| 喀斯特木论自然保护区土壤养分的空间变异特征 |
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| 作者姓名: | Liu L Zeng FP Song TQ Peng WX Wang KL Qin WG Tan WN |
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| 基金项目: | 中国科学院西部行动计划项目,中国科学院知识创新工程项目,国家自然科学基金项目,国家科技支撑计划项目 |
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| 摘 要: | 基于网格(20m×20m)采样法采集土壤样品,利用经典统计学和地统计方法分析了典型喀斯特峰丛洼地(200m×100m)土壤养分的空间变异特征.结果表明:研究区土壤pH值表现为弱变异,其他各养分指标均为中等程度变异,大小顺序为速效磷(AP)速效钾(AK)碱解氮(AN)土壤有机质(SOM)全钾(TK)全磷(TP)全氮(TN);pH半变异函数的最佳拟合模型为球状模型,TK和AK的最佳拟合模型为指数模型,其他养分指标的最佳拟合模型均为高斯模型;pH、AK的变异尺度(变程)较小,分别为58.1和41.1m,SOM、TN、TP、AN、AP的变异尺度相近,在100~150m,TK的变异尺度最大(463.5m);除研究区土壤TK、TN表现为中等的空间自相关性外,其他土壤养分指标均表现为强烈的空间自相关性.pH、AK呈零星斑块状分布,表现为高异质性;SOM、TP、TK的变化趋势较平缓,呈中间高、两边低的分布格局;AN、AP的空间分布具有显著的相似性,均随坡度的增加而呈片状上升趋势;TN的分布较特殊,呈中间低、两边高的趋势.植被、地形和高异质性的微生境是造成喀斯特木论自然保护区土壤养分格局差异的主要因素.
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| 关 键 词: | 喀斯特 土壤养分 空间变异 地统计学 |
Spatial heterogeneity of soil nutrients in Karst area's Mulun National Nature Reserve |
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| Liu L,Zeng FP,Song TQ,Peng WX,Wang KL,Qin WG,Tan WN.Spatial heterogeneity of soil nutrients in Karst area's Mulun National Nature Reserve[J].Chinese Journal of Applied Ecology,2010,21(7):1667-1673. |
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| Authors: | Liu Lu Zeng Fu-ping Song Tong-qing Peng Wan-xia Wang Ke-lin Qin Wen-geng Tan Wei-ning |
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| Affiliation: | Key Laboratory of Agro-ecological Processes in Subtropical Region, Institute of Subtropical Agriculture, Chinese Academy of Sciences, Changsha 410125, China. liu_lu0826@163.com |
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| Abstract: | Soil samples were collected from the depression (200 m x 100 m) in Karst area's Mulun National Nature Reserve by grid sampling method (20 m x 20 m), with the spatial heterogeneity of soil nutrients analyzed by the methods of classic statistics and geo-statistics. The soil pH showed small variation, while the soil nutrients showed moderate variation, being in the order of available phosphorus (AP) > available potassium (AK) > available nitrogen (AN) > organic matter (OM) > total potassium (TK) > total phosphorus (TP) > total nitrogen (TN). Spherical model fitted best for soil pH, exponential model fitted best for soil TK and AK, and Gaussian model fitted best for other variables. The variation range of soil pH and AK was smaller, being 58.1 m and 41.1 m, respectively, that of soil OM, TN, TP, AN, and AP was from 100 m to 150 m, and that of soil TK was the largest (463.5 m). Soil TK and TN showed moderate spatial autocorrelation, while other soil nutrients showed strong spatial autocorrelation. Soil pH and AK presented fragmented patch distribution, showing high heterogeneity, while soil OM, TP, and TK changed gently, high in the middle and low in two sides. The spatial patterns of soil AN and AP were similar, i.e., increased with landform slope. Soil TN had a distribution pattern of low in the middle and high in two sides. Vegetation, topography, and high heterogeneity of micro-habitat were the main factors caused the differences of the spatial distribution patterns of soil nutrients in the Reserve. |
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