancing of growth period in conventional fertilization pattern.In the conventional fertilization pattern,the accumulation of DOC and TOC was increased first and then decreased,and the accumulation of DON and TON was decreased first and then increased.(2) The TOC content at the different growing stage and DOC content at the middle and later stage of tobacco were significantly improved in organic fertilization patterns.The accumulation of DON and TON in the conventional fertilization pattern was significantly higher than those in the organic fertilizer pattern and control at the rosette stage and vigorous stage.In the harvest period,the content of DOC,DON,TOC and TON of tobacco-topsoil in the conventional fertilization and organic fertilization pattern was significantly higher than those in the control.(3)The DOC/DON ratio and the TOC/TiON ratio was increased gradually with the advancing of growth period in conventional fertilization pattern,but they were increased first and then decreased in the organic fertilization pattern and CK.The DOC/DON and TOC/TON ratio of tobacco-topsoil in different fertilization patterns was showed as Y J> CK> CG at the different growing stage.The experiment results revealed that:The organic fertilization pattern may improve significantly the accumulation of DOC,DON,TOC and TON of tobacco-topsoil at the middle and later stage and the DOC/DON and TOC/TON ratio at the different growth stage.It contributed to the continuous and balanced supply of nutrients at the middle and later stage of tobacco and the soil fertility. 展开更多
关键词 Fertilization pattern c/n ratio Dissolved organic carbon and nitrogen Total organic carbon and nitrogen TOBAccO
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不同碳氮比(C/N)等单因素对反硝化除磷菌脱氮除磷性能的影响分析
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作者 李一凡 《化工设计通讯》 CAS 2024年第11期105-107,120,共4页
对污水处理中反硝化除磷菌在不同碳氮比(C/N)及其他环境因素(如pH、溶解氧、温度)影响下的脱氮除磷性能进行深入分析。从菌种选择与培养、模拟废水配置、实验设计与数据分析等方面进行论述,旨在揭示碳氮比及上述环境因素如何调控脱氮除... 对污水处理中反硝化除磷菌在不同碳氮比(C/N)及其他环境因素(如pH、溶解氧、温度)影响下的脱氮除磷性能进行深入分析。从菌种选择与培养、模拟废水配置、实验设计与数据分析等方面进行论述,旨在揭示碳氮比及上述环境因素如何调控脱氮除磷过程。提出基于实验数据的优化策略,以及相应的数学模型,用于预测不同参数对脱氮除磷效率的具体影响。此研究达到提高污水处理效率和降低运营成本的效果,解决现有污水处理技术中脱氮除磷过程效率低下和环境因素影响不明确的问题。通过系统的实验方法和详尽的数据分析,为污水处理系统的设计和操作优化提供科学依据和实践指导,推动污水处理技术的发展与环境保护事业的进步。 展开更多
关键词 碳氮比(c/n) 反硝化除磷菌 脱氮除磷性能
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Transformation of Carbon and Nitrogen by Earthworms in the Decomposition Processes of Broad-leaved Litters 被引量:14
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作者 DONG Weihua YIN Xiuqin 《Chinese Geographical Science》 SCIE CSCD 2007年第2期166-172,共7页
Earthworms are the important constituents in the decayed food web and the main ecological conditioners in the process of decomposition and nutrient mineralization. The transformation of organic carbon (C) and total ni... Earthworms are the important constituents in the decayed food web and the main ecological conditioners in the process of decomposition and nutrient mineralization. The transformation of organic carbon (C) and total nitrogen (N) in the broad-leaved litters ingested by earthworms was researched by means of a laboratory experiment. Experimental samples were collected from broad-leaved Korea Pine mixed forest in Liangshui National Natural Reserve (47°10′50″N, 128°53′20″E) in the northeastern Xiao Hinggan Mountains of Northeast China. The contents of organic C and total N in earthworms, leaf litters and earthworm faeces were analyzed. Results show that the organic C content was in the fol- lowing order: leaf litters>faeces>earthworms, while total N content was contrary to that of the organic C. The organic C contents in the different leaf litters were in the following order: Tilia amurensis>Betula costata>Acer mono, whereas the total N contents in the different leaf litters were: Betula costata>Tilia amurensis>Acer mono. The contents of organic C and total N in the faeces from the different leaf litters were almost consistent with the contents of the leaf litters. After the leaf litters were ingested by earthworms, the organic C, which was transformed to increase earthworms' weights, ac- counted for 3.90%-13.31% of the total ingestion by earthworms, while that in the earthworm faeces accounted for 6.14%-13.70%. The transformed organic C through the other metabolism (e.g., respiration) of earthworms accounted for 75.04%-89.92%. The ingested organic C by earthworms was mostly used for metabolic activities. The N ingested by earthworms was less than organic C. It is estimated that 37.08% of total N was transformed to increase the earthworm's weight, 19.97% into earthworm faeces and 47.86% for the consumption of the earthworm's activities. The earthworms not only increased the content of organic C and total N in the soil, but also decreased the values of C/N in the soil and leaf litters. Earthworms play a major role in the leaf litters' decomposition and transformation. 展开更多
关键词 broad-leaved litters organic carbon total nitrogen EARTHWORM c transformation n transformation
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Evaluation on nitrogen isotopes analysis in high-C/N-ratio plants using elemental analyzer/isotope ratio mass spectrometry 被引量:2
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作者 胡婧 刘卫国 《Nuclear Science and Techniques》 SCIE CAS CSCD 2014年第2期36-39,共4页
Elemental analyzer/isotope ratio mass spectrometry(EA/TRMS) has been widely applied to analyze the^(15)N/^(14)N isotope composition(δ^(15)N) of plants and soils,but the δ^(15)N results may be inaccurate due to incom... Elemental analyzer/isotope ratio mass spectrometry(EA/TRMS) has been widely applied to analyze the^(15)N/^(14)N isotope composition(δ^(15)N) of plants and soils,but the δ^(15)N results may be inaccurate due to incomplete combustion of the high-C/N-ratio plant samples by EA.Therefore,it is necessary to develop a method to solve the problem of imperfect combustion.In this study,we used two methods:1) adding copper oxide powder to the samples,and 2) increasing the O_2 flow(from 100 mL min^(-1) to 200 mL min^(-1)) for the auto sampler inlet purge line of the EA.The δ^(15)N values of the plant samples became more positive and tended to be stable after complete combustion.Also,the required blank samples for each plant sample decreased with increasing amount of the added CuO powder.However,at 200 mL min^(-1) of the oxygen flow in the EA,complete combustion could not be achieved without adding copper oxide,but this was done with decreased amount of CuO powder.Therefore,mixing cupric oxide into the high-C/N-ratio samples was an efficient,simple and convenient way to solve the problem of imperfect combustion in the EA. 展开更多
关键词 同位素分析 植物样品 元素分析仪 质谱仪 同位素比值 不完全燃烧 评价 铜粉末
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Growing Cover Crops to Improve Biomass Accumulation and Carbon Sequestration: A Phytotron Study 被引量:1
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作者 Qingren Wang Yuncong Li Ashok Alva 《Journal of Environmental Protection》 2010年第2期73-84,共12页
Cover crop system has shown a potential approach to improving carbon sequestration and environmental quality. Six of each winter and summer cover crops were subsequently grown in two soils, Krome gravelly loam soil (K... Cover crop system has shown a potential approach to improving carbon sequestration and environmental quality. Six of each winter and summer cover crops were subsequently grown in two soils, Krome gravelly loam soil (KGL), and Quincy fine sandy soil (QFS), in phytotrons at 3 temperatures (10/20, 15/25, 25/30oC for winter/summer cover crops) to investigate their contributions for carbon (C) sequestration. Among winter cover crops, the highest and the lowest amounts of C accumulated were by bellbean (Vicia faba L.), 597 g/m2 and white clover (Trifolium repens), 149 g/m2, respectively, in the QFS soil. Among summer cover crops, sunn hemp (Crotalaria juncea L.) accumulated the largest quantity of C (481 g/m2), while that by castorbean (Ricinus communis) was 102 g/m2 at 30oC in the KGL soil. The mean net C remained in the residues following the 127 d decomposition were 187 g/m2 of C (73% of the total) and 91 g/m2 (52% of the total) for the winter and summer cover crops, respectively. Following a whole cycle of winter and summer cover crops grown, the mean soil organic C (SOC) increased by 13.8 and 39.1% in the KGL and QFS soil, respectively, compared to the respective soils before. The results suggest that triticale, ryegrass, and bellbean are the promising winter cover crops in the QFS soil, while sunn hemp, velvetbean (Mucuna pruriens), and sorghum sudangrass (Sorghum bicolor &#215;S. bicolor) are recommended summer cover crops for both soils under favorable temperatures. 展开更多
关键词 carbon to nitrogen ratio (c:n) GREEnHOUSE Gas (GHG) Krome Gravelly LOAM (KGL) Quincy Fine Sand (QFS) Soil Organic carbon (SOc)
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Effects of Soil C/N Ratio on Apple Growth and Nitrogen Utilization,Residue and Loss
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作者 Shunfeng GE Yihua REN +4 位作者 Ling PENG Haigang XU Mengmeng JI Shaochong WEI Yuanmao JIANG 《Asian Agricultural Research》 2014年第2期69-72,76,共5页
Soil C /N ratio is an important influencing factor in soil nitrogen cycling. Two-year old apple trees( Borkh. cv. ‘Fuji'/Malus hupehensis) were used to understand the effect of soil C/N ratio [6. 52( CK),10,15,20... Soil C /N ratio is an important influencing factor in soil nitrogen cycling. Two-year old apple trees( Borkh. cv. ‘Fuji'/Malus hupehensis) were used to understand the effect of soil C/N ratio [6. 52( CK),10,15,20,25,30,35 and 40]on apple growth and nitrogen utilization and loss by using15N trace technique. The results showed that,with the increasing of soil C/N ratio,apple shoot length and fresh weight increased at first,and then decreased; the higher apple shoot length and fresh weight appeared in C/N = 15,20 and 25 treatments,and there were no significant differences among these three treatments,but significantly higher than the other treatments. Statistical analysis revealed that there was significant difference in nitrogen utilization rate between the different treatments,the highest N utilization rate was occurred in soil C/N = 25 treatment which value was 22. 87%,and there was no significant difference between soil C/N = 25 and C/N = 20 treatments,but both the two treatments were significantly higher than the other treatments; Soil C/N = 40 had the lowest N utilization rate which value was 15. 43%,and this value was less than CK( 16. 65%). The proportion of plant absorption nitrogen from fertilizer was much higher when the value of soil C/N ratio in the range of 15- 25,but the percentage of plant absorption nitrogen from soil was much higher when the soil C/N ratio was too low( < 15) or high( < 25). Amount of residual nitrogen in soil increased gradually with the soil C/N ratio increasing,the amount of residual nitrogen in C/N = 40 treatment was 1. 32 times than that in CK. With the increasing of soil C/N ratio,fertilizer nitrogen loss decreased at first,and then increased,fertilizer nitrogen loss was the minimum in C/N = 25 treatments( 49. 87%) and the maximum were occurred in CK( 61. 54%). Therefore,regarding the apple growth and nitrogen balance situation,the value of soil C/N ratio in the range of 15- 25 would be favorable for apple growth and could increase effectively nitrogen fixed by soil,reduce nitrogen loss,and improve the nitrogen utilization ratio. 展开更多
关键词 SOIL c/n ratio APPLE 15n nitrogen UTILIZATIOn nitr
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Simultaneous Carbon and Nitrogen Removal in Wastewater Treatment Using a Partially Packed Biological Aerated Filter (BAF) without Backwashing Process
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作者 Z. Amir S. Fatihah +1 位作者 M. Denecke S.M. Zain 《Journal of Environmental Science and Engineering》 2010年第7期15-23,共9页
Biological aerated filter (BAF) is an advanced oxidation process that can sustain high volumetric loads with high quality effluent. However, backwashing process needed for the system limits its applicability. This s... Biological aerated filter (BAF) is an advanced oxidation process that can sustain high volumetric loads with high quality effluent. However, backwashing process needed for the system limits its applicability. This study is to investigate the possibility of removing carbon and nitrogen simultaneously in a biological aerated filter (BAF) with partially packed media without any backwashing process. The upper part of BAF up to 0.5 m depth is packed with plastic media (Kaldnes K1) with diameter and length of 10 mm and 7 mm respectively. This partially packed BAF creates a hybrid system of attached growth and suspended growth combined in a single reactor. Three C:N ratios, i.e. 15, 10 and 4, were compared during this study by varying the nitrogen loading while the carbon loading was kept constant at 1.0±0.54 kg COD/(m^3·d). The organic loading rate (OLR) ratios were calculated based on carbon and TKN loading. The carbon removal percentage of 86.7±7.3%, 85.1±10.3%, and 91.0±5.6% and TKN removal percentage of 24.7±11.6%, 48.0±25.9% and 62.8±7.9% were achieved after steady-state for the C:N ratio of 15, 10, and 4 respectively. Suspended solid concentration in the effluent was found to be high throughout the treatment, but no clogging occurred during the 4 months of operation period even though backwashing was eliminated. 展开更多
关键词 BAF carbon removal nITRIFIcATIOn BAcKWASHInG cn ratio
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Ti(C,N)基金属陶瓷成分对抗热震性能的影响 被引量:2
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作者 赵玉玲 但成 +1 位作者 余海洲 丰平 《硬质合金》 CAS 2023年第5期329-334,共6页
制备了不同碳氮比Ti(C,N)固溶体和分别加入NbC、TaC、VC、Cr_(3)C_(2)的Ti(C,N)基金属陶瓷,采用水淬冷热震方法研究了不同成分对Ti(C,N)基金属陶瓷抗热震性能的影响。结果表明:金属陶瓷在热冲击过程中,陶瓷相在热应力的作用下会发生开... 制备了不同碳氮比Ti(C,N)固溶体和分别加入NbC、TaC、VC、Cr_(3)C_(2)的Ti(C,N)基金属陶瓷,采用水淬冷热震方法研究了不同成分对Ti(C,N)基金属陶瓷抗热震性能的影响。结果表明:金属陶瓷在热冲击过程中,陶瓷相在热应力的作用下会发生开裂现象,在裂纹扩展路径上产生的微裂纹能促进裂纹扩展;在不同碳氮比的Ti(C_(x),N_(y))固溶体金属陶瓷中,碳氮比7/3的Ti(C_(0.7),N_(0.3))金属陶瓷的抗热震性能最好,本文研究中其热震临界温度为240℃;在添加的四种碳化物(NbC、TaC、VC和Cr_(3)C_(2))中,NbC和TaC能显著提升金属陶瓷的抗热震性,且TaC更优于NbC,而VC和Cr_(3)C_(2)的加入不利于改善金属陶瓷抗热冲击性能。 展开更多
关键词 TI(c n)基金属陶瓷 抗热震性能 碳氮比 碳化物
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低C/N比污水脱氮除磷技术应用研究进展 被引量:1
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作者 郝建军 王薪惠 +3 位作者 丁佳琪 李妍妍 解澍帆 赵荣兴 《辽宁化工》 CAS 2023年第1期94-97,共4页
人类的生存依赖水资源,工业的快速进步发展对水体产生负面影响,氮、磷过度排放使得水体持续恶化,随之而来的水污染成为不可小觑的重大环境问题,干扰人类正常生命活动,毁坏生态平衡,是国民经济绿色长远发展停滞的根源。现已通过多种技术... 人类的生存依赖水资源,工业的快速进步发展对水体产生负面影响,氮、磷过度排放使得水体持续恶化,随之而来的水污染成为不可小觑的重大环境问题,干扰人类正常生命活动,毁坏生态平衡,是国民经济绿色长远发展停滞的根源。现已通过多种技术对水环境进行改善修复,其中低C/N比污水脱氮除磷是解决环境问题的重要方法和研究热点。以传统工艺和新型工艺为切入点,以应用型和改进型为分类方法,对现今低C/N比污水脱氮除磷处理工艺进行总结,旨在为低C/N比污水脱氮除磷技术的发展提供新参考和新思路。 展开更多
关键词 c/n 污水 脱氮除磷技术
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双金属ZIF衍生的ZnxCoy/N-C催化剂及其高效电催化还原CO_(2)制CO的性能研究 被引量:3
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作者 张爱红 杨勇 +3 位作者 何安帮 杨名 杜军 陶长元 《低碳化学与化工》 CAS 北大核心 2023年第3期62-68,共7页
电催化CO_(2)还原是实现CO_(2)资源化利用的重要方法,其关键在于高效催化剂的合成。以双金属有机骨架化合物(ZnxCoy-ZIF)为前驱体,经高温热解得到ZnxCoy/N-C催化剂,研究了前驱体中双金属的物质的量之比及热解过程对ZnxCoy/N-C催化剂的... 电催化CO_(2)还原是实现CO_(2)资源化利用的重要方法,其关键在于高效催化剂的合成。以双金属有机骨架化合物(ZnxCoy-ZIF)为前驱体,经高温热解得到ZnxCoy/N-C催化剂,研究了前驱体中双金属的物质的量之比及热解过程对ZnxCoy/N-C催化剂的碳载体形成、N掺杂程度、Co电子结构变化及电催化还原CO_(2)制CO的反应性能的影响。结果表明,前驱体中Zn的存在有利于碳载体活性面积的提高,并且促进Co-Nx活性位点的形成,实现对Co位点电子结构的有效调节。900℃热解获得的ZnxCoy/N-C催化剂具有高活性及高导电性,在电还原CO_(2)制CO反应中,电流密度最高可达135 mA/cm2,且CO分电流密度为59 mA/cm2,CO法拉第效率达56.1%,在40 h的性能测试中,ZnxCoy/N-C催化剂的催化活性未出现下降,在电催化CO_(2)中具有工业化的潜力。 展开更多
关键词 Znxcoy/n-c Zn 氮掺杂碳 电催化还原cO_(2)
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混合营养脱氮在低C/N工业废水处理中的研究进展 被引量:1
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作者 鄢子鹏 郑梦启 +4 位作者 王成业 陈国炜 王伟 袁守军 苏馈足 《化工进展》 EI CAS CSCD 北大核心 2023年第12期6567-6575,共9页
富氮工业废水中难降解的氮杂环化合物加剧了碳氮比失衡,抑制了生物脱氮工艺中硝化反硝化过程,因而探究新型处理工艺是高效处理低C/N工业废水的必由之路。混合营养脱氮技术结合异养脱氮和自养脱氮的代谢路径,优化低C/N工业废水脱氮性能,... 富氮工业废水中难降解的氮杂环化合物加剧了碳氮比失衡,抑制了生物脱氮工艺中硝化反硝化过程,因而探究新型处理工艺是高效处理低C/N工业废水的必由之路。混合营养脱氮技术结合异养脱氮和自养脱氮的代谢路径,优化低C/N工业废水脱氮性能,进而实现低C/N工业废水处理提质增效。本文综述了混合营养脱氮工艺中铁介导生物脱氮、硫介导生物脱氮和菌藻共生脱氮工艺的作用机理、研究进展与影响因素,阐述了三种工艺特点及不同类型低C/N工业废水的适用性,并就三种混合营养脱氮工艺中存在的问题并结合当前研究方向,从优化电子供受体和代谢路径的角度提出增大电子容量、提高电子转移速率,结合电化学体系与Fe-S耦合增强协同代谢从而提升污染物代谢性能的建议。 展开更多
关键词 c/n 工业废水 氮杂环化合物 混合营养
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活性污泥-悬浮生物膜系统处理低C/N污水深度脱氮性能 被引量:1
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作者 冯琪瑞 唐玉朝 +4 位作者 伍昌年 黄显怀 王坤 薛莉娉 蔡丽丽 《环境化学》 CAS CSCD 北大核心 2023年第5期1697-1707,共11页
通过农业废弃物玉米芯悬浮生长生物膜的载体,构建了活性污泥-悬浮生物膜混合系统,以SBR工艺运行方式对低浓度低C/N污水的深度脱氮性能进行了研究.探究了挂膜启动阶段系统脱氮效果;在工艺稳定运行后,考察了温度、HRT、DO、进水C/N、进水p... 通过农业废弃物玉米芯悬浮生长生物膜的载体,构建了活性污泥-悬浮生物膜混合系统,以SBR工艺运行方式对低浓度低C/N污水的深度脱氮性能进行了研究.探究了挂膜启动阶段系统脱氮效果;在工艺稳定运行后,考察了温度、HRT、DO、进水C/N、进水pH等参数对工艺脱氮性能的影响.经过24 d挂膜后,结合污染物去除情况及镜检显示生物膜挂膜成功.运行结果表明,以预处理后的生活污水作为模拟原水,控制反应温度为26—30℃,HRT=8 h,COD/TN为(4.0±0.1),DO=(2.2±0.1)mg·L^(-1),进水pH=(8.0±0.1)的条件下,系统达到最佳运行条件,COD、NH_(4)^(+)-N、TN平均去除率分别为70.2%、94.8%和80.8%,平均出水COD、NH_(4)^(+)-N、TN浓度分别为14.89 mg·L^(-1)、0.57 mg·L^(-1)和2.40 mg·L^(-1).好氧阶段DO浓度对TN去除率有一定的影响,当好氧阶段DO浓度为(2.2±0.1)mg·L^(-1)时,TN去除率达到峰值84.38%.结果表明,活性污泥-悬浮生物膜混合系统处理低浓度低C/N污水具有优良性能,为低浓度低C/N污水的深度脱氮及玉米芯的资源化利用提供新的思路. 展开更多
关键词 玉米芯 悬浮生物膜 混合系统 低浓度 c/n 深度脱氮
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菘蓝碳氮代谢与基质C/N对氮处理的动态响应
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作者 崔英静 孙莉琼 +5 位作者 师建玲 李晓帆 鲍婷婷 王峰峰 唐晓清 王康才 《核农学报》 CAS CSCD 北大核心 2023年第11期2278-2287,共10页
为研究施氮后基质C/N和菘蓝(Isatis indigotica Fort.)碳氮代谢的动态变化,以河北居群的菘蓝为试验材料,播种后施用0、5、15、20 g·L^(-1)CO(NH_(2))_(2),分别记为CK、N1、N2、N3。利用重铬酸钾外加热法和碳氮分析仪测定基质及菘... 为研究施氮后基质C/N和菘蓝(Isatis indigotica Fort.)碳氮代谢的动态变化,以河北居群的菘蓝为试验材料,播种后施用0、5、15、20 g·L^(-1)CO(NH_(2))_(2),分别记为CK、N1、N2、N3。利用重铬酸钾外加热法和碳氮分析仪测定基质及菘蓝碳、氮元素含量;实时荧光定量PCR(qRT-PCR)法测定菘蓝碳氮代谢酶基因的表达;超高效液相色谱(UPLC)法测定菘蓝指标成分含量。结果表明,菘蓝碳氮代谢对不同浓度氮营养的响应不同。随着处理时间延长,N1、N2、N3叶与根的可溶性糖含量先增加后减少,与磷酸烯醇式丙酮酸羧化酶(PEPC)基因表达量变化趋势相反,与蔗糖磷酸合成酶(SPS)活性变化趋势相似。菘蓝碳氮代谢产物与碳氮代谢关键酶的活性及基因表达量密切相关。N1靛蓝含量与硝酸还原酶(NR)基因表达量变化趋势相似,靛玉红含量与谷氨酰胺合成酶(GS)基因表达量、谷氨酸合成酶(GOGAT)活性变化趋势相似,与GOGAT基因表达量、GS活性变化趋势相反。N2靛蓝含量与NR活性变化趋势相反,与GOGAT基因表达量变化趋势相似,靛玉红含量与NR、GS基因表达量、GOGAT活性变化趋势相似。N3靛蓝、靛玉红含量与NR、GS基因表达量、GOGAT活性变化趋势相似。GS、GOGAT活性和其相应酶基因表达量的变化趋势相反。随着菘蓝的生长,基质中的碳元素含量逐渐增加,氮元素含量逐渐减少,C/N升高。菘蓝碳、氮元素含量的变化趋势与基质相反。施氮后,菘蓝叶、根中累积的氮素含量增多,基质中的氮素减少,碳元素含量的变化与氮相反。N2处理各种酶的活性及基因表达量较高,同时累积更高的活性成分。综上,15 g·L^(-1)CO(NH_(2))_(2)处理更有助于菘蓝指标成分的累积。本研究结果为菘蓝氮营养高效利用提供了理论参考。 展开更多
关键词 菘蓝 碳氮代谢 c/n 动态响应
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Profile Distribution and Storage of Soil Organic Carbon in an Aquic BrownSoil as Affected by Land Use 被引量:10
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作者 JIANGYong ZHANGYu-ge +1 位作者 LIANGWen-ju WENDa-zhong 《Agricultural Sciences in China》 CAS CSCD 2005年第3期199-206,共8页
Many attempts have been made to estimate the soil organic carbon (SOC) storage under different land uses, especiallyfrom the conversion of forest land or grassland into cultivated field, but limited reports were found... Many attempts have been made to estimate the soil organic carbon (SOC) storage under different land uses, especiallyfrom the conversion of forest land or grassland into cultivated field, but limited reports were found on the estimation ofthis storage after cultivated field converted into woodland or grassland, especially in small scales. This study is aimed toinvestigate the dynamics of SOC concentration, its storage and carbon /nitrogen (C/N) ratio in an aquic brown soil at theShenyang Experimental Station of Ecology, Chinese Academy of Sciences under four land use patterns over 14 years. Thefour land use patterns were paddy field (PF), maize field (MF), fallow field (FF) and woodland (WL). In each pedon at 0-150cm depth, soil samples were collected from ten layers. The results showed that the profile distribution of SOC was differentunder different land uses, indicating the effect of land use on SOC. Soil organic carbon was significantly related with soiltotal N, and the correlation was slightly closer in nature ecosystems (with R2=0.990 and P<0.001 in both WL and FF, n=30)than in agroecosystems (with R2=0.976 and P<0.001 in PF, and R2=0.980 and P<0.001 in MF, n=30). The C/N ratio in theprofiles decreased generally with depth under the four land use patterns, and was comparatively higher in WL and lowerin PF. The C/N ratio of the FF was closer to that in the same soil depths of MF than to that of PF. Within 100 cm depth, theannual sequestration of SOC was 4.25, 2.87, and 4.48 t ha-1 more in WL than in PF, MF and FF, the annual SOC increasingrate being 6.15, 3.26, and 5.09 % higher, respectively. As a result, the SOC storage was significantly greater in WL than inany of the other three land use patterns, P=0.001, 0.008, and 0.008 as compared with PF, MF, and FF, respectively, whilethere was no significant difference among the other three land uses. It is suggested that woodland has the potential tomake a significant contribution to C storage and environmental quality. 展开更多
关键词 Aquic brown soil carbon storage c/n ratio Land use Soil organic carbon
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三聚氰胺衍生的高石墨氮中空管状Fe-N/C催化碱性氧还原反应
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作者 赵晓琦 李晶 +3 位作者 张雪 李盈霄 高艳芳 刘玲 《内蒙古工业大学学报(自然科学版)》 2023年第4期309-317,共9页
以煅烧三聚氰胺后形成的C3N4材料为氮源,柠檬酸为碳源,六水合三氯化铁为铁源,通过两步法合成FeN/C催化剂,并考察该催化剂对氧还原反应的电催化能力。采用XRD、SEM、Raman、XPS等表征手段对Fe-N/C催化剂的晶体结构和元素化学状态进行综... 以煅烧三聚氰胺后形成的C3N4材料为氮源,柠檬酸为碳源,六水合三氯化铁为铁源,通过两步法合成FeN/C催化剂,并考察该催化剂对氧还原反应的电催化能力。采用XRD、SEM、Raman、XPS等表征手段对Fe-N/C催化剂的晶体结构和元素化学状态进行综合评价;以CV和LSV等电化学测试手段探究Fe-N/C催化剂的氧还原电催化能力。研究结果表明,Fe-N/C催化剂具有管状形貌、较高的石墨氮含量和较佳的氧还原电催化能力。通过对电化学性能关键参数进行分析发现,Fe-N/C催化剂的起始电位是1.071 V vs. RHE,半波电位是0.911 V vs. RHE,极限电流密度是5.943 mA/cm2。 展开更多
关键词 氧还原反应 燃料电池 Fe-n/c催化剂 空心管电催化剂 氮掺杂碳
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Biological Nutrient Removal in a Full Scale Anoxic/Anaerobic/Aerobic/ Pre-anoxic-MBR Plant for Low C/N Ratio Municipal Wastewater Treatment 被引量:8
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作者 胡香 谢丽 +2 位作者 SHIM Hojae 张善发 杨殿海 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2014年第4期447-454,共8页
A novel full scale modified A2O (anoxic/anaerobic/aerobic/pre-anoxic)-membrane bioreactor (MBR) plant combined with the step feed strategy was operated to improve the biological nutrient removal (BNR) from low C... A novel full scale modified A2O (anoxic/anaerobic/aerobic/pre-anoxic)-membrane bioreactor (MBR) plant combined with the step feed strategy was operated to improve the biological nutrient removal (BNR) from low C/N ratio municipal wastewater in Southern China. Transformation of organic carbon, nitrogen and phosphorus, and membrane fouling were investigated. Experimental results for over four months demonstrated good efficiencies for chemical oxygen demand (COD) and NH4^+-N removal, with average values higher than 84.5%and 98.1%, re-spectively. A relatively higher total nitrogen (TN) removal efficiency (52.1%) was also obtained at low C/N ratio of 3.82, contributed by the configuration modification (anoxic zone before anaerobic zone) and the step feed with a distribution ratio of 1:1. Addition of sodium acetate into the anoxic zone as the external carbon source, with a theoretical amount of 31.3 mg COD per liter in influent, enhanced denitrification and the TN removal efficiency in-creased to 74.9%. Moreover, the total phosphate (TP) removal efficiency increased by 18.0%. It is suggested that the external carbon source is needed to improve the BNR performance in treating low C/N ratio municipal waste-water in the modified A^2O-MBR process. 展开更多
关键词 biological nutrient removal low c/n ratio wastewater membrane bioreactor DEnITRIFIcATIOn external carbon source
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Sedimentary record of climate change in a high latitude fjord—Kongsfjord
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作者 Hang Wu Binbin Deng +5 位作者 Jinlong Wang Sheng Zeng Juan Du Peng Yu Qianqian Bi Jinzhou Du 《Acta Oceanologica Sinica》 SCIE CAS CSCD 2023年第1期91-102,共12页
The sedimentary record of climate change in the Arctic region is useful for understanding global warming.Kongsfjord is located in the subpolar region of the Arctic and is a suitable site for studying climate change.Gl... The sedimentary record of climate change in the Arctic region is useful for understanding global warming.Kongsfjord is located in the subpolar region of the Arctic and is a suitable site for studying climate change.Glacier retreat is occurring in this region due to climate change,leading to an increase in meltwater outflow with a high debris content.In August 2017,we collected a sediment Core Z3 from the central fjord near the Yellow River Station.Then,we used the widely used chronology method of 210Pb,^(137)Cs,and other parameters to reflect the climate change record in the sedimentary environment of Kongsfjord.The results showed that after the mid-late 1990s,the mass accumulation rate of this core increased from 0.10 g/(cm^(2)·a)to 0.34 g/(cm^(2)·a),while the flux of^(210)Pb_(ex)increased from 125 Bq/(m^(2)·a)to 316 Bq/(m^(2)·a).The higher sedimentary inventory of^(210)Pb_(ex)in Kongsfjord compared to global fallout might have been caused by sediment focusing,boundary scavenging,and riverine input.Similarities between the inventory of^(137)Cs and global fallout indicated that terrestrial particulate matter was the main source of^(137)Cs in fjord sediments.The sedimentation rate increased after 1997,possibly due to the increased influx of glacial meltwater containing debris.In addition,the^(137)Cs activity,percentage of organic carbon(OC),and OC/total nitrogen concentration ratio showed increasing trends toward the top of the core since 1997,corresponding to a decrease in the mass balance of glaciers in the region.The results ofδ^(13)C,δ^(15)N and OC/TN concentration ratio showed both terrestrial and marine sources contributed to the organic matter in Core Z3.The relative contribution of terrestrial organic matter which was calculated by a two-endmember model showed an increased trend since mid-1990s.All these data indicate that global climate change has a significant impact on Arctic glaciers. 展开更多
关键词 Kongsfjord RADIOnUcLIDE organic carbon/total nitrogen(Oc/Tn)concentration ratio δ^(13)c δ^(15)n sediment record climate change
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