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Identification of Unknown Carboxydovore Bacteria Dominant in Deciduous Forest Soil via Succession of Bacterial Communities, coxL Genotypes, and Carbon Monoxide Oxidation Activity in Soil MicrocosmsThe atmospheric chemistry of trace gases and particulate matter emitted by different land uses in BorneoSpectroscopic signatures of ozone at the air-water interface and photochemistry implications.Helium nanodroplet isolation spectroscopy and ab initio calculations of HO3-(O2)n clusters.Photodissociation of (SO2⋯XH) Van der Waals complexes and clusters (XH = C2H2, C2H4, C2H6) excited at 32,040-32,090 cm(-1) with formation of HSO2 and X.Subterranean atmospheres may act as daily methane sinks.Jet cooled cavity ringdown spectroscopy of the Ã(2)E(″)←X˜(2)A2 (') transition of the NO3 radical.Mid-infrared signatures of hydroxyl containing water clusters: Infrared laser Stark spectroscopy of OH-H2O and OH(D2O)n (n = 1-3).Halocarbon emissions by selected tropical seaweeds: species-specific and compound-specific responses under changing pH.Tropospheric OH and HO2 radicals: field measurements and model comparisons.Plant volatiles in polluted atmospheres: stress responses and signal degradation.Understanding and improving global crop response to ozone pollution.Dynamics and yields for CHBrCl2 photodissociation from 215-265 nm.Reactivity of nano-size zinc powder in the aqueous solution of [FeIII(edta)(H2O)].A catalytic reactor for the trapping of free radicals from gas phase oxidation reactions.Safe direct synthesis of high purity H2O2 through a H2/O2 plasma reaction.The atmospheric oxidation of CH3OOH by the OH radical: the effect of water vapor.Wet nitrogen and phosphorus deposition in the eutrophication of the Lagos Lagoon, Nigeria.Ultra-sensitive measurement of peroxy radicals by chemical amplification broadband cavity-enhanced spectroscopy.Exploring mechanisms of a tropospheric archetype: CH3O2 + NO.Comparison of δ81Br and δ37Cl composition of volatiles, salt precipitates, and associated water in terrestrial evaporative saline lake systems.Monoterpenes are the largest source of summertime organic aerosol in the southeastern United States.Quantum chemical study on the stability of honeybee queen pheromone against atmospheric factors.Seasonal characteristics of tropical marine boundary layer air measured at the Cape Verde Atmospheric ObservatoryReaction of Aromatic Peroxyl Radicals with Alkynes: A Mass Spectrometric and Computational Study Using the Distonic Radical Ion ApproachImpact of vehicular emissions on the formation of fine particles in the Sao Paulo Metropolitan Area: a numerical study with the WRF-Chem modelGlobal tropospheric ozone variations from 2003 to 2011 as seen by SCIAMACHYEconomic crisis detected from space: Air quality observations over Athens/GreeceAtmospheric oxidation chemistry and ozone production: Results from SHARP 2009 in Houston, TexasDifferences in BVOC oxidation and SOA formation above and below the forest canopyUsing in situ GC-MS for analysis of C₂–C₇ volatile organic acids in ambient air of a boreal forest siteSpatial and diurnal variability in reactive nitrogen oxide chemistry as reflected in the isotopic composition of atmospheric nitrate: Results from the CalNex 2010 field studyAnalysis of nitrate in the snow and atmosphere at Summit, Greenland: Chemistry and transportAn aircraft gas chromatograph–mass spectrometer System for Organic Fast Identification Analysis (SOFIA): design, performance and a case study of Asian monsoon pollution outflow
P2860
Q28600863-690D862D-4A90-4C6B-8E93-FA320B51C3E8Q34050365-44E1879A-12C0-446A-8067-4241D5731DB3Q34060817-C4221305-B6C1-4768-A2B3-D5EAA6CCA6BCQ34473533-19685A72-1521-4411-90B4-464FBA58D78AQ35089811-DE9FADD4-DFD2-401E-B098-715ACC3F9485Q35614590-FF388469-3646-4319-B70E-0366B22DFE62Q35633038-6D7EBD34-731D-4440-A5AE-A675FCCB918DQ35828356-169E4A93-2832-40E7-8865-F383EA85E14FQ36266962-F5C8855A-03D5-4605-B4CF-497D74789CBAQ38036148-4E0DD262-602F-488C-9DCF-65FCD3D5C42CQ38205015-47D882A9-55DF-4B93-B273-3EE22941BB1BQ38811758-94BC681C-C56B-4EE7-A7DA-EC7C32CDC989Q39154420-FCCB7F38-031A-4C45-A40D-AEB4E0949384Q39734570-D72E33DC-4D68-4E68-95C0-013A3627888CQ42843159-A240F3F6-C654-453F-BF73-4078B137B448Q43771674-036EC54B-57FB-405B-BB4B-BCEBF5E39036Q46375110-FF02E91F-E4B1-46D1-8348-1814A912FF21Q46417816-479C3342-2657-4FA1-87FB-56D8F0DCAAB7Q46503664-EE012CC6-6A7B-42B8-B9E2-6021431FCD3AQ46620246-2C089D6C-4E5E-4D76-BD7F-E6C6B6A508DAQ48029547-94EDE6DA-CCC3-4F77-99A7-012BE6DC51BAQ50026507-95B3EBA0-F2D8-4ADC-9E7A-5FF4605DE9D1Q51323764-89087513-8261-48A3-AFF7-F48B271C5F45Q56330120-2AA39192-8F15-478C-9E1C-2C8B08416BD8Q57204100-B8174B4B-7043-4F25-8FBA-551B4410C669Q57256048-FECA0F32-600A-4516-A009-F24C8088C5D8Q57372468-B01C1CF6-824F-4AB0-9281-40A622B0D684Q57372861-FFB1F71E-2DD3-4327-B05D-A6AFFD78C4F9Q57445218-B4306C92-9B85-49A5-BE3F-513A37436F85Q57880791-FC88B3C2-D174-4BA8-AD22-FEC842A04970Q57885280-0EFBFA4E-2F5B-40FE-B28A-29B7347A84ACQ58096461-77B1F2BF-D91C-42D3-BBFF-B66ED8C8B1ACQ58304799-C26F3568-7929-42B5-B8BF-A2FCFB6FF813Q58384418-11336C42-6448-4F11-8F56-0AB4093BFF26
P2860
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
Gas-phase radical chemistry in the troposphere.
@ast
Gas-phase radical chemistry in the troposphere.
@en
type
label
Gas-phase radical chemistry in the troposphere.
@ast
Gas-phase radical chemistry in the troposphere.
@en
prefLabel
Gas-phase radical chemistry in the troposphere.
@ast
Gas-phase radical chemistry in the troposphere.
@en
P356
P1476
Gas-phase radical chemistry in the troposphere.
@en
P2093
Paul S Monks
P304
P356
10.1039/B307982C
P577
2005-02-28T00:00:00Z