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准格尔盆地南缘不同生态功能区夏季空气负离子浓度特征
引用本文:李翔,何平,张毓涛,常顺利. 准格尔盆地南缘不同生态功能区夏季空气负离子浓度特征[J]. 水土保持通报, 2015, 35(4): 229-234
作者姓名:李翔  何平  张毓涛  常顺利
作者单位:新疆林业科学研究院森林生态研究所, 新疆乌鲁木齐市 830063;新疆大学资源与环境科学学院绿洲生态教育部重点实验室, 新疆乌鲁木齐市 830046;新疆林业科学研究院森林生态研究所, 新疆乌鲁木齐市 830063;新疆大学资源与环境科学学院绿洲生态教育部重点实验室, 新疆乌鲁木齐市 830046
摘    要:[目的]对准格尔盆地南缘不同生态功能区夏季空气负离子浓度进行监测和分析,为不同地区空气质量评价提供参考依据。[方法]分别就不同生态功能区(水体、林区、停车场、聚集区)进行空气负离子浓度监测及评价,通过AIC-1000型空气离子测量仪进行数据采集并运用SPSS 17.0软件进行统计分析。[结果](1)不同区域生态功能区空气负离子浓度变化由高到低依次为:精河天池哈密巴尔鲁克,且精河、天池与哈密、巴尔鲁克之间差异显著(p0.05);(2)不同生态功能区中水体和林区空气负离子浓度含量较高,且空气负离子浓度随时间的变化出现早、晚较高,中午较低的动态变化趋势;(3)空气质量等级指标:天池(A级,1.28±0.42ind/cm3)精河(A级,1.16±0.08ind/cm3)哈密(D级,0.33±0.14ind/cm3)巴尔鲁克(D级,0.32±0.03ind/cm3);(4)不同天气状况对空气负离子浓度影响较大,主要表现为:雨天(699ind/cm3)沙尘(507ind/cm3)晴天(428ind/cm3)阴天(395ind/cm3)。[结论]不同生态功能区空气质量变化与空气负离子浓度变化基本一致,空气质量沿准格尔盆地南缘由东到西呈现劣—优—劣的分布规律。

关 键 词:准格尔盆地  生态功能区  空气负离子  空气质量
收稿时间:2014-05-28
修稿时间:2014-06-29

Charactoristics of Summer Air Anion Concentration in Different Ecological Functional Areas of Southern Edge of Junggar Basin
LI Xiang,HE Ping,ZHANG Yutao and CHANG Shunli. Charactoristics of Summer Air Anion Concentration in Different Ecological Functional Areas of Southern Edge of Junggar Basin[J]. Bulletin of Soil and Water Conservation, 2015, 35(4): 229-234
Authors:LI Xiang  HE Ping  ZHANG Yutao  CHANG Shunli
Affiliation:Institute of Forest Ecology, Xinjiang Academy of Forestry, Urumqi, Xingjiang 830063, China;Key Laboratory of Oasis Ecology, College of Resource and Environment Science, Xinjiang University, Urumqi, Xingjiang 830046, China;Institute of Forest Ecology, Xinjiang Academy of Forestry, Urumqi, Xingjiang 830063, China;Key Laboratory of Oasis Ecology, College of Resource and Environment Science, Xinjiang University, Urumqi, Xingjiang 830046, China
Abstract:[Objective] Air anion concentration in different ecological functional zones in southern margin of Junggar Basin was monitored in summer in order to provide a reference for rating regional air quality. [Methods] The concentrations of negative air ion in different ecological function areas (water body, forest area, parking lot, populated districts)by AIC-1000 type instrument. SPSS 17.0 was used for statistical analysis. [Results] (1) The concentrations in different regional areas ranked as: Jinghe > Hami > Tianchi > Baerluke. And the difference between the concentrations of Jinghe and Tianchi and values of Hami and Baerluke was significant (p<0.05); (2) In local ecological function areas, water body and forest area had higher concentration of negative air ions; and the daily concentration showed that it was higher in the morning and evening, and lower in the noon; (3) The rank of air quality levels(CI): Tianchi (level A, 1.28±0.42 ind/cm3) > Jinghe (level A, 1.16±0.08 ind/cm3) > Hami (level D, 0.33±0.14 ind/cm3) > Baerluke (level D, 0.32±0.03 ind/cm3); (4) Weather conditions could also influence the concentration of negative air ions, a rank was measured as: rainy(699 ind/cm3) > dust(507 ind/cm3) > sunny(428 ind/cm3) > cloudy(395 ind/cm3). [Conclusion] Changes in air quality and the concentration of negative air ions were basically synchronized in different ecological function areas. Air quality along the southern Junggar Basin showed an inferior-superior-inferior trend graphically form east to west.
Keywords:Junggar Basin  ecological function areas  negative air ion  air quality
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