Variation in spatial pattern of criteria air pollutants before and during initial rain of monsoon

Spatial patterns of various criteria air pollutants,like SO₂, NO₂, O₃, and TSP were studied atShahdara National Ambient Air Quality Monitoring stationin Delhi (India) in July 1999. The minimum pollutantconcentrations were observed during morning hours,whereas the highest concentrations were found during thelate night hours, which seem to be related with thevehicular emission. Pre-monsoon daily ambient airquality spatial pattern was compared with the spatialpattern during initial and subsequent rain shower ofmonsoon. These spatial patterns were found to beessentially the same before and during rain, however asignificant decrease in SO₂, NO₂ and TSPconcentrations (40-45%) was observed after initial andsubsequent rains of the monsoon, demonstrating theimportance of rainfall in the scavenging of thesecriteria air pollutants.     

大气环流模式CAM4对亚洲气候的高分辨率模拟

中小尺度地形不仅在区域尺度上影响降水和环流形势分布,还会影响季风、西风急流等大尺度的天气系统。新的全球模式分辨率得到明显提高,本研究通过对比分析CAM4高分辨率配置下的模拟结果与高分辨率APHRO降水和ERA-Interim再分析资料,评估高分辨率CAM4对亚洲地区气候系统的模拟性能。结果表明,该模式不仅对亚洲季风-干旱气候系统的大尺度分布特征有良好的模拟能力,还能很好地模拟出季风区和内陆干旱半干旱区年均和季节平均降水的高、低值中心以及水平风场、地表温度和海平面气压的区域差异性特征,尤其是山脉地形附近的降水极值和风场变化。此外,CAM4与气象资料间在不同空间尺度上的空间相关性均很好,其中地表温度的相关系数在0.9以上,降水在亚洲地区超过0.7。     

树轮氢同位素气候学:现状与方向

树木年轮硝化纤维素的氢同位素组成被广泛地用于重建过去气候变化。文章介绍了树轮氢同位素气候学在技术、理论以及应用于重建气候变化等方面的进展以及存在的问题,着重阐述了用树木年轮硝化纤维素氢同位素组成来研究东亚季风的进展和今后需要解决的问题。     

增江流域河流颗粒有机碳的来源、含量变化及输出通量

对华南增江径流进行了 1个水文年度的 1 5次等时段采样 ,分析了河流悬移质中主要生源元素 (C、N、H)的含量 ,并估算了不同物源的贡献 .结果表明 ,增江悬移质中的有机碳以水生藻类的贡献为主 ,土壤侵蚀来源的有机碳在悬移质粗粒组中的份额平均为 37 2 4 % ,在细粒组中仅占 1 1 1 1 % 增江流域颗粒有机碳的输出通量为 0 83× 1 0 6g·km-2 ·a-1 ,其中来自土壤的颗粒有机碳通量为 0 2 2× 1 0 6g·km-2 ·a-1 .     

Assessment on Seasonal Variation of Groundwater Quality of Phreatic Aquifers – a River Basin System

Spatial distribution of pH, electrical conductivity (EC), total dissolved solids (TDS), fluoride and total iron content of ground water samples collected from the muvattupuzha river basin, Kerala, India, has been studied for pre monsoon and post monsoon periods of year 2001. Results showed the groundwater of the basin is acidic for which the pH values ranged between 5.5 and 8.0. Average EC was found to be less than 100 μS/cm, for most of the study region. The pre monsoon minimum and maximum TDS were found as 25.6 and 227.84 mg/L respectively, where as post monsoon values ranged between 16 and 162.56 mg/L. The relatively low EC and TDS values found both during the seasons in the lateritic terrain of the river basin signifies the lower residence time of ground water with the country rock. This makes the groundwater quality of this river basin as good. Pre monsoon season samples showed high total iron content than that during the post monsoon period. During the study period values of the fluoride contents were found to be within the permissible limits.     

Dissolved nutrient dynamics along the southwest coastal waters of India during northeast monsoon: a case study

Dissolved nutrients, Chl-a and primary productivity were measured from seven transects along the coastal waters of the southeastern Arabian Sea during northeast monsoon. Ten major estuaries were chosen to study the influence of estuarine discharge on the nutrient dynamics in the coastal waters. The mean water discharge of the estuaries in the north (64.8?±?18?×?10⁵?m³?d^?1) was found to be higher than those in the south (30.6?±?21.4?×?10⁵?m³?d^?1), whereas the nutrient concentrations were found to be higher in the estuaries of the south. The results from the offshore waters were discussed in accordance with the depth contour classification, that is, shelf (depth?≤?30?m) and slope waters (depth?≥?30?m). Our results suggest that the estuarine discharge plays a major role in the nutrient distribution in near shore shelf waters, whereas in shelf and slope waters, it was mainly controlled by in situ biological processes. The inorganic form of N to P ratios were found to be higher than Redfield ratio in slope waters when compared with shelf waters, suggesting that PO₄^3? (<0.15?µmol?L^?1) is a limiting nutrient for primary production. The multivariate statistical analysis revealed that the nutrient dynamics in the coastal waters was controlled by both biological and physical processes.     

鼎湖山粗死木质残体生物量特征

对鼎湖山季风常绿阔叶林1 hm2永久性样地内粗死木质残体(Coarse woody debris,简称CWD)的生物量、存在形式及分解状态进行研究.结果表明:1)鼎湖山季风常绿阔叶林CWD的生物量为42.09 t hm-2,其中倒木和枯立木分别为32.81 t hm-2、9.28 t hm-2,所占比例分别为77.9%、22.1%.1999~2010年间CWD年均输入量为1.68 t hm-2a-1.2)CWD主要优势树种为锥栗(Castanopsis chinensis)、黄杞(Engelhardtia roxburghiana)和荷木(Schima superba),所占比例分别为54.0%、15.1%和13.9%.3)CWD径级主要分布在30 cm以下,但对CWD生物量贡献最大的径级在30 cm以上.4)CWD的分解状态主要为中度分解状态,占CWD总生物量的61.2%.研究还表明,鼎湖山季风常绿阔叶林的CWD生物量呈逐年增加趋势.图2表3参17     

2003~2014年东北三省气溶胶光学厚度变化分析

利用2003~2014年MODIS-Aqua气溶胶光学厚度（AOD）产品、DMSP卫星夜间灯光时间资料和基本气象资料,分析我国东北三省（辽宁、吉林、黑龙江）大气气溶胶光学厚度年际变化及季节变化的空间分布特征.结果表明,东北三省多年平均AOD空间分布存在由大连、沈阳、长春和哈尔滨等城市构成的一个高值带,呈东北-西南走向,多年平均AOD值为0.4~0.8;东北三省植被覆盖率较高的东部和北部是AOD的低值区,多年平均AOD小于0.3;东北三省AOD季节变化为AOD春季到夏季升高,秋季下降,冬季再次升高.东北三省AOD年际变化特征为大部分低值地区呈减小趋势,但以沈阳、长春和哈尔滨为轴线的东北-西南走向的高值区域呈增大趋势,反映了近10多年出现的空气质量两极分化趋势.此外研究了东北三省年均AOD在强、弱西北太平洋夏季风年时的空间分布差异,受地面风场影响,AOD在强季风年时较弱季风年偏低.     

亚洲季风强弱年蒙自市大气环境容量差异估算

利用区域空气质量模式WRF-Chem,对亚洲季风气候变化背景下云南省蒙自市大气环境容量进行模拟评估.根据标准化南亚夏季风指数分别选取2005年和2015年为强、弱季风年.对2015年四季（以1月、4月、7月和10月为代表月）和2005年夏季（7月为代表月）的主要大气污染物浓度进行模拟.结果表明蒙自市2015年全年CO、NO₂、SO₂、PM_2.5、PM₁₀的大气环境容量分别为120.31、1.127、1.875、1.267、1.688（×10⁴t/a）,其中各污染物冬季大气环境容量最小,春季的最大（PM₁₀除外）,且PM_2.5在冬季排放量已饱和.强季风年相对弱季风年夏季CO、NO₂、SO₂、PM_2.5、PM₁₀的大气环境容量分别提升4.81%、3.86%、12.6%、18.4%、8.7%,其中PM_2.5的容量提升最高.亚洲季风年际变化对云南高原空气质量及大气环境容量具有重要的调制作用.     

东亚地区夏季旱涝分布与南海夏季风爆发时间关系

利用东亚地区529个代表站地面历史月降水资料和南海夏季风爆发时间的历史序列资料，对近55年（1951—2005年）南海夏季风爆发时间进行了多时间尺度变化特征分析，并依据夏季降水距平百分率确定了旱涝灾害等级标准，应用合成诊断分析方法研究了南海夏季风爆发时间偏早、偏晚和正常3种典型时态与东亚地区夏季旱涝分布的对应关系。结果表明：（1）在南海夏季风偏早爆发年份，中国长江流域、东北北部、华北局部以及韩国南部、日本南部、蒙古国东部易发生旱灾；中国的华南东部、淮河流域、环渤海北部及中朝边界、韩国北部易发生涝灾；（2）在南海夏季风偏晚爆发年份，中国江南地区、东南沿海、海南岛、东北局部以及日本的东部易发生旱灾；中国华南西部、淮河流域、华北大部、东北东部以及韩国南部、日本南部易发生涝灾；（3）在南海夏季风正常爆发年份，中国的华南南部、江淮地区、中朝边界、中蒙边界以及韩国局部、日本南部易发生旱灾；中国江南西部以及日本大部易发生涝灾。