滇池流域不同土地利用方式土壤磷解吸研究

Soil P desorption in different land use types in Dianchi Lake Watershed

  • 摘要: 滇池富营养化严重, 非点源磷污染对滇池有重要影响。溶解态磷一旦冲入湖中容易被水生植物利用, 所以土壤中溶解态磷的输出值得专门研究。本文选取滇池流域不同土地利用类型的17样点, 测定了样点土壤中全磷、速效磷、溶解性总磷和溶解性磷酸盐的含量, 并进行了静态土壤磷解吸试验, 以了解土壤磷的析出特征。结果表明, 滇池流域土壤全磷含量为0.137~2.935 mg·kg-1(不包括磷矿区的上蒜林地和上蒜坝平地), 速效磷含量在0.311~96.238 mg·kg-1之间, 不同土地利用方式下土壤全磷、速效磷含量均依次为湖滨废弃大棚>大棚>坝平地>坡地>林地; 土壤溶解性总磷含量为0.66~9.52 mg·kg-1, 不同土地利用方式的土壤溶解性总磷含量为湖滨废弃大棚>大棚>坡地>坝平地>林地;土壤溶解性磷酸盐含量较低。相关分析表明, 土壤溶解性全磷含量与土壤全磷含量存在明显的正线性关系, 溶解性磷酸盐含量与溶解性总磷含量线性正相关。溶解性磷酸盐在溶解性总磷中占20%~95%, 说明溶解性磷酸盐是溶解性总磷的重要组成部分。结果表明, 滇池流域土壤磷的溶出水平由土壤全磷含量所决定, 而大量施肥不利于湖泊富营养化控制。研究结果还表明, 磷的静态溶出过程在0.5~1 h能达到平衡, 说明在地下水或地表径流的输移过程中有足够多时间达到溶解平衡, 析出最大量。

     

    Abstract: Non-point P pollution is the main element of eutrophication of Dianchi Lake. Study of dissolved soil P is critical because of its ease of utilization by aquatic plants especially when flushed into Lakes. 17 soil sampling sites of 5 land use types were selected, and total P, available P, total dissolved P and dissolved phosphate contents of sampled soils were determined. P desorption experiment of sampled soils was conducted too. The aim of the study was to learn the desorption characteristics of P in soils of different land use types in Dianchi Lake Watershed. Based on the results, the orders of soil total P and available P in different land use types were abandoned lakeside greenhouse > greenhouse > flat-land > slope-land > woodland with the contents ranges of 0.124~2.935 g·kg-1 for total P and 0.311~96.238 mg·kg-1 for available P. The total dissolved P content range was 0.66~9.52 mg·kg-1 and its order for differ-ent land use types was abandoned lakeside greenhouse > greenhouse > slope-land > flat-land > woodland. Soil dissolved phosphate content under different land use types was lower. Soil total dissolved P was linearly positively correlated with soil total P. Soil dis-solved phosphate was also linearly positively correlated with soil total dissolved P. Dissolved phosphate was 20%~95% of total dis-solved P. These trends implied that dissolved phosphate was important component of total dissolved P, and the degree of soil dis-solved P was determined by the amount of soil total phosphorus. Also the higher the rate of P fertilization in the region, the more difficult was the control of eutrophication in Dianchi Lake. The study showed that dissolution of soil total P reached equilibrium in about 0.5~1 hours of application. This implied that there was sufficient time for P to attain dissolution equilibrium as it moved down in the lake through groundwater flow or surface runoff.

     

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