Duchesne Louis, Ouimet Rock, Houle Daniel
Direction de la recherche forestière, Forêt Québec, ministère des Ressources naturelles du Québec, 2700, rue Einstein, Sainte-Foy, QC, Canada G1P 3W8.
J Environ Qual. 2002 Sep-Oct;31(5):1676-83. doi: 10.2134/jeq2002.1676.
Previous studies have shown in noncalcareous soils that acid deposition may have increased soil leaching of basic cations above the input rate from soil weathering and atmospheric depositions. This phenomenon may have increased soil acidity levels, and, as a consequence, may have reduced the availability of these essential nutrients for forest growth. Fourteen plots of the Forest Ecosystem Research and Monitoring Network in Québec were used to examine the relation between post-industrial growth trends of sugar maple (Acer saccharum Marsh.) and acid deposition (N and S), stand decline rate, and soil exchangeable nutrient concentrations. Atmospheric N and S deposition and soil exchangeable acidity were positively associated with stand decline rate, and negatively with the average tree basal area increment trend. The growth rate reduction reached on average 17% in declining stands compared with healthy ones. The results showed a significant sugar maple growth rate reduction since 1960 on acid soils. The appearance of the forest decline phenomenon in Québec can be attributed, at least partially, to soil acidification and acid deposition levels.
以往研究表明,在非石灰性土壤中,酸沉降可能使土壤中碱性阳离子的淋溶量超过土壤风化和大气沉降的输入量。这种现象可能会提高土壤酸度,进而可能降低这些对森林生长至关重要的养分的有效性。魁北克省森林生态系统研究与监测网络的14个样地被用于研究糖枫(Acer saccharum Marsh.)工业化后生长趋势与酸沉降(氮和硫)、林分衰退率以及土壤交换性养分浓度之间的关系。大气氮和硫沉降以及土壤交换性酸度与林分衰退率呈正相关,与平均树木基部面积增加趋势呈负相关。与健康林分相比,衰退林分的生长速率平均降低了17%。结果表明,自1960年以来,酸性土壤上糖枫的生长速率显著降低。魁北克省森林衰退现象的出现至少部分可归因于土壤酸化和酸沉降水平。