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福建省区域酸雨特征及成因分析 被引量:21
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作者 陈彬彬 王宏 +1 位作者 郑秋萍 杨凯 《气象与环境学报》 2016年第4期70-76,共7页
利用2007—2014年福建省邵武、福州、永安和厦门4个气象观测站的酸雨监测资料,统计分析了福建省不同区域酸雨的时空变化和强酸雨变化特征,并对酸雨成因进行了初步探讨。结果表明:2007—2014年福建省降水年平均pH值为4.64—4.97,达中度... 利用2007—2014年福建省邵武、福州、永安和厦门4个气象观测站的酸雨监测资料,统计分析了福建省不同区域酸雨的时空变化和强酸雨变化特征,并对酸雨成因进行了初步探讨。结果表明:2007—2014年福建省降水年平均pH值为4.64—4.97,达中度酸性标准,pH值呈逐年升高的趋势,降水酸度呈逐渐减弱的趋势,强酸雨发生频率呈下降的趋势。邵武和福州地区为酸雨高发区,邵武地区降水酸度最强,酸雨和强酸雨发生频率最高,2011年后两个地区降水酸度均减弱,强酸雨发生频率均降低;厦门和永安地区为轻酸雨区,永安地区全年基本无强酸雨发生,由于两个地区酸雨发生频率增加,累积酸雨量比例增大,2012年后两个地区降水酸度均呈不同程度的增强。福州、厦门和邵武地区月酸雨变化均表现为一定的规律性,冬春季酸雨污染较重,夏季酸雨污染偏轻;永安地区则相反,秋冬季降水呈碱性,春季有轻微的酸雨污染。2007—2014年福建省降水月平均pH值<4.50的概率分别为:永安地区0.0%、厦门地区4.2%、福州地区29.2%和邵武地区42.7%,均呈逐年下降的趋势。城市致酸污染物排放、酸性物质的省际输送、地理环境和天气条件是造成福建省区域性酸雨污染的原因。 展开更多
关键词 PH值 酸雨 酸雨量 成因
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Surface Amendments Can Ameliorate Subsoil Acidity in Tea Garden Soils of High-Rainfall Environments 被引量:5
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作者 WANG Lei Clayton R. BUTTERLY +5 位作者 CHEN Qiuhui MU Zhibo WANG Xia XI Yunguan ZHANG Jibing XIAO Xingji 《Pedosphere》 SCIE CAS CSCD 2016年第2期180-191,共12页
Strongly acidic soils (pH 〈 5.0) are detrimental to tea (Camellia sinensis) production and quality. Little information exists on the ability of surface amendments to ameliorate subsoil acidity in the tea garden s... Strongly acidic soils (pH 〈 5.0) are detrimental to tea (Camellia sinensis) production and quality. Little information exists on the ability of surface amendments to ameliorate subsoil acidity in the tea garden soils. A 120-d glasshouse column leaching experiment was conducted using commonly available soil ameliorants. Alkaline slag (AS) and organic residues, pig manure (PM) and rapeseed cake (RC) differing in ash alkalinity and C/N ratio were incorporated alone and in combination into the surface (0-15 cm) of soil columns (10 cm internal diameter x 50 cm long) packed with soil from the acidic soil layer (15-30 cm) of an Ultisol (initial pH -- 4.4). During the 120-d experiment, the soil columns were watered (about 127 mm over 9 applications) according to the long-term mean annual rainfall (1 143 mm) and the leachates were collected and analyzed. At the end of the experiment, soil columns were partitioned into various depths and the chemical properties of soil were measured. The PM with a higher C/N ratio increased subsoil pH, whereas the RC with a lower C/N ratio decreased subsoil pH. However, combined amendments had a greater ability to reduce subsoil acidity than either of the amendments alone. The increases in pH of the subsoil were mainly ascribed to decreased base cation concentrations and the decomposition of organic anions present in dissolved organic carbon (DOC) and immobilization of nitrate that had been leached down from the amended layer. A significant (P 〈 0.05) correlation between alkalinity production (reduced exchangeable acidity - N-cycle alkalinity) and alkalinity balance (net alkalinity production - N-cycle alkalinity) was observed at the end of the experiment. Additionally, combined amendments significantly increased (P ~ 0.05) subsoil cation concentrations and decreased subsoil A1 saturation (P 〈 0.05). Combined applications of AS with organic amendments to surface soils are effective in reducing subsoil acidity in high-rainfall areas. Further investigations under field conditions and over longer timeframes are needed to fully understand their practical effectiveness in ameliorating acidity of deeper soil layers under naturally occurring leaching regimes. 展开更多
关键词 Al saturation LEACHING NITRATE organic amendments organic anions pH soil acidity soil alkalinity
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