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柴河流域典型景观类型土壤氮磷含量的空间变异特征
引用本文:吴晓妮,付登高,刘兴祝,刘永权,宗德志. 柴河流域典型景观类型土壤氮磷含量的空间变异特征[J]. 土壤, 2016, 48(6): 1210-1215. DOI: 10.13758/j.cnki.tr.2016.06.021
作者姓名:吴晓妮  付登高  刘兴祝  刘永权  宗德志
作者单位:1. 云南省高校特色生物资源开发与利用重点实验室,昆明 650214; 昆明市滇池水生态恢复重点实验室,昆明 650214;2. 云南大学环境科学与生态修复研究所,昆明,650091;3. 云南省高校特色生物资源开发与利用重点实验室,昆明,650214
基金项目:国家水体污染控制与治理科技重大专项(2012ZX07102-003)、国家自然科学基金(31360152)、云南省应用基础研究项目(2014FD040)、昆明学院校级科研项目(XJL13012)资助。*通讯作者(dgfu@ynu.edu.cn)
摘    要:为了从流域尺度了解柴河流域土壤氮、磷含量的空间变异特征,在柴河流域选择6个景观类型,并根据每个景观类型内不同土地利用方式及景观位置,共进行了72个样点的表层土壤采集,并对土壤有机质、氮、磷含量进行了测定。结果表明,磷素主要以磷矿区及富磷区林地区域含量较高,其中磷矿区土壤全磷含量平均高达20 g/kg,富磷区林地有效磷含量平均为3 687.7 mg/kg;而氮素则表现为沟渠和柴河河道底泥的含量较高,柴河底泥中全氮及碱解氮含量高达2.99 g/kg和631.8 mg/kg。相同景观类型下不同土地利用方式土壤氮磷含量在富磷区、坡耕地及坝平地均表现出较高的差异。嵌套方差分析表明景观类型及土地利用方式或所处的景观位置对土壤有机质及氮磷含量均具有显著的影响。以上结果表明柴河流域内土壤养分含量空间变异程度较高,不同景观类型和土地利用方式共同决定了土壤氮磷含量的变异。因此,在面源污染输移风险评估及防控时应同时结合景观类型及土地利用类型进行分析,并在此基础上探讨主要影响因素。

关 键 词:柴河流域  景观类型  土地利用方式  土壤养分含量
收稿时间:2015-11-25
修稿时间:2016-03-30

Spatial Variability of Soil Nitrogen and Phosphorus in the Typical Landscape Units in Chaihe Catchment
WU Xiaoni,FU Denggao,LIU Xingzhu,LIU Yongquan and ZONG Dezhi. Spatial Variability of Soil Nitrogen and Phosphorus in the Typical Landscape Units in Chaihe Catchment[J]. Soils, 2016, 48(6): 1210-1215. DOI: 10.13758/j.cnki.tr.2016.06.021
Authors:WU Xiaoni  FU Denggao  LIU Xingzhu  LIU Yongquan  ZONG Dezhi
Affiliation:Department of Life School and Technology, Kunming University, Kunming,Institute of Environmental Sciences and Ecological Restoration, Yunnan University, Kunming,epartment of Life School and Technology, Kunming University, Kunming,Department of Life School and Technology, Kunming University, Kunming,Department of Life School and Technology, Kunming University, Kunming
Abstract:In order to understand distribution characteristics of soil nitrogen and phosphorus in the Typical Landscape Units in Chaihe Catchment, soil nitrogen, phosphorus, and soil organic matter were analyzed of 72 surface soil samples collected from lands different in landscape and land-use types in Chaihe Catchment. Results show that the soils in phosphorusSminingSareaSand forests of phosphorus-enriched area were higher in phosphorus. The highest contents of total phosphorus and available phosphorus were 21.65 g/kg and 7206 mg/kg, respectively. The soils in sediments of ditches and Chaihe were higher in nitrogen, and the highest contents of total nitrogen and available nitrogen reached 4.01 g/kg and 885 mg/kg, respectively. The higher variation of concentrations of soil nitrogen and phosphorus were found in different land-use types in phosphorusSminingSarea, slope farmland, and flatland. The results of nested ANOVA analysis of soil nutrient contents show that the effects of landscape and land-use types on soil nutrients were significant, suggest both landscape and land-use determine the soil nitrogen and phosphorus contents in catchment. It is, therefore, necessary to combine landscape with land-use in risk assessment and intensify control of non-point source pollution in Chaihe Catchment.
Keywords:Chaihe Catchment   Landscape Unit   Land-use type   Soil nutrients
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