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根据东北黑土地1:250000土地质量地球化学调查数据,对黑龙江省讷河市土壤中微量元素B、Cu、Mo、Fe、Mn、Zn元素全量和有效态含量分布特征进行了分析研究.结果显示:①土壤表层Mn元素含量丰富,Fe、Mo元素含量较丰富,B、Cu、Zn元素含量较缺乏;②土壤表层微量元素Cu、Fe、Mn、Zn有效态含量丰富,B有效态含量中等,Mo有效态含量缺乏;③黑土剖面中微量元素淋溶淀积程度明显,表现为以淋溶层较低,表层和淀积层较高,而草甸土淋溶淀积不明显.依据土壤中微量元素全量和有效态含量分布特点,应选择施用微量元素肥料,促进农业可持续发展. 相似文献
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根据东北黑土地1:250000土地质量地球化学调查数据,对黑龙江省讷河市土壤中微量元素B、Cu、Mo、Fe、Mn、Zn元素全量和有效态含量分布特征进行了分析研究.结果显示:①土壤表层Mn元素含量丰富,Fe、Mo元素含量较丰富,B、Cu、Zn元素含量较缺乏;②土壤表层微量元素Cu、Fe、Mn、Zn有效态含量丰富,B有效态含量中等,Mo有效态含量缺乏;③黑土剖面中微量元素淋溶淀积程度明显,表现为以淋溶层较低,表层和淀积层较高,而草甸土淋溶淀积不明显.依据土壤中微量元素全量和有效态含量分布特点,应选择施用微量元素肥料,促进农业可持续发展. 相似文献
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福建省浦城县是水稻和薏米的重要产区,土壤环境质量和有益营养元素的含量直接影响农作物的产量和品质。基于福建省浦城县1: 5万比例尺土壤地球化学调查成果,依据相关标准和规范对研究区土壤植物生长必需营养元素、重金属环境质量和植物生长有益元素Se进行了评价,为研究区优质土地开发、特色农产品种植、高标准农田建设等提供了科学依据。评价结果表明: 植物生长必需大量元素有机质、N及碱解氮总体处于丰富—适中状态,P总体处于适中—缺乏状态,速效磷处于缺乏—很缺乏状态,K及速效钾含量丰富; 植物生长必需中量元素S的分布情况主要以丰富—适中为主; 植物生长必需微量元素Fe、B、Mn处于很缺乏状态,Mo的分布主要以很丰富—丰富为主,Zn和Cl的分布主要以很丰富—丰富为主; 植物生长有益元素Se总体处于适量状态,富硒土壤面积为6.41 km2。整体而言,浦城县土壤重金属元素达到了一等土壤环境质量标准,具备发展绿色农产品的土壤环境生态条件。 相似文献
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基于地统计学及GIS的西昌地区中生代红层区紫色土营养元素空间变异性及影响因素研究 总被引:1,自引:0,他引:1
基于大凉山生态地质调查获取的48个岩石—土壤剖面数据,通过地质建造单元调查、土壤类型划分及元素地球化学测试,采用地统计学方法和GIS技术对西昌地区中生代泥质岩类地质建造区紫色土中4种微量营养元素Cu、Zn、Mo和B的空间变异及分布特征展开研究,并讨论了不同影响因素下4种营养元素的含量特征。结果表明:(1)4种营养元素整体属于中等强度变异,高斯模型和指数模型可以很好地反映研究区4种营养元素的空间变异特征;(2)4种营养元素整体处于丰富等级,Cu、Zn和B营养元素含量高值区主要集中分布在西昌地区东北—西南带状区域内,Mo元素含量在全区范围内含量较高;(3)不同地质条件(海拔高度、地层、岩性、地质时代)和不同植被覆盖类型共同制约着Cu、Zn、Mo和B植物生长所需的营养元素含量及空间分布特征。此外,紫色土剖面土壤层4种营养元素的含量特征还受到一定的人类活动影响。研究结果可以对当地农林业发展及土地资源的合理利用提供一定参考。 相似文献
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桂东南荔枝生长营养元素农业地球化学研究 总被引:6,自引:0,他引:6
桂东南是中国重要的荔枝产区,以梧州地区为例,重点对沙头和古凤两处荔枝种植园进行了生态地球化学调查,采集了荔枝园施肥圈内、外土壤,出露的代表性基岩,以及荔枝叶、青果和熟果样品,实测了大量和微量矿质元素、稀土元素,以及土壤营养元素有效态的含量。通过计算荔枝对土壤营养元素的吸收率及荔枝生长与结果期对营养元素的需求,查明本区荔枝生长的特征营养元素为Ca、K、Mg、Mn、P、Zn、Cu、B、Fe和REE。荔枝结果期的特需营养元素为P、Mg、Mo、Cu、Zn、Ko荔枝结果早和晚期特需元素分别为Ca、Si、B和Cu、Fe、K。在岩石-土壤-荔枝株生态循环系统中,本区营养元素在土壤中保持一定的积累,提供荔枝生长的需求,因此为荔枝宜种区;但全区土壤B缺乏,Zn、Mo局部不足。Ca、K、Zn在两区岩石土壤中分布不同,可能是造成沙头荔枝比古凤荔枝迟熟的主要农业地球化学因素。研究区有害元素Pb、Cd在土壤中积累是值得关注的土壤环境问题。 相似文献
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以福建龙海市为研究区,在不同地质背景、土地利用方式、土壤类型和土壤成因类型条件下进行样品采集,共采集56件土壤样品,测定pH值、有机质含量(SOM)、阳离子交换量(CEC)、营养元素全量及有效量。利用相关分析、线性回归分析等统计手段,探究土壤中营养元素有效量的影响因素,建立并验证了研究区土壤中营养元素有效量的预测模型,以此深入了解区内土壤养分状况,为该区土地的合理利用及治理提供科学依据。结果表明:龙海市土壤呈酸性—强酸性,有机质含量较低,阳离子交换量偏低;土壤中N、P、K、Mo、Zn元素全量相对富集;元素全量、有效量及其有效度变异性较强;土壤中B、Cu、K、Mn等营养元素全量与有效量相关性较好,土壤pH值对K、Mo、Si的有效度有一定影响,CEC与Si的有效度呈显著正相关,SOM增加有利于提高Cu、Fe、Mn、P、Zn等元素有效量。通过土壤全量分析数据及土壤理化指标建立的线性模型,可以预测表层土壤中Cu、Fe、Mo、Mo、P、S、Si等营养元素的有效量,若引入更多影响因子,将有利于进一步提高模型的拟合效果,使得预测更准确。 相似文献
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在安龙县耕地质量地球化学调查评价的基础上,通过对不同成土母岩、不同土壤类型和不同耕地地类表层土壤中有机质、N、P、K、Mn、B、Cu、Mo、Zn等营养元素进行分析研究。研究结果表明:(1)营养元素平均含量由高到低依次为:有机质>K>N>Mn>P>Zn>B>Cu>Mo,其中P、Mn、Mo、Cu、Zn平均含量高于贵州和全国背景值;有机质、N、B平均含量高于全国背景值、低于贵州背景值;K平均含量低于贵州和全国背景值。有机质、N、P、K、B 、Cu变异系数小于060,含量变化幅度相对较小; Mn、Mo、Zn变异系数在091110间,含量变化幅度相对较大。(2)不同成土母岩土壤表层营养元素中,有机质与N、B,N与B,Mn与Zn在 001 水平上显著正相关。P与K在 001 水平上显著负相关;Cu与有机质、N、B在 005 水平上显著负相关。(3)不同土壤类型营养元素主要呈微-弱富集或微-弱贫化,仅石灰土中Mn为中等富集、红壤中Cu为中等贫化。耕地表层土壤营养元素富集与贫化受成土母岩、土壤类型和耕地地类影响,成土母岩为主要影响因素。 相似文献
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以广东省揭阳市揭东区表层土壤B、Cu、Mn、Zn、Mo 5种元素为研究对象,在分析微量元素含量状况和分布特征的基础上,从成土母质、土地利用方式、pH值和有机质含量4个方面来分析其对土壤微量元素含量的影响。利用GIS空间分析法、SPSS数理统计法和相关分析法对揭东区土壤微量元素含量、空间分布特征和影响因素进行分析。结果显示:揭东区表层土壤B、Cu、Mn元素的平均含量分别为18.0 mg/kg、14.5 mg/kg、313 mg/kg,含量均处于缺乏水平;Zn元素的平均含量为77.3 mg/kg,总体处于较丰富水平;Mo元素的平均含量为1.31 mg/kg,含量丰富。相关分析表明B、Cu、Mn、Zn、Mo均受到成土母质和土地利用方式的影响,在粉砂岩成土母质区土壤中B和Mn含量最高,凝灰岩成土母质区土壤中Cu和Mo含量最高,Zn在第四纪沉积物中含量最高;比较各种利用方式的土壤,B、Cu在农用地中含量最高,Mn、Zn和Mo在建设用地中含量最高;土壤pH值与B、Cu、Mn、Zn含量呈极显著的正相关关系(P<0.01);土壤有机质与B、Cu、Zn含量呈极显著的正相关关系(P<0.001... 相似文献
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Geochemical processes controlling the spatial distribution of selenium in soil and water,west central South Dakota,USA 总被引:8,自引:0,他引:8
Selenium (Se) is essential in the human diet, but has a low threshold for toxic concentration. It is recommended that nutrients
such as Se should be consumed through foods as part of a normal diet. Se concentrations in crops and meat depend on the amount
of labile Se in the soil where crops and forage are grown. Therefore, managing agriculture for optimal Se in grain crops and
forage requires an understanding of the distribution and mobility of Se. Elevated concentrations of Se occur in waters, soils,
and forage 120 km west of Pierre in west central South Dakota, USA. The research site lies in an elevated, dissected plain
where soils developed on gently dipping Pierre Shale. Soils were sampled along catena transects and waters collected from
soil, ponds, and shallow borings in areas of known elevated forage and crop Se. Soil extracts from saturated-paste extraction
and acid (aqua regia and hydrofluoric acid) extraction were analyzed. Selenate was the dominant Se species in both acid and
saturated-paste extracts; selenite and organic Se were below detection (<0.2 ppb) in the same soil extracts. On average, 98% of soil Se was not water-soluble. The distribution of total Se shows much less spatial variation than water-soluble
Se in the areas sampled. Se shows correlation with organic carbon in soils and waters, suggesting its association with organic
carbon. Ca shows some correlation to Se in acid extracts, but not in saturated-paste extracts or in waters. Total Se shows
no significant correlation to Na, Mg, and total S in the soils. Se in saturated-paste extracts and water samples shows good
correlations with Na, Mg, and SO4, suggesting that evaporitic Na–Mg–sulfate minerals may temporarily concentrate water-soluble Se in shallow soils. The dissolution
and precipitation of these Na–Mg–sulfate salts together with pH and oxidation–reduction conditions apparently control water-soluble
Se distribution and mobilization in shallow subsurface environments. 相似文献
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《Applied Geochemistry》2000,15(3):385-401
The distribution of Se in cultivated topsoils, grains, human hair and drinking water has been studied in 15 villages from a Keshan disease area of the People's Republic of China, villages being classified into 3 groups according to the Keshan disease incidence in the local population. In grain, hair and water the total Se follows expected trends; i.e. the highest concentrations are found in the villages where there is no incidence of Keshan disease. However, the soils from the high-incidence Keshan disease villages have the highest total Se content, an apparent contradiction, as Keshan disease is a response to a Se deficient environment. Soil analyses suggest that the organic content of the soils is a major factor in controlling the availability of Se and it is the high-incidence Keshan disease villages that have the most organic-rich soils. Although higher in total Se, the organic-rich soils have little bioavailable Se resulting in a Se deficient food chain. Soil pH is also seen to be a related factor in restricting the availability of Se and all the grain samples collected on soils with a pH <7.6 had a total Se content of less than 10% of the total soil Se. In an environment that can be classified as Se deficient small changes in the soil organic content and pH can have a critical affect on the Keshan disease status of a village. 相似文献
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Understanding how nutrient absorption processes in plants are related to arbuscular mycorrhizal (AM) association is critical for predicting the effects of AM symbiosis on elemental cycling for plants. Both mulberry (Morus alba) and Chinese prickly ash (Zanthoxylum bungeanum) are AM-associated plants, widely distributed in southwest China. It was hypothesized that if the nutrient absorption processes were efficiently associated with AM symbiosis in both mulberry and Chinese prickly ash, foliar nutrient concentrations—especially calcium (Ca)—would be primarily determined by the soil conditions in different regions. To investigate this, AM colonization levels of soils, nutrient levels in soils and leaves, and δ13C values of leaves were analyzed for mulberry and Chinese prickly ash. In this study, spore density in soils with low pH was higher than that in soils with high pH. The average concentrations of sugar delivered to roots in both mulberry and Chinese prickly ash in soil with relatively low pH and soil extractable cations were higher than those in other areas. The values of foliar δ13C in both mulberry and Chinese prickly ash in low soil-pH and soil extractable cations were lower than those in contrast areas, indicating that water availability was impacted by soil characteristics. The efficiency in AM-mediated processes might play an important role in translocation between soil nutrients and plant tissue. The results suggest uptake and translocation of nutrients, especially Ca, in AM-associated plants may be affected by an efficiency of AM-mediated processes. Since Sr does not appear to be similarly affected, expressing Ca and other nutrient concentrations relative to Sr could be used to evaluate whether the uptake and translocation of Ca and other nutrients are affected by AM-mediated processes. 相似文献
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《Applied Geochemistry》2000,15(1):117-132
Selenium deficiency (Keshan Disease) and toxicity diseases in humans occur within 20 km of each other in Enshi District in China and have been linked to environmental levels of Se. Low concentrations of Se are associated with Jurassic siltstones and sandstones, whereas high concentrations occur in areas underlain by Permian carbonaceous strata. Although these broad relationships between Se in the environment and the human population have been established previously, not all villages underlain by the carbonaceous strata suffer Se toxicity problems and the precise controls on Se distribution and availability have not been quantified. In the present study, soil, grain, drinking water and human hair samples are examined to determine the controls on Se availability in 3 Se environments in Enshi District. Five low-Se and Keshan Disease villages, 5 high-Se and no toxicity villages and 5 high-Se and toxicity villages were selected for the study. Results show that the majority of samples in the low-Se villages are deficient or marginal in Se, and that Se availability to plants is inhibited by adsorption onto organic matter and Fe oxyhydroxides in soil. Therefore, remediation strategies involving the application of Se fertiliser direct to the soil may not increase plant Se levels as expected. In the high-Se villages, localised lithological variations result in considerable ranges in Se concentrations in all sample types. Deficient and excessive levels of Se are recorded in samples from the same village. Selenium bioavailability in the high-Se toxicity villages is controlled by the total soil Se concentration and pH. A greater proportion of the Se is plant available in villages where the carbonaceous strata are interbedded with limestone. Villagers should be advised to avoid planting crops in these areas if possible. 相似文献
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《International Journal of Coal Geology》2006,65(1-2):51-58
A comparative study related to the concentrations of trace elements especially those of environmental concern, occurring in regular and reclaimed soils on abandoned coal mines as well as on their respective wheat crops has been undertaken in the vicinity of Ptolemais–Amynteon, Greece. The aim was to assess the impact of land reclamation on the crops.The results of elemental analysis show that the concentration of As is 1.5 to 1.7 times higher in the regular soils than in the reclaimed ones, similarly Co is 2.4 to 2.6 times higher, Cr is 1.7 to 2.8 times higher, Ni is 1.9 to3.1 times higher, Pb is 0.8 to 4.6 times higher, and Hg is equal to or 1.7 times higher. Cu, Cd and Se have the same concentration in both kind of soils and Mo and U are 1.7 to 2.0 times lower in the regular soils as compared to the reclaimed soils. Nevertheless, all concentrations are within the reported range for regular soils.Moreover, the concentrations of the studied elements in wheat grains harvested from both types of soils are approximately the same. The reason for the uniform uptake of elements by the plants is the very low solubility of the elements in the soil solutions. This is attributed to the high soil pH and the nature of the occurrence or bonding of the elements in soil minerals. 相似文献
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东南沿海是铅等重金属的地球化学高背景区。该地区广泛分布酸性红壤,酸雨沉降、不适当施肥导致土壤酸化以及由此引发土壤重金属生态风险令人关注。以福建省铁观音主产区为研究区,采集了79个茶园的表层和亚表层土壤样、茶叶样品,测定了重金属元素以及土壤常量元素和理化指标。研究表明,福建铁观音茶园土壤中Hg、Pb、Se、Zn高含量主要由地质背景所引起,土壤常量组分、有机质、酸碱度等理化条件对土壤元素含量有一定的影响;铁观音茶树老叶中As、Cd、Cr、Hg、Se、Pb、F等非植物营养元素含量明显高于嫩叶,显示这些元素随植物生长逐渐累积的特征,而嫩叶中植物生长必需的营养元素Cu、(Ni)、Zn则高于老叶,反映出微量营养元素在茶叶生长部位相对富集的特征;多数情况下土壤与茶叶间元素含量相关性差,说明茶树对土壤元素的吸收累积受到多种复杂因素的影响。研究表明茶叶与土壤Pb、Cr具有显著正相关性,为建立铅污染土壤生态效应预测评价模型提供了基础依据。 相似文献
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为研究火山岩地区土壤中营养元素的浓度水平及其空间分布特征,选取黑龙江五大连池卧虎山农场为研究区,系统采集41件表层土壤样品,测试分析氮、磷、钾等植物营养元素以及有机质、pH值等15项指标,绘制元素地球化学图,掌握了该区营养元素含量的空间分布特征。根据相关标准,评价土壤中营养元素的丰缺水平。结果表明:(1)研究区为酸性土壤,土壤营养元素含量总体丰足,只有硼含量稍缺或缺乏;(2)土壤营养元素具有明显的空间分布规律,以卧虎山北部含量较高、跃进水库附近较低为特征;(3)研究区为温暖湿润条件下的中等化学风化,伴随着成土作用营养元素持续从岩石释放到土壤中,且有机质对土壤营养元素具有良好的吸附性。本研究为当地农业生产中养分的合理利用和农业种植规划提供了第一手数据资料。 相似文献
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The purpose of this study is to investigate the enrichment level and dispersion patterns of Se and associated elements in rocks, soils and crops which were collected in the Dukpyung and the Chubu areas covered with black shales of the Okchon Group in Korea. Rock and soil samples were analyzed for Se including multiple elements by ICP, ICP-MS and INAA, and crop samples by INAA. Soil pH and loss-on-ignition (LOI) were also measured. 相似文献
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Data on soils with six Neoglacial moraines of the Klutlan Glacier have been compared with those from moraines at the warm, moist coastal site of Glacier Bay, 160 km south. Percentage organic matter increases rapidly for the first 100 to 150 yr of soil development and then continues to rise gradually for the next 100 yr. Soil pH falls from 8.0 in recent till to approximately 6.0 in 200-yr-old soils. Nitrogen levels in the mineral soil increase from near zero in recent tills to 0.7% in soils 175–200 yr old; organic horizons of soils associated with spruce forests in later successional stages contain approximately 1% nitrogen. Concentrations of certain inorganic phosphate ions in the different-aged soils increase continually throughout the succession. Data for nine chemical variables were subjected to a principal components analysis; the major pattern in the data reflects the differences between soils of low organic content and high pH present in early successional stages, and nutrient-rich soils with high organic content and low pH present after succession has progressed toward the spruce forest. These trends in soil development with time are strikingly similar to those reported from Glacier Bay, except that the changes in soil properties appear to be delayed by 50–100 yr at the Klutlan terminus. Although numerous signs of nitrogen deficiency have been identified in plants growing on new soils at Glacier Bay, none was observed visually in living plants or in nutrients measured in samples of foliage from three plant taxa (Epilobium latifolium, Salix spp., and Populus balsamifera) taken from the Klutlan moraines. Concentrations of nitrogen and other nutrients (Ca, Mg, K, total P) in the foliage samples show no clear trends with increasing soil development. Low temperatures, a short growing season, and very low mean annual precipitation probably limit plant growth and account for the delayed soil development on the Klutlan moraines. 相似文献
20.
Zinc availability in relation to selected soil properties in a crude oil polluted eutric tropofluvent 总被引:2,自引:2,他引:0
M. C. Chukwuma E. T. Eshett E. U. Onweremadu Ph.D. M. A. Okon 《International Journal of Environmental Science and Technology》2010,7(2):261-270
The study investigated zinc availability in relation to selected soil properties in a crude-oil-polluted Eutric Tropofluvent in Egbema, Southeastern Nigeria. For this purpose, three treatments have been applied: unpolluted soil, polluted without vegetation and polluted with vegetation with five replicates arranged in a randomized complete block design. Guided by transect sampling technique, soil sampling was carried out in June 2008. Soil samples were collected from the three different land units using soil auger at a depth of 0–20 cm. Standard laboratory procedures were adopted in analysing the soils. Soil generated data were subjected to analysis of variance and correlation analysis. Results showed highly significant variation (p = 0.01) in bulk density, porosity, silt: clay ratio, pH, effective cation exchange capacity, percent base saturation, total nitrogen, organic matter, available phosphorus, calcium: magnesium ratio and zinc. It was found that zinc was higher in crude oil polluted soils than in non-polluted soil and it was below critical limits. Zinc availability in relation to selected soil properties in the crude oil polluted soils indicated that clay and organic matter did not affect zinc availability, while pH and effective cation exchange capacity did. A study on zinc dynamics in crude-oil-polluted soils will certainly provide further information on the management of crude-oil-polluted soils since it is one of the key micronutrient for crop productivity. 相似文献