出 处:《生态学报》2003年第7期1369-1376,共8页Acta Ecologica Sinica
基 金:国家重点野外台站资助项目 ( 2 0 0 0 -0 76);国家林业局重点科研资助项目 ( 2 0 0 1 -0 7);湖南省教育厅资助项目( 0 1 C0 5 3 )~~
摘 要:根据 5 a定位观测的数据 ,对湖南会同 2 4~ 2 8a生的杉木人工林生态系统各水文学过程中的养分特性进行了研究。结果表明 :林冠降水是杉木人工林生态系统养分输入的重要来源 ,其中 Ca的养分含量最高 ,P的含量最低。林内穿透水各养分元素的含量明显高于林冠降水中养分的含量。除 Ca外 ,树干茎流中其它养分元素的含量为林冠降水的 6倍以上。可见 ,林内穿透水和树干茎流是杉木林生态系统内养分循环的重要组成部分 ,有利于提高系统的养分利用率。地表径流中除硝态氮外 ,各元素的含量与穿透水的含量接近 ,其中 P、Na和 K三种元素的含量较低 ,但未超过林冠降水中养分元素含量。地下径流中 N和 K的含量较低 ,而 Ca的含量与林冠降水相比没有差异。因而地表径流和地下径流不可避免的造成生态系统的养分损失 ,但 2 4~ 2 8a生杉木林生态系统的调控能力较强 ,地表径流和地下径流量较小 ,生态系统的养分损失也相对较小 ,养分为净积累。不同季节之间水文学过程中养分元素含量存在一定程度的差异。降水形态、雷电和地形等要素影响养分元素含量。硝态氮在冰雹中未检出 ,而在雨水中的含量是雪水的 2倍。铵态氮、K和 Mg等元素在雨水中的含量最高。P和 Ca以雪水的含量最高 ,与雨水和冰雹相比不存在数量级差异。雷电明显增?Based on the data collected over 5 years from January of 1990 to December of 1994 at Huitong Located Research Station of Forest Ecology, the nutrient characteristics of hydrological processes in a Chinese fir plantation ecosystem of 24~28 years old were investigated. The results showed that precipitation was a main source of nutrient input in Chinese fir plantation. The concentration of Ca was the highest and that of P was the lowest in precipitation.The nutrients concentrations in throughfall were conspicuously higher than those in precipitation. Except for Ca, the concentrations of other nutrient elements in stemflow were 6 times higher than those in precipitation. The nutrient transfer in throughfall and stemfall was a critical function of the intrasystem nutrient cycling that could improve nutrient use efficiency. The nutrient concentrations in surface runoff were roughly the same as those in throughfall except for NO 3-N. Compared with other nutrient elements, the concentrations of P, Na and K were lower in surface runoff but did not exceed those in precipitation. In ground runoff, the concentrations of N and K were lower and no difference was found in Ca between ground runoff and precipitation. The differences of total nutrient concentration in hydrological processes over months and years were significant or even extremely significant. Although the surface runoff and ground runoff inevitably resulted in nutrient losses, a net nutrient accumulation in 24~28 year old China fir plantation indicated that the plantation at the stable stage could control nutrient loss. There were three factors, i.e. form of precipitation, lightning and location, that affected nutrient concentration and water quality variation. NO 3-N concentration in rainfall was almost 2 times as much as that in snow. The concentrations of NH 4-N, K and Mg were higher in rainfall than in snow and hailstone. Although the concentrations of P and Ca were higher in snow, no difference was found between the rainfall and hailstone. Lightning r
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