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通过对济阳县生态地球化学调查研究,该区受成土母质来源、土壤类型、地形地貌及其理化性质等因素影响,土壤元素全量、有效量及有效度表现为:低平洼地土壤中K,P,N,Se,Mn,Fe,Zn,Cu和Mo全量较高,P,N,Se和Cu有效量较高,显示为低平洼地为黏质成分的沉积成因特点;而决口扇形地区土壤Cu,Mo,N,Zn,B有效量和全量均偏低。富含有机质,且pH相对较低的潮土中Se,Cu,Mo和B等元素有效度较高,贫有机质、pH相对较高的草甸风沙土中N,Fe,Cu,Mo,B和S等元素有效量较低,但K有效量和有效度均较高。统计分析表明,土壤中K,P,N,S和Cu等元素全量与有效量间具显著正相关性,表明全量是有效量的重要影响控制因素;有机质含量与K,P,Zn,Cu和B有效度间为显著正相关,说明有机质较高有利于土壤元素活化;Fe,P,S,Zn,B和Cu有效度与pH值为显著负相关,表明土壤酸性增强会增加这类元素的生物有效性。 相似文献
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山东省成武县农业地质环境土壤地球化学调查是按浅层、深层土壤样品1点/4km2。测试N,P,K,Cu,Zn,B,Mo,Mn,F,As,Hg,Pb,Cr,Cd等14种指标。在统计这些指标的表层、深层土壤地球化学特征参数的基础上,对其与世界、全省同类参数的差异进行了分析,并分析了区内表层、深层土壤元素含量的相关性,认为该区表层土壤元素含量的显著特征是高F,Hg,Pb而低Mo;大部分元素在表层土壤中的含量继承了土壤母质的成分特征,但N,F,Hg,Pb等受人为活动和污染源的作用在表层土壤中明显富集。通过分析表层土壤营养元素有效量可知,P,K,Zn的有效量高;供肥能力强;而Mo,Cu,Mn明显偏低。利用易污染元素浅层土壤含量值,通过污染指数法,对全区土壤污染程度进行了评价;区内土壤无严重污染区存在,并且明显污染地段面积较小,呈零星分布,说明区内污染程度较轻。 相似文献
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一、工作目的、任务及工作方法
对工作区内表层土壤样品进行采集,对6种微量元素(Fe、Cu、Mn、Zn、B、Mo)的全量及有效态含量进行分析,并与其全量分布特征及规律加以对比,了解全量及有效态含量在测区内的分布特征和规律。初步查明农作区范围内土壤中微量元素含量(全量),进一步详细划分土壤类型与分布,为土壤的合理利用与改良,提供科学依据。采取土壤类型地质调查、土壤地球化学调查和土壤剖面测量为主要工作方法。 相似文献
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山东省曹县地区土壤地球化学调查是按浅层土壤样品1点/4 km~2,深层土壤样品1点/16 km~2。测试N,P,K,Cu,Zn,B,Mo,Mn,F,As,Hg,Pb,Cr,Cd等14种指标。在统计这些指标的表层、深层土壤地球化学特征参数的基础上,对其与世界、全省同类参数的差异进行了分析,并分析了区内表层、深层土壤元素含量的相关性,认为该区表层土壤元素含量的显著特征是高F而低P,Zn,Mo。大部分元素在表层土壤中的含量继承了土壤母质的成分特征,但N,P,F,Hg等受人为活动和污染源的作用在表层土壤中明显富集。 相似文献
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通过对山东省巨野县土壤元素背景值状况的计算和研究,发现土壤中Ca,Cd,Hg,Mg,F等元素显著高于全省和全国背景值;Mo,Pb,Cu,Co等元素则低于全省和全国背景值;其中土壤Mo含量远低于全省和全国平均水平。土壤质地是决定区内土壤N,K,Mg等元素含量的关键;由黄河冲积物发育的土壤P含量普遍较高,TOC空间分布与N密切相关。城镇及工业区土壤中Hg和Pb的积累趋势明显。元素分级结果显示,区内土壤K和有机质比较丰富;N,P和有机质缺乏区占比分别为23.82%,15.39%和6.47%。微量元素中Ca,Mg,S,Cl等元素较为丰富;而Mo,Si,Se,Co,Zn,Cu,Fe,Mn等元素的缺乏状况最突出。土地质量地球化学评价分等结果显示,全区大部分土地质量优良,区内东北部和中西部地区土壤肥力较好,但有害元素含量偏高,西北部地区肥力较差导致土地质量等级偏低。全区土壤有机质含量不足以满足农业生产需要,加之局部土壤盐分偏高,对粮食作物生长不利。区内土壤环境质量水平总体较好,多数重金属元素分布受地质背景控制,但Hg和Pb污染位置与城镇及工业区分布明显存在一定关系,高值区多呈点状分布于人类活动强烈的地带,说明工业或生活排放对区内土壤中Hg,Pb的积累贡献较大。 相似文献
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基于金乡县南部地区土地质量地球化学调查与评价项目,系统采集表层土壤和大蒜样品,对As、Cd、Cr、Cu、Hg、Ni、Pb、Zn共8种重金属元素全量及形态数据进行深入分析,研究发现,土壤重金属形态除Cd、Hg外以残渣态占绝对优势;重金属生物可利用系数与SOM、pH、CEC均呈负相关;大蒜植株不同部位对元素的富集特征具有明显差异性,As、Cd、Cr、Pb、Ni、Cu、Zn表现为须根>叶身>假茎>蒜头;蒜头Cd与土壤Cd全量呈显著性正相关,其余元素与对应土壤中全量相关关系不明显。 相似文献
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在吉林省黑土区系统的野外调查和土壤及玉米籽实样品采集、测试的基础上,采用地球化学分析方法及SPSS技术,研究了Cd元素的土壤地球化学特征,及其在土壤和作物籽实中的含量特征和相关性,用以揭示Cd元素在土壤-作物系统中的转化累积特征及影响因素,为粮食安全服务。研究表明:吉林省黑土区Cd元素全量高于吉林省及全国土壤背景值,但不存在污染,籽实中Cd含量低于国家安全标准。土壤中Cd元素有效态转化程度较高,受其全量控制,同时Zn、 Cu及P元素有效量对Cd转化的作用明显,偏酸性土壤更利于Cd元素的转化。玉米籽实对Cd吸收程度较低,主要取决于其自身的生物特性, Zn元素缺乏可能导致玉米籽实对Cd元素吸收增加。 相似文献
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通过测定雷州半岛南部845个耕地土壤样品pH、有机质、全氮、有效磷、速效钾、碱解氮的含量,采用层次分析法确定各肥力评价指标权重,应用模糊数学法对该区域耕地土壤肥力进行综合评价,并利用ArcGIS 9.2软件对土壤肥力空间变异进行分析.结果表明:雷州半岛南部土壤有机质、全氮、有效磷、速效钾、碱解氮平均值分别为26.18 g/kg、1.48 g/kg 、34.63 mg/kg、158.57 mg/kg、133.17 mg/kg;土壤速效磷的变异系数最高,为103.14%,属强变异性,有机质、速效钾、碱解氮、全氮的变异系数属中等变异性,pH值的变异系数最小.土壤肥力总体水平处于中等偏低;从空间分布来看,土壤肥力中部高,东北、西南部相对较低 相似文献
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昌乐县土地质量地球化学调查与评价是按5件/km^2的密度布设表层土壤样品,并以“多点取样”的方式进行样品采集,采样深度为0~20cm。分析有机质、N,P,K,B,Mo,Mn,Se,I,Ge,F,Pb,Zn,As,Cd,Cr,Cu,Hg,Ni,Co,V,pH和全盐量,共23项。该文统计了昌乐县表层土壤5818件样品的23种元素(指标)的数据,通过spss软件进行了聚类分析将23种元素(指标)划分为3个簇群和9个单元素簇,认为第一簇群主要受地质背景的影响;第二簇群主要受黏土矿物的影响;第三簇群主要与自然因素及人类农业生产活动有关。通过因子分析得出用10个因子就基本可以代表昌乐县原来23种元素(指标)的分布特征,并对F^1,F^2因子进行了解释,进一步证实了Ni,Co,Cr,V,Mn等亲铁元素与地质背景密切相关;有机质、N,Se则与自然因素及人类农业生产活动有关。首次摸清了昌乐县表层土壤元素组合分布特征,认为昌乐县表层土壤元素分布主要与地质背景、元素自身性质和人类农业生产活动有关。 相似文献
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I INTRODUCTIONWetland has very important effect on retainingwater and against drought, regUlating climate, controlling soil erosion and so on ac. Today men often attachimportance to economic effect of wetland reclamation,but neglect and destroy other functions and effectswhich result in blind wetland development, a lot ofwetland degeneration. The area of freshwater wetland inthe 1950s was 134 x 10'ha, but in the 1970s 70% hadchanged into farmland (MITSCH, 1993). The area ofwetland in d… 相似文献
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Nitrogen(N) and phosphorus(P) are limited nutrients in terrestrial ecosystems, and their limitation patterns are being changed by the increase in N deposition. However, little information concerns the plant growth and the soil biological responses to N and P additions among different soils simultaneously, and these responses may contribute to understand plant-soil interaction and predict plant performance under global change. Thus, this study aimed to explore how N and P limitation changes in different soil types, and reveal the relationship between plant and soil biological responses to nutrient additions. We planted Dodonaea viscosa, a globally distributed species in three soil types(Lixisols, Regosols and Luvisols) in Yuanmou dry-hot valley in Southwest China and fertilized them factorially with N and P. The growth and biomass characters of D. viscosa, soil organic matter, available N, P contents and soil carbon(C), N, P-related enzyme activities were quantified. N addition promoted the growth and leaf N concentration of D. viscosa in Lixisols; N limitation in Lixisols was demonstrated by lower soil available N with higher urease activity. P addition promoted the growth and leaf P concentration of D. viscosa in Luvisols; severe P limitation in Luvisols was demonstrated by a higher soil available N: P ratio with higher phosphatase activity. Urease activity was negatively correlated with soil available N in Nlimited Lixisols, and phosphatase activity was negatively correlated with soil available P in P-limited Luvisols. Besides, the aboveground biomass and leaf N concentration of D. viscosa were positively correlated with soil available N in Lixisols, but the aboveground biomass was negatively correlated with soil available P. Our results show similar nutrient limitation patterns between plant and soil microorganism in the condition of enough C, and the nutrient limitations differ across soil types. With the continued N deposition, N limitation of the Lixisols in dry hot valleys is expected to be alleviated, while P limitation of the Luvisols in the mountaintop may be worse in the future, which should be considered when restoring vegetation. 相似文献
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Xue-mei Wang Bang-guo Yan Guang Zhao Ji-xia Zhao Liang-tao Shi Gang-cai Liu 《山地科学学报》2018,15(6):1283-1298
Nitrogen (N) and phosphorus (P) are limited nutrients in terrestrial ecosystems, and their limitation patterns are being changed by the increase in N deposition. However, little information concerns the plant growth and the soil biological responses to N and P additions among different soils simultaneously, and these responses may contribute to understand plant-soil interaction and predict plant performance under global change. Thus, this study aimed to explore how N and P limitation changes in different soil types, and reveal the relationship between plant and soil biological responses to nutrient additions. We planted Dodonaea viscosa, a globally distributed species in three soil types (Lixisols, Regosols and Luvisols) in Yuanmou dry-hot valley in Southwest China and fertilized them factorially with N and P. The growth and biomass characters of D. viscosa, soil organic matter, available N, P contents and soil carbon (C), N, P-related enzyme activities were quantified. N addition promoted the growth and leaf N concentration of D. viscosa in Lixisols; N limitation in Lixisols was demonstrated by lower soil available N with higher urease activity. P addition promoted the growth and leaf P concentration of D. viscosa in Luvisols; severe P limitation in Luvisols was demonstrated by a higher soil available N: P ratio with higher phosphatase activity. Urease activity was negatively correlated with soil available N in Nlimited Lixisols, and phosphatase activity was negatively correlated with soil available P in P-limited Luvisols. Besides, the aboveground biomass and leaf N concentration of D. viscosa were positively correlated with soil available N in Lixisols, but the aboveground biomass was negatively correlated with soil available P. Our results show similar nutrient limitation patterns between plant and soil microorganism in the condition of enough C, and the nutrient limitations differ across soil types. With the continued N deposition, N limitation of the Lixisols in dry hot valleys is expected to be alleviated, while P limitation of the Luvisols in the mountaintop may be worse in the future, which should be considered when restoring vegetation. 相似文献